Patent Publication Number: US-2003236022-A1

Title: Apparatus for indicating a terminal insertion position

Description:
BACKGROUND OF THE INVENTION  
       [0001] 1. Field of the Invention  
       [0002] This invention relates to an apparatus for indicating a terminal insertion position.  
       [0003] 2. Description of Related Art  
       [0004] In general, a wire harness is an electric wiring system that forms a predetermined network by connecting a plurality of electric wires to connectors.  
       [0005] Upon producing such a wire harness, it is necessary to connect electric wires having terminals attached thereto to cavities in connectors to form circuits. This operation requires connecting a specified electric wire having a terminal to each cavity in each connector.  
       [0006] However, it is difficult to connect the specified electric wires having terminals to each cavity. In the case of performing this work manually, it is necessary to provide a mechanism to assist in indicating an inserting order. Such a mechanism generally adopts a method in which an indicator displays an artificial arrangement of cavities so that a lamp corresponding to an insertion objective cavity is lit up (referred to as a “lamp method”) or a physical method in which an indicating means indicates an insertion objective cavity directly (referred to as an “indicating method”).  
       [0007] However, since the indicator is spaced from the worker&#39;s hands in the lamp method, errors will occur on account of a false perception of a worker. On the other hand, it is difficult to indicate an insertion objective cavity in the indicating method, if another terminal has been already inserted into a cavity near the insertion objective cavity.  
       SUMMARY OF THE INVENTION  
       [0008] In view of the above problems, an object of the present invention is to provide an apparatus for indicating a terminal insertion position that can efficiently indicate an insertion objective cavity and prevent human error.  
       [0009] In order to solve the above problem, the present invention is directed to an apparatus for indicating a terminal insertion position wherein, when a terminal of an electric wire is inserted into a corresponding cavity out of plural cavities that can be specified by intersected two-dimensional coordinates to produce a wire harness, a target cavity to receive the terminal is successively indicated to a worker. The apparatus includes a housing holder for holding a connector housing with a terminal able to be inserted into the cavity; an indicating bar disposed in the apparatus to move with respect to the housing holder and extending along one of the coordinates of the cavity in the housing contained in the housing holder; an indicator disposed on the indicating bar for indicating the other coordinate of the cavity indicated by the indicating bar; a driving mechanism for driving the indicating bar; and a controlling means for controlling the driving mechanism and the indicator so that the indicating bar moves to a position opposed to the one coordinate of the cavity with the indicating bar avoiding interference with an electric wire with terminals that has been inserted and the indicator displays the other coordinate of an insertion objective cavity.  
       [0010] In the present invention, when an electric wire with terminals is manually inserted into a corresponding cavity, since the indicating bar moves to a position opposed to one of the coordinates of the insertion objective cavity to indicate the one coordinate, it is possible to indicate a target to a worker in the vicinity of the objective cavity. Accordingly, it is possible to prevent an insertion error. On the other hand, since the present invention adopts the indicator provided on the indicating bar as means for indicating the other coordinate of the insertion objective cavity, it is possible to indicate both coordinates of the insertion objective cavity while the other cavities are open and to indicate an insertion target of a terminal without interference with the electric wire with terminals, the terminal of which has been already inserted into the cavity. Consequently, even if any cavity out of plural cavities is indicated at random, a worker can proceed with an inserting work of terminals without any difficulty. Accordingly, even if a kind of an objective wire harness to be produced is changed, it is possible to alter a setting of the controlling means without any restriction upon a change of specification.  
       [0011] According to another aspect of the present invention, the housing holder in the apparatus includes a housing-positioning hole for containing the housing; a regulating member provided on the housing holder for opening and closing the housing-positioning hole with the cavity in the housing held in the housing-positioning hole being open; and a driving member for displacing the regulating member between a detachable position where the housing is allowed to be inserted into or to be removed from the housing-positioning hole and a regulating position where the housing is restrained from moving.  
       [0012] According to the present invention, a worker can easily insert the housing into the housing holder by moving the regulating member to the detachable position by the driving member. When the regulating member is moved to the regulating position, the electric wire with terminals can be inserted into the cavity and the regulating member is prevented from movement to a direction releasing the cavity, since the cavity in the housing is open.  
       [0013] Accordingly, a worker can efficiently proceed with an inserting work of an electric wire with terminals.  
       [0014] An aspect of the present invention provides an apparatus for indicating a terminal insertion position in which a terminal of an electric wire is to be inserted into a target cavity of a plurality of cavities in a connector housing, the target cavity specified by intersecting two dimensional coordinates, to produce a wire harness, wherein target cavities to receive respective terminals are successively indicated to an operator, the apparatus including a housing holder configured to hold a connector housing such that a terminal may be inserted into a target cavity, an indicating bar provided in the apparatus to move with respect to the housing holder, the indicating bar extending along one of the coordinates of the target cavity in the housing inserted in the housing holder and indicating the one coordinate of the target cavity, an indicator provided on the indicating bar that indicates the other coordinate of the target cavity indicated by the indicating bar, a driving mechanism that drives the indicating bar; and a controlling device that controls the driving mechanism and the indicator so that the indicating bar moves to a position corresponding to the one coordinate of the target cavity with the indicating bar avoiding interference with an electric wire that has been inserted and the indicator displays the other coordinate of the target cavity.  
       [0015] In a further aspect of the present invention, the housing holder may include a housing positioning hole configured to contain the connector housing; a regulating member provided on the housing holder configured to open and close the housing positioning hole; and a driving member configured to displace the regulating member between an open position in which the connector housing may be inserted into or removed from the housing positioning hole and a closed position in which the connector housing is prevented from being inserted or removed from the housing positioning hole. Further, the housing holder, the indicating bar, and the driving mechanism may be contained within a casing, and the apparatus further includes a housing base provided in the casing, the housing base supporting the housing holder so that the connector housing is held by the housing holder with an end face thereof extending in a longitudinal direction.  
       [0016] In a further aspect of the present invention, the driving mechanism includes a drive screw provided in the casing and extending along the longitudinal direction; a driving block mounted on the drive screw and connected to the indicating bar; and an X-axis motor provided in the casing and connected to the drive screw, wherein the X-axis motor drives the indicating bar, via the drive screw and the driving block, along the longitudinal direction between cavities in the connector housing. Further, the housing base may support a plurality of housing holders next to each other in the longitudinal direction and the X-axis motor drives the indicating bar along the longitudinal direction between connector housings in the housing holders. Further, the driving mechanism may further include a second drive screw provided in the casing and extending along a direction transverse to the longitudinal direction; a driving head mounted on the second drive screw and connected to the indicating bar; and a Y-axis motor provided in the casing and connected to the second drive screw, wherein the Y-axis motor drives the indicating bar, via the second drive screw and the driving head, along the transverse direction between cavities in the connector housing. The indicator may include a lamp or a plurality of lamps corresponding to respective terminal insertion positions in the transverse direction. The housing base may support the housing holder so that the connector housing is held by the housing holder with an end face thereof extending in the longitudinal and the transverse directions so that a terminal may be inserted in a target cavity in a Z-axis direction perpendicular to the X-axis and the Y-axis.  
       [0017] In a further aspect of the present invention, the driving head includes a driving base supported by the second drive screw; a pair of rails provided on the driving base and extending in a Z-axis direction perpendicular to the X-axis and the Y-axis; and a coupling base provided on the indicator, the coupling base configured to slide between the pair of rails, wherein the indicator is movable in the Z-axis direction. The indicator may further include an indicating finger extending from the coupling base. The apparatus may further include an indicating base mounted on the casing; and a lamp provided on the indicating base, the lamp indicating to an operator terminal insertion information. The casing may be provided in an inclined position, facing an operator position. The apparatus may further include a tension testing device including a mounting plate mounted in the casing, the mounting plate including a plurality of through holes therein; a housing holder adaptor configured to receive the housing holder and including a plurality of posts configured to couple with the through holes in the mounting plate so that the housing holder adaptor is movable relative to the mounting plate in a Z-axis direction perpendicular to the X-axis and the Y-axis; and a sensor provided on the mounting plate and a detecting plate mounted on the housing holder adaptor for interaction with the sensor to detect movement in the Z-axis direction between the mounting plate and the housing holder adaptor; wherein when an inserted terminal is pulled in the Z-axis direction the sensor and the detecting plate detect movement between the mounting plate and the housing holder adaptor and the controlling device indicates tension induced by the terminal pulling.  
       [0018] A further aspect of the present invention provides in combination, a wire harness producing system; an electric wire containing unit; a housing containing unit; and an apparatus for indicating a terminal insertion position.  
       [0019] Another aspect of the present invention provides a method of indicating a terminal insertion position in which a terminal of an electric wire is to be inserted into a target cavity of a plurality of cavities in a connector housing, the target cavity specified by intersecting two dimensional coordinates, to produce a wire harness, wherein target cavities to receive respective terminals are successively indicated to an operator, the method including holding a connector housing in a housing holder such that a terminal may be inserted into a target cavity; moving an indicating bar with respect to the housing holder, the indicating bar extending along one of the coordinates of the target cavity in the housing inserted in the housing holder and indicating the one coordinate of the target cavity; indicating the other coordinate of the target cavity with an indicator provided on the indicating bar; driving the indicating bar with a driving mechanism; and controlling the driving mechanism and the indicator so that the indicating bar moves to a position corresponding to the one coordinate of the target cavity with the indicating bar avoiding interference with an electric wire that has been inserted and the indicator displays the other coordinate of the target cavity. The method may further include containing the connector housing in a housing positioning hole in the housing holder, the housing holder including a regulating member configured to open and close the housing positioning hole; and displacing the regulating member with a driving member between an open position in which the connector housing may be inserted into or removed from the housing positioning hole and a closed position in which the connector housing is prevented from being inserted or removed from the housing positioning hole. Further, the method may include containing the housing holder, the indicating bar, and the driving mechanism in a casing; providing a housing base in the casing, the housing base supporting the housing holder so that the connector housing is held by the housing holder with an end face thereof extending in a longitudinal direction; driving the indicating bar along the longitudinal direction between cavities in the connector housing to indicate a target cavity position along the longitudinal direction; and driving the indicating bar along a direction transverse to the longitudinal direction to indicate a target cavity position along the transverse direction. The indicator may include a plurality of lamps, and the method may further include further indicating the target cavity position along the transverse direction via the lamps. Further, the housing base may support the housing holder so that the connector housing is held by the housing holder with an end face thereof extending in the longitudinal and the transverse directions, and the method may further include inserting a terminal in a target cavity in a direction perpendicular to the longitudinal and the transverse directions. 
     
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
     [0020] The above, and other objects, features and advantages of the present invention will become apparent from the following description of the preferred embodiments, given as nonlimiting examples, with reference to the accompanying drawings in which:  
     [0021]FIG. 1 is a schematic perspective view of a wire harness producing system in an embodiment of the present invention;  
     [0022]FIG. 2 is an enlarged perspective view of a part of an electric wire container unit in the wire harness producing system shown in FIG. 1;  
     [0023]FIG. 3 is a partially enlarged perspective view of an apparatus for indicating a terminal insertion position in the wire harness producing system shown in FIG. 1;  
     [0024]FIG. 4 is a partially enlarged perspective view of the indicating apparatus, illustrating a structure in which a part of a driving mechanism is removed;  
     [0025]FIG. 5 is a partially enlarged and exploded perspective view of a driving head shown in FIG. 4;  
     [0026]FIG. 6 is a perspective view of the indicating apparatus shown in FIG. 3, illustrating a structure in which a mounting table and a part of a holder adapter are removed;  
     [0027]FIG. 7A is a partially enlarged perspective view of a detecting means shown in FIG. 6, illustrating the adapter set before being attached to the mounting table;  
     [0028]FIG. 7B is a partially enlarged perspective view of a detecting means shown in FIG. 6, illustrating the adapter set after being attached to the mounting table;  
     [0029]FIG. 8 is an enlarged perspective view of a housing holder in the indicating apparatus shown in FIG. 3;  
     [0030]FIG. 9A is a cross sectional view of the housing holder, illustrating the housing holder set before a housing is inserted into the housing holder;  
     [0031]FIG. 9B is a cross sectional view of the housing holder, illustrating the housing holder set when an operating plate is controlled;  
     [0032]FIG. 9C is a cross sectional view of the housing holder, illustrating the housing holder set after the housing is inserted into the housing holder;  
     [0033]FIG. 10 is a plan view of an indicating bar, illustrating an operation of the indicating bar;  
     [0034]FIG. 11 is a block diagram of a control device in the wire harness producing system;  
     [0035]FIG. 12 is a flow chart illustrating a process in a main routine of a controlling means;  
     [0036]FIG. 13 is a flow chart illustrating an electric wire taking-out display shown in FIG. 12;  
     [0037]FIG. 14 is a flow chart illustrating an A-end processing shown in FIG. 12;  
     [0038]FIG. 15 is a flow chart illustrating a B-end processing shown in FIG. 12;  
     [0039]FIG. 16 is a flow chart illustrating a tension test processing in the flow charts shown in FIGS. 14 and 15;  
     [0040]FIG. 17A is a plan view of an indicating bar that indicates a cavity at an access indication position;  
     [0041]FIG. 17B is a plan view of an indicating bar that indicates a cavity at a spaced indication position;  
     [0042]FIG. 18A is a side elevation view of a part of the indicating apparatus in the tension test processing shown in FIG. 16, illustrating the indicating apparatus set before carrying out the tension test processing;  
     [0043]FIG. 18B is a side elevation view of a part of the indicating apparatus in the tension test processing shown in FIG. 16, illustrating the indicating apparatus set regularly in the tension test processing; and  
     [0044]FIG. 18C is a side elevation view of a part of the indicating apparatus in the tension test processing shown in FIG. 16, illustrating the indicating apparatus under excessive tension. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS  
     [0045] The particulars shown herein are by way of example and for purposes of illustrative discussion of the embodiments of the present invention only and are presented in the cause of providing what is believed to be the most useful and readily understood description of the principles and conceptual aspects of the present invention. In this regard, no attempt is made to show structural details of the present invention in more detail than is necessary for the fundamental understanding of the present invention, the description is taken with the drawings making apparent to those skilled in the art how the forms of the present invention may be embodied in practice.  
     [0046] A preferred embodiment of an apparatus for indicating a terminal insertion position in accordance with the present invention will be described by referring to the drawings.  
     [0047]FIG. 1 is a schematic perspective view of a wire harness producing system  1  in an embodiment of the present invention.  
     [0048] Referring now to FIG. 1, the wire harness producing system  1  produces a wire harness by inserting a terminal  2   a  (FIG. 2) of an electric wire with terminals  2  into a corresponding cavity  3   a  (FIG. 10) out of cavities  3   a  in a plurality of housings  3 . The wire harness producing system  1  includes an electric wire container unit  10  for containing various types of electric wires  2  with terminals (FIG. 2) by dividing types of electric wires, an apparatus  20  for indicating a terminal inserting position (hereinafter referred to as an “indicating apparatus”) provided on an end of the electric wire container unit  10 , and a housing container unit  40  that is provided on an end of the indicating apparatus  20 , opposed to the electric wire container unit  10 , and being configured to contain various types of housings  3 . The electric wire container unit  10 , indicating apparatus  20 , and housing container unit  40  are mounted on tables  10   a ,  20   a , and  40   a , respectively, that stand lower, in order. A operator occupies a space near the housing container unit  40  opposed to the indicating apparatus  20  in the wire harness producing system  1 . The operator inserts the housing  3  (FIG. 10) contained in the housing container unit  40  into a housing holder  37  (described after) of the indicating apparatus  20  and inserts the terminal  2   a  (FIG. 2) of the electric wire with terminals  2  contained in the electric wire container unit  10  into the cavity  3   a  (FIG. 10) in the housing  3 . Hereinafter, the side that the operator occupies is defined as a front side with respect to the wire harness producing system  1 . Left and right directions taken from the front side are defined as the X-direction, and back and forth directions taken from the front side are defined as the Y-direction.  
     [0049] The housing container unit  40  includes a plurality of housing containers  41  arranged in the X-direction on the table  40   a . Each housing container  41  may be constructed of any suitable material such as, for example, a synthetic resin material or the like. Each housing container  41  may take any form, and in the present embodiment, is formed into a substantially rectangular parallelepiped container that is open at upper and front sides. Different types of housings  3  may be contained in the respective housing containers  41 .  
     [0050] The electric wire container unit  10  includes containing grooves  11  stacked in any number of stages, and in the present embodiment, are stacked in three stages. The containing grooves are juxtaposed in the X-direction in this embodiment.  
     [0051]FIG. 2 is an enlarged perspective view of a part of the electric wire container unit  10  in the wire harness producing system  1 .  
     [0052] Referring to FIGS. 1 and 2, each containing groove  11  is formed into a gutter-like configuration and may contain each of different types of electric wires with terminals  2 . End portions of the containing grooves  11  are arranged in a step-like configuration, as seen from a side view, and opposed to the indicating apparatus  20 . Three coupling bars  13  extending in the X-direction couple the end portions of the containing grooves  11  to one another. The coupling bars  13  define terminal end sections of the respective containing grooves  11 . Each coupling bar  13  may be a substantially rectangular member and has a gutter lamp  13   a  on an upper surface corresponding to each containing groove  11 . The gutter lamp  13   a  switches on and off so that the lamp  13   a  indicates to an operator that the electric wire with terminals  2  should be taken out from the corresponding containing groove  11 . The coupling bar  13  is provided on the upper surface near the gutter lamp  13   a  with a holder  13   c  for containing an indicating card  13   b . The type (as well as other identifying information) of electric wire with terminals  2  contained in the corresponding containing groove  11  is described on the indicating card  13   b . In general, the electric wire with terminals  2  to be inserted into the containing groove  11  is a cable D on opposite ends of which terminals  2   a  are crimped. On the other hand, a special type electric wire with terminals  2  is, for example, a branched cable D an end of which is different in color or dimension from a trunk cable D, or on an end of which a terminal  2   a  different in shape from the trunk cable D is fixed (not shown).  
     [0053] The respective containing grooves  11  are inclined toward the operator&#39;s position so that the electric wires with terminals  2  contained in the grooves  11  are directed at the operator and secured to the table  10   a  with the grooves being open at the top. The table  10  is provided on a front left leg with an indicating lamp  14  that sends to a operator a notification that work is completed or of special working conditions. The indicating lamp  14  includes a fixing rod  14   a  to be secured to the leg of the table  10 . The fixing rod  14   a  extends vertically and a lower end of the rod  14   a  is secured to the leg of the table  10  while an upper end of the rod  14   a  is provided with a lamp body  14   b . The lamp body  14   b  is provided on the end opposite to the fixing rod  14   a  with a three-stage notification lamp unit  15 . In this embodiment, the three-stage notification lamp  15  includes a loose end notification lamp  15   a  at an upper stage, an irregularity notification lamp  15   c  at a middle stage, and a completion notification lamp  15   b  at a lower stage. The phrase “loose end” means here that only one of terminals  2   a  fixed on the opposite ends of the cable D is inserted into the housing  3  during an inserting operation. That is, the other terminal  2   a  will not be inserted into the housing  3  and will be left as a free end.  
     [0054] Referring to FIG. 1, the indicating apparatus  20  has a casing  21  that forms a container. The casing  21  may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped container that is open at the top. The casing  21  is provided on the table  20   a  so that longitudinal sides thereof extend in the X-direction. The casing  21  is inclined toward an operator so that the open section is directed to the operator. The casing  21  is secured to the table  20   a  with the top being open. Before the casing  21  is inclined, the casing  21  extends in a direction normal to an XY-plane is defined as a  
     [0055]FIG. 3 is an enlarged perspective view of a portion of the indicating apparatus  20  in the wire harness producing system  1  shown in FIG. 1. FIG. 4 is a perspective view similar to FIG. 3, illustrating the indicating apparatus  20  from which a part of a driving mechanism is removed.  
     [0056] Referring to FIGS. 3 and 4, an indicating base  23  is provided on an end of the casing  21  that is opposed to an operator. The indicating base  23  is provided with a pilot lamp  23   a  for a special type of an electric wire that informs an operator that an insertion objective electric wire with terminals  2  is a special type. For example, an insertion objective terminal  2   a  out of more than two special terminals  2   a  of the electric wire with terminals  2  is stuck on the lamp  23   a  beforehand (not shown). The pilot lamp  23   a  for a special type electric wire informs an operator of the insertion objective terminal  2   a , when the lamp  23   a  lights up. Even if an inserting operation requires special steps (for example, plural same terminals  2   a  to be inserted into a single same housing  3  or different insertion directions of the respective terminals  2   a ), a schematic diagram indicating the process may be provided to the pilot lamp  23   a  for a special type of electric wire.  
     [0057] An X-axis motor  24  is fixed on a right end of a front surface (hereinafter referred to a base front surface  21   a ) of the casing  21  opposed to the pilot lamp  23   a  for a special type of electric wire. The X-axis motor  24  is fixed on the base front surface  24  so that the motor  24  extends in the X-direction in the casing  21 . The X-axis motor  24  holds an end of a ball screw shaft  24   a . The other end of the ball screw shaft  24   a  is disposed to extend to the left side on the X-axis and supported in a pair of bearings  21   b  provided near the right and left ends of the base front surface  21   a . The ball screw shaft  24   a  is provided on the outer periphery with a screw groove  24   b . A driving block  25  is mounted through a ball nut on the screw groove  24   b  between the bearings  21   b . The driving block  25  that may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped block. The driving block may be made of any suitable material such as, for example, a metallic material or the like, and the longitudinal sides of the block  25  extend in the Y-direction. The driving block  25  is provided on a front end thereof with a sliding groove  25   a . The sliding groove  25   a  slidably engages a sliding rib  21   c  provided on the base front surface  21   a  in the X-direction. The driving block  25  is provided with a motor containing chamber  25   b  that is open at an end opposed to the base front surface  21   a  and extends in the X-direction. A Y-axis motor  26  is contained in the motor containing chamber  25   b.    
     [0058] The Y-axis motor  26  holds an end of a ball screw shaft  26   a  disposed in the Y-direction and is secured in the motor containing chamber  25   b . The ball screw shaft  26   a  is supported by a bearing plate  25   c  provided on the driving block  25  and a bearing plate  25   e  coupled to the bearing plate  25   c  through four poles  25   d  in the Y-direction. The ball screw shaft  26   a  is provided on the outer periphery with a screw groove  26   b . A driving head  27  is mounted through a ball nut on the screw groove  26   b  near the other end of the ball screw shaft  26   a . The driving head  27  is supported slidably by a pair of guide bars  25   f  that extend in the Y-direction from the bearing plate  25   e  at upper and lower positions adjacent the ball screw shaft  26   a . In this embodiment, the X-axis motor  24 , driving block  25 , Y-axis motor  26 , and driving head  27  serve as a driving mechanism  22 .  
     [0059]FIG. 5 is a partially enlarged perspective view of the driving head  27  shown in FIG. 4.  
     [0060] Referring to FIGS. 3, 4, and  5 , the driving head  27  includes a driving base  27   a . The driving base  27   a  may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped plate member made of a any suitable material such as, for example, metallic material or the like. The driving base  27   a  is provided in the casing  21  so that a width of the base extends in the X-direction and longitudinal sides of the base extend along the Z-direction. A lower end of the driving base  27   a  is supported by the ball screw shaft  26   a  and the respective guide bars  25   f . A lower end block  27   b  is provided on an intermediate portion of the driving base  27   a  to extend toward the indicating base  23  in the Y-direction. A rail  27   c  is provided on a side surface of the driving base  27   a  above the lower end block  27   b . The rail  27   c  extends in the Z-direction to a position slightly lower than the upper end of the driving base  27   a . Sliders  28   a  are mounted slidably on the rail  27   c  and prevented from coming out of the rail  27   c  upwardly in the Z-direction. An upper end block  27   d  is fixed on an upper end of the rail  27   c  adjacent the side surface of the driving base  27   a . The upper end block  27   d  prevents the sliders  28   a  from coming out of the rail  27   c  upwardly in the Z-direction. The sliders  28   a  are secured to a coupling base  28   b  of a coupling section  28  by bolts  28   c . The coupling base  28   b  may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped plate member, and may be made of any suitable material such as, for example, a metallic material or the like. The coupling base  28   b  is provided in the casing  21  so that a width of the base  28   b  extends in the X-direction and longitudinal sides of the base  28   b  extend in the Z-direction. An indication bar  29  is provided on an upper end of the coupling base  28   b.    
     [0061] The indicating bar  29  includes an indicating base  29   a  that extends from the upper portion of the coupling base  28   b  toward the base front surface  21   a  in the Y-direction. The indicating base  29   a  may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped plate member, and may be made of any suitable material such as, for example, a metallic material or the like. The indicating base  29   a  is arranged in the casing  21  so that a width of the base  29   a  is in parallel with the XY-plane and longitudinal sides of the base  29   a  extend in the Y-direction. In the present embodiment, three pilot lamps  29   b  that serve as indicators are juxtaposed along the Y-direction on the upper surface of the indicating base  29   a . Furthermore, an indicating finger  29   c  is provided on an end of the indicating base  29  in the Y-direction. The indicating finger  29   c  may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped plate member, and may be made of any suitable material such as, for example, a metallic material or the like and is arranged in the casing  21  so that a width of the finger  29   c  extends in the Z-direction and longitudinal sides of the finger  29   c  extend in the Y-direction. With this configuration, the indicating finger  29   c  is fixed on the indicating base  29   a  so that the upper surfaces of the finger  29   c  and base  29   a  are aligned with each other. The indicating finger  29   c  is provided with a cut-off portion  29   d  extending from an intermediate portion to a distal end.  
     [0062] The lower end block  27   b  and coupling base  28   b  are provided with supporting pins  27   e  and  28   d , respectively. The supporting pins  27   e  and  28   d  extend toward the indicating base  23  in the Y-direction. A tension spring  30  is bridged between the supporting pins  27   e  and  28   d . The coupling base  28   b  is normally retracted to the lower end block  27   b  by the tension spring  30  so that the coupling base  28   b  can move relative to the lower end block  27   b  in the Z-direction under an elastic force. Thus, since the coupling base  28   b  is movable with respect to the lower end block  27   b , the coupling base  28   b  can move under an elastic force in association with movement of the housing holder  37  during a tension test processing R described after. With this configuration, the indicating finger  29 , as shown in FIG. 3, is provided in the Z-direction at a position higher than the housing holder  37  on a mounting table  31  described after.  
     [0063]FIG. 6 is a perspective view of the indicating apparatus  20  shown in FIG. 3, illustrating the mounting table  31  and a part of the holder adapter  32  being omitted.  
     [0064] Referring to FIGS. 3 and 6, the mounting table  31  includes a table body  31   a  fixed on the base front surface  21   a  above the driving mechanism  22  in the Z-direction. The table body  31   a  may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped plate member, and may be made of any suitable material such as, for example, a metallic material or the like. The table body  31   a  is fixed on the base front surface  21   a  so that a width of the body  31   a  extends in the Y-direction and longitudinal sides extend in the X-direction. The table body  31   a  is provided on a substantially middle position with a through-hole  31   b  extending in the Z-direction. A sliding pin  31   c  that has an anti-falling-off flange  31   d  on an end thereof penetrates the through-hole  31   b  from the bottom surface of the table body  31   a . A compression coil spring  31   e  is compressed between the anti-falling-off flange  31   d  and the table body  31   a  so that the spring  31   e  encloses the sliding pin  31   c . On the other hand, the end of the sliding pin  31   c  is secured to a lower surface of the holder adapter  32 . That is, the holder adapter  32  is biased toward the table body  31   a  by the coil spring  31   e.    
     [0065] The holder adapter  32  includes a substantially rectangular parallelepiped plate-like adapter body  32   a . The adapter body  32   a  is arranged in the casing  21  so that a width of the body  32   a  extends in the Y-direction and longitudinal sides extend in the X-direction. The adapter body  32   a  is provided with a sliding groove  32   b  extending in the longitudinal direction of the adapter body  32   a . A pair of anti-falling-off plates  32   c  are provided in the X-direction on the opposite side ends of the adapter body  32   a  that define the sliding groove  32   b . Each anti-falling-off plate  32   c  may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped plate member, and may be made of any suitable material such as, for example, a metallic material or the like. The anti-falling-off plate  32   c  is arranged in the casing  21  so that a width of the plate  32   c  extends in the Y-direction and longitudinal sides extend in the X-direction. A longitudinal side end surface of the anti-falling-off plate  32   c  is aligned with a longitudinal side end surface of the adapter body  32   a . With this configuration, the other longitudinal side end surfaces of the respective anti-falling-off plates  32   c  cover a part of the sliding groove  32   a.    
     [0066] A stopper pin  32   d  extends in the Z-direction on a right end of the sliding groove  32   b  in the X-direction. A detachable member  34  is provided on a left end of the sliding groove  32   b  in the X-direction. The detachable member  34  includes a substantially cylindrical fixing section  34   a . A longitudinal axis of the fixing section  34   a  extends in the Z-direction. The fixing section  34   a  is provided on a lower end with a slot  34   b  extending along a diameter of the section  34   a . On the other hand, an upper end of the fixing section  34   a  is secured to a lower surface of the adapter body  32   a . Under these conditions, an aperture  34   c  is formed to penetrate the fixing section  34   a  and adapter body  32   a  in the Z-direction. A detachable pin  34   d  penetrates the aperture  34   c  so that an end of the pin  34   d  projects from an upper surface of the adapter body  32   a . A grip  34   e  is provided on a lower end of the detachable pin  34   c . The grip  34   e  is a substantially truncated cone made of any suitable material such as, for example, a metallic material. A rib  34   f  is provided on an upper end surface of the grip  34   e  to be opposed to the slot  34   b  and to extend along a diameter of the grip  34   e . The grip  34   e  is biased toward the fixing section  34   a  in the Z-direction by a spring (not shown). The rib  34   f  is normally held on the fixing section  34   a  with the rib  34   f  being engaged with the slot  34   b . When the grip  34   e  is drawn downwardly under an elastic force in the detachable member  34 , the upper end of the detachable pin  34   d  is retracted downwardly from the upper surface of the adapter body  32   a . Under these conditions, when the grip  34   e  is rotated about the detachable pin  34   d , since the rib  34   f  is not engaged with the slot  34   b , the grip  34   e  is held on the fixing section  34   a.    
     [0067] A pair of guide shafts  35  are provided on an end of the adapter body  32   a  at the side of the base front surface  21   a  to extend downwardly in the Z-direction. These guide shafts  35  are cylindrical members that may be made of any suitable material such as, for example, metallic material or the like. The guide shafts  35  are inserted into a pair of bearings  31   f  provided at corresponding positions of the table body  31   a . The guide shafts  35  are held in the table body  31   a  slidably in the Z-direction by the bearings  31   f . The detachable member  34  is prevented from interfering with the table body  31   a  by an escape slot  31   g  provided at a corresponding position of the table body  31   a.    
     [0068] As described above, the holder adapter  32  is supported on the mounting table  31  movably in the Z-direction. A detecting means  36  is provided on the holder adapter  32  and mounting table  31  to detect a relative movement between the holder adapter  32  and the mounting table  31 .  
     [0069]FIG. 7A is a partially enlarged perspective view of the detecting means  36  shown in FIG. 6, illustrating the holder adapter  32  before being attached to the mounting table  31 . FIG. 7B is a partially enlarged perspective view of a detecting means  36  shown in FIG. 6, illustrating the holder adapter  32  after being attached to the mounting table  31 .  
     [0070] Referring to FIGS. 6 and 7A, the adapter body  32   a  is provided on a right end in the X-direction with a detecting plate  36   a  extending in the Z-direction. The detecting plate  36   a  is provided on an upper end in the Z-direction with a fixing plate  36   b  directed to the indicating base  23  in the Y-direction. The fixing plate  36   b  is secured to the adapter body  32   a  by bolts  36   c . On the other hand, the detecting plate  36   a  is provided on a lower end in the Z-direction with a shielding plate  36   d  that extends in parallel with the fixing plate  36   b.    
     [0071] On the other hand, a detecting base  36   e  is secured to a right end of the table body  31   a  in the X-direction. The detecting base  36   e  may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped plate member, and may be made of any suitable material such as, for example, a metallic material or the like. The detecting base  36   e  is fixed on the table body  31   a  so that a width of the base  36   e  extends in the Y-direction and longitudinal sides of the base  36   e  extend in the Z-direction. Sensors “a” and “b” are juxtaposed in the Z-direction on a right side surface of the detecting base  36   e . The sensors “a” and “b” include detecting slots “a1” and “b1”, respectively. The detecting slots “a1” and “b1” are open toward the base front surface  21   a  in the Y-direction and extend in the Z-direction. Two pairs of leg sections “a2” and “b2” that define the respective detecting slots “a1” and “b1” include photo-receiver and transmitter sets (not shown) that receive and transmit light between them. The photo-receiver and transmitter sets can detect whether a light path is cut off or not.  
     [0072] Referring to FIGS. 6 and 7B, when the holder adapter  32  is attached to the mounting table  31 , the shielding plate  36   d  is opposed to the detecting slot “a1” in the sensor “a”. On the other hand, the detecting plate  36   a  is disposed in the detecting slot “b1” in the sensor “b”. Since the light-receiving and light-transmitting processes are carried out in a position corresponding to the shielding plate  36   d  in the Y-direction, only the light from the sensor “a” is cut off in this condition.  
     [0073] A housing holder  37  is disposed on the holder adapter  32  constructed above.  
     [0074]FIG. 8 is an enlarged perspective view of the housing holder  37  in the indicating apparatus  20  shown in FIG. 3.  
     [0075] Referring to FIGS. 3, 6, and  8 , the housing holder  37  includes a holder base  37   a  that may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped plate member, and may be made of any suitable material such as, for example, a synthetic resin material or the like. The holder base  37   a  is arranged in the casing  21  so that a width of the base  37   a  extends in the Y-direction and longitudinal sides of the base  37   a  extend in the X-direction. A raised block  37   b  having a width slightly smaller than that of the holder base  37   a  is secured to the holder block  37   b . The raised block  37   b  has the substantially same longitudinal dimension as that of the holder base  37   a . The raised block  37   b  is fixed on the upper surface of the holder base  37   a  in the Z-direction in alignment with their longitudinal dimensions. When the raised block  37   b  is fixed on the holder base  37   a , sliding ends  37   c  are formed on the opposite ends of the holder base  37   a . Five containing blocks  37   d  are provided on an upper surface of the raised block  37   b  in the Z-direction in the present embodiment. Each containing block  37   d  may take any form, and in the present embodiment, includes a substantially rectangular parallelepiped plate member, and may be made of any suitable material such as, for example, a synthetic resin material or the like. The containing block  37   d  is arranged on the raised block  37   b  so that the respective sides extend in the X, Y, and Z-directions. At the same time, each containing block  37   d  is provided with a housing positioning-hole  37   e  for containing each housing  3 . The containing blocks  37   d  are juxtaposed on the raised block  37   d  with the housing positioning-holes  37   e  being open in the Z-direction. Since each housing positioning-hole  37   e  directs each cavity  3   a  in the housing  3  in the given X and Y-directions, the housing  3  is provided on the containing block  37   d  so that the cavities  3   a  are arranged in the given X and Y-directions. A switching mechanism  38  is provided on each containing block  37   d.    
     [0076] The switching mechanism  38  includes a pair of covers  38   a  provided on the opposite ends of each containing block  37   d  in the Y-direction. The cover  38   a  is a reversed U-shaped plate-like member having a top  38   c  and a pair of legs  38   b . The pair of legs  38   b  are fixed on the side surfaces of the containing block  37   d  in the X-direction. When each leg  38   b  is fixed on the containing block  37   d , a sliding space S is defined between the top  38   c  and the upper surface of the containing block  37   d  in the Z-direction. A cover plate  38   d  that serves as a regulating member is contained slidably in the sliding space S. The cover plate  38   d  is a substantially parallelepiped plate member made of a metallic material or the like. Each cover plate  38   d  is provided with an opening  38   e  having the substantially same dimension as that of the housing positioning-hole  37   e . An end of each cover plate  38   d  in the Y-direction is contained in the sliding space S with the opening  38   e  being open upwardly in the Z-direction. On the other hand, the other end of each cover plate  38   d  includes a pushing plate  38   f  bent down in the Z-direction. The pushing plate  38   f  is provided with pushing through-hole  38   g . A bolt  38   h  penetrates the pushing through-hole  38   g  through a driving member  39  described after (in FIG. 8, a part of the member  39  is broken away and assembled and disassembled positions of the member  39  are shown respectively). The bolt  38   h  is fixed through a compression coil spring  38   i  in screwed hole  37   f  in the containing block  37   d . That is, the compression coil spring  38   i  is compressed between the containing block  37   d  and the pushing plate  38   f.    
     [0077] The driving member  39  includes fixing plates  39   a  disposed in parallel with the pushing plates  38   f . Each fixing plate  39   a  is provided with a fixing slot  39   b  that is open in the Z-direction and extends toward the containing block  37   d . When a bolt  38   h  is secured through the fixing slot  39   b  to the containing block  37   d , each fixing plate  39   a  is secured to the pushing plate  38   f . An extension plate  39   d  is provided through a bent portion  39   c  on a lower end of each fixing plate  39   a  in the Z-direction. An operating plate  39   e  couples ends of the extension plates  39   d  to one another in the Y-direction.  
     [0078] The sliding end  37   c  of the housing holder  37  as constructed above is contained in the sliding slot  32   b  in which the grip  34   e  of the holder adapter  32  is pulled down. When the grip  34   e  is returned to an upper position, the housing holder  37  is secured to the holder adapter  32  between the stopper pin  32   d  and the detachable pin  34   d . With this configuration, an operator inserts the housing  3  into the housing holder  37 .  
     [0079]FIG. 9A is a cross sectional view of the housing holder  37 , illustrating the housing holder  37  set before the housing  3  is inserted into the housing holder  37 . FIG. 9B is a cross sectional view of the housing holder  37 , illustrating the housing holder  37  set when the operating plate  39   e  is controlled. FIG. 9C is a cross sectional view of the housing holder  37 , illustrating the housing holder  37  set after the housing  3  is inserted into the housing holder  37 .  
     [0080] Referring to FIGS. 8 and 9A, before the housing  3  is inserted into the housing holder  37 , the cover plate  38   d  is biased toward the containing block  37   d  by the compression coil spring  38   i  so that the housing-positioning hole  37   e  is slightly shifted from the opening  38   e  in the Y-direction. Under this condition, a part of an opening end of the housing positioning hole  37   e  is covered with the cover plate  38   d . Thus, the housing  3  is restrained from being inserted in the housing positioning hole  37   e  downwardly in the Z-direction. When an operator inserts the housing  3  into the housing positioning hole  37   e , the operator operates the operating plate  39   e.    
     [0081] Referring to FIGS. 8 and 9B, when the operating plate  39   e  is turned down in the Z-direction about the bent portion  39   c , the bent portion  39   c  is rotated in a counter clockwise direction about a head of the bolt  38   h  in FIG. 9. Consequently, since the bent portion  39   c  is moved to the containing block  37   d  in the Y-direction, the pushing plate  38   f  is pushed in the same direction by the bent portion  39   c . When the pushing plate  38   f  is pushed, the opening  38   e  is aligned with the housing-positioning hole  37   e  in the Y-direction. Under this condition, an operator inserts the housing  3  into the housing-positioning hole  37   e  with the cavity  3   a  being open upwardly in the Z-direction.  
     [0082] Referring to FIGS. 8 and 9C, when the operating plate  39   e  is released, the cover plate  38   d  is returned to a position shown in FIG. 9A by a compression coil spring  38   i . Under this condition, since a part of the housing  3  is covered with the cover plate  38   d , the housing  3  is restrained from moving upwardly in the Z-direction. The cover plate  38   d  covers a part of the housing  3  at a position where the cavity  3   a  is not provided (not shown).  
     [0083] When an operator inserts the housing  3  into the housing holder  37 , the indicating apparatus  20  indicates an insertion objective cavity by the indicating bar  29 .  
     [0084]FIG. 10 is a plan view of a part of the indicating bar  29 , illustrating an indicating operation of the bar  29 .  
     [0085] Referring to FIG. 10, the indicating bar  29  is moved in the X and Y-directions with respect to the housing holder  37  by the driving mechanism  22 . In this embodiment, the indicating finger  29   c  of the indicating bar  29  moves among an initial position P0 where the bar  29  is spaced away from all housings  3  contained in the housing holder  37  at the left side in the X-direction and at the upper side in the Y-direction, an access indicating position P1 where the bar  29  moves slightly above a coordinate on the Y-axis to indicate the insertion objective cavity  3   a  while moving along a coordinate on the X-axis corresponding to the insertion objective cavity  3   a  in the X-direction, and a spaced indicating position P2 where the bar  29  moves above and slightly away from a coordinate on the Y-axis to indicate the insertion objective cavity  3   a  while moving along a coordinate on the X-axis corresponding to the insertion objective cavity  3   a  when another terminal  2   a  has been already inserted in a cavity  3   a  near the insertion objective cavity  3   a .  
     [0086] The wire harness producing system  1  constructed above includes a control device  50  that controls the above constituent components in order to indicate the insertion objective cavity  3   a  and electric wire with terminals  2  to a worker.  
     [0087]FIG. 11 is a block diagram of the control device  50  in the wire harness producing system  1 .  
     [0088] Referring to FIG. 11, the control device  50  includes a CPU (central processing unit)  51  for carrying out various kinds of processing. An input means  52  and an operating means  53  are coupled to the CPU  51  to communicate with each other. The input means  52  and operating means  53  output to the CPU  51  information concerning the housing  3  and electric wire with terminals  2   a  of a wire harness to be produced by an operator, their inserting orders, and X and Y coordinates at which the indicating finger  29   c  indicates an insertion objective cavity  3   a  in connection with the inserting orders (that is, X and Y coordinates at the access indicating position P1 or spaced indicating position of the indicating finger  29   c ). In the case where an operator sets the indicating finger  29   c  to indicate the cavity  3   a  at the space indicating position P2, a position of an indicating lamp  29   b  out of the respective indicating lamps  29   b  that is lit up in correspondence with the insertion objective cavity  3   a  is inputted in the CPU  51  (see FIG. 17). This information is processed by the CPU  51  and stored in a memory means  54 . The memory means  54  is connected to the CPU  51  so that the memory means  54  can read out and write data. The CPU  51  reads out information from the memory means  54  any time and gives command to the controlling means  55  to control the respective constituent components. The controlling means  55  is connected to a buzzer  56  for generating an alarm, the X-axis motor  24 , the Y-axis motor  26 , the indicating lamps  29   b , the special type electric wire pilot lamp  23   a , the gutter lamp  13   a , the loose end pilot lamp  15   a , the completion pilot lamp  15   b , and the irregularity pilot lamp  15   c  described above, respectively. In order to actuate the constituent components in the order that is stored in the memory means  54 , the controlling means  55  receives outputs from the sensors “a” and “b” described above. Furthermore, a display panel  57  is connected to the controlling means  55  so that an operator can confirm various information stored in the memory means  54  and controlled states of the respective constituent components of the controlling means  55 .  
     [0089] The wire harness producing system  1  drives the respective constituent components in accordance with the order of insertion and indicates the insertion objective cavity to a worker by the controlling means  55  constructed above. Referring to the drawings, processing of the controlling means  55  will be described below.  
     [0090]FIG. 12 is a flow chart illustrating a processing in a main routine of the controlling means  55 .  
     [0091] Referring to FIG. 12, when the processing of the controlling means  55  starts in the main routine, an initialization is carried out (step S). In this initialization, the controlling means  55  is reset and the respective constituent components are returned to initial states. Then, an electric wire taking-out display is executed to indicate the insertion objective electric wire with terminals  2  (step T). After the operator takes out the electric wire with terminals  2 , an A-end processing is executed to indicate the cavity  3   a  in the housing holder  37  corresponding to a housing  3  (step U). The “A-end” means a priority one (hereinafter referred to as “A-end”) of the terminals  2   a  of the electric wire with terminals  2  should be inserted into the corresponding housing  3 . After the operator inserts the A-end into the corresponding cavity  3   a , a B-end processing is executed to indicate the cavity  3   a  in the housing holder  37  corresponding to a housing  3  (step V). The “B-end” means the other terminal (hereinafter referred to as “B-end”) of the terminals  2   a  of the electric wire with terminals  2  should be inserted into the corresponding housing  3 . After the operator inserts the B-end into the corresponding cavity  3   a , a decision is executed to decide whether all electric wires with terminals  2  having the B-ends are inserted into the corresponding cavities or not (step W). If it is decided that there is any electric wire with terminals  2  that is not inserted, the processing from the step T to the step V is repeated. On the other hand, if it is decided that all electric wire with terminals  2  are inserted, a finishing processing is executed (step Z) to finish the processing of the controlling means  55 . In this finishing processing, the completion pilot lamp  15   b  is lit up and the indicating finger  29   c  moves to the initial position P0 shown in FIG. 10.  
     [0092]FIG. 13 is a flow chart illustrating the electric wire taking-out display shown in FIG. 12.  
     [0093] Referring to FIG. 13, when the processing of the electric wire taking-out display starts, information concerning all electric wires with terminals  2  in an inserting work is read out from the memory means  54  (step T). The information concerning the electric wires with terminals  2  includes types of electric wires with terminals to be used in the inserting work and an inserting order. When the information is read out, gutter lamps  13   a  corresponding to all electric wires with terminals  2  to be used in the inserting work out of electric wires with terminals  2  contained in the electric wire container unit  10  are lit up (step T 2 ). After the various types of the lamps  13   a  are lit up, only the gutter lamp  13   a  corresponding to the insertion objective electric wire with terminals  2  flashes (step T 3 ). Then, the processing of the controlling means  55  is advanced to the A-end processing.  
     [0094]FIG. 14 is a flow chart illustrating the A-end processing shown in FIG. 12. FIG. 17A is a plan view of the indicating bar  29  that indicates the cavity  3   a  at the access indicating position P1 in the steps U 5  and U 6  in FIG. 14. FIG. 17B is a plan view of the indicating bar  29  that indicates the cavity  3   a  at the spaced indicating position P2 in the steps U 5  and U 6  in FIG. 14.  
     [0095] Referring to FIGS. 14 and 17, when the A-end processing starts, the A-end information is read out from the memory means  54  (step U 1 ). The A-end information includes position information of the A-end to be inserted into the cavity  3   a . After the A-end information is read out, it is decided in accordance with the A-end information whether or not the A-end is a special type electric wire (step U 2 ). If it is decided that the A-end is not a special type electric wire, the processing will be continued. Then, the indicating finger  29   c  is displaced above the predetermined X and Y coordinates and the indicating lamp  29   b  is lit up, if it is set (step U 4 ).  
     [0096] In the case where the step U 4  is executed and the indicating finger  29   c  is set beforehand to be at the access indicating position P1 by an operator, the indicating bar  29  is displaced to the position shown in FIG. 17A by driving the X-driving motor  24  and Y-driving motor  26 . Under this condition, since a proximal end of the indicating finger  29   c  of the indicating bar  29  is opposed to the vicinity of the insertion objective cavity  3   a  at an upper side on the Y-axis, a worker can easily find the cavity  3   a . On the other hand, in the case where the step U 4  is executed and the indicating finger  29   c  is set beforehand to be at the spaced indicating position P2 by a worker, the indicating bar  29  is displaced to the position shown in FIG. 17B by driving the X-driving motor  24  and Y-driving motor  26 , and the indicating lamp  29   b  that is set beforehand is lit up. Under this condition, the position of the indicating finger  29   c  in the X-direction specifies the position in the X-direction of the insertion objective cavity  3   a  and the indicating lamp  29   b  (the lowest stage) corresponding to the insertion objective cavity  3   a  out of the cavities  3   a  arranged in the Y-direction to specify the position in the Y-direction. Accordingly, an operator can find the insertion objective cavity  3   a.    
     [0097] Referring to FIG. 14, when the insertion objective cavity  3   a  is indicated, the operator inserts the terminal  2   a  into the cavity  3   a . After executing a tension test processing R described after, in the case where the indicating lamp  29   b  is lit up, the indicating lamp  29   b  is put out and the flashing gutter lamp  13   a  is put out (step U 5 ). Then, the processing of the controlling means  55  is advanced to the B-end processing.  
     [0098]FIG. 15 is a flow chart illustrating the B-end processing shown in FIG. 12.  
     [0099] Referring to FIG. 15, when the B-end processing starts, the B-end information is read out from the memory means  54  (step V 1 ). The B-end information includes position information of the cavity  3   a  to receive the terminal  2   a . When the B-end information is read out, it is decided in accordance with the B-end information whether or not the insertion objective terminal  2   a  is a loose end terminal (step V 2 ). If it is decided that the B-end is the loose end terminal, the loose end pilot lamp  15   b  is lit up and the buzzer  56  is actuated (step V 3 ). A message, which inquires about whether or not the operator recognizes that the B-end is the loose end, is displayed on the display panel  57 . The operating means  53  waits for inputting an answer to the question (step V 4 ). When the operator inputs the answer, the loose end pilot lamp  15   b  is lit out and the buzzer  56  stops sounding (step V 5 ). The processing of the controlling means  55  is advanced to a step W.  
     [0100] On the other hand, when it is decided that the B-end is not the loose end in the step V 2 , it is decided in accordance with the B-end information whether or not the B-end is a special type electric wire (step V 6 ). If it is decided that the B-end is the special type electric wire, the special type electric wire pilot lamp  23   a  is lit up (step V 7 ). If it is decided that the B-end is not the special type electric wire, the processing will be continued. Then, the indicating bar  29  moves to the predetermined X and Y-coordinates, as described above, the indicating lamp  29   b  is lit up, if the lamp is set to be lit up beforehand, to indicate the insertion objective cavity  3   a  (step V 8 ). After the insertion objective cavity  3   a  is indicated, as described above, an operator inserts the terminal  2   a  into the cavity  3   a . Then, after executing a tension test processing R described after, the special type electric wire pilot lamp  23   a  and indicating lamp  29   b  are put out (step V 9 ). The processing of the controlling means  55  is advanced to the step W.  
     [0101] Thus, the terminal  2   a  inserted into the indicated cavity  3   a  by the indicating apparatus  20  should be fixed in the cavity  3   a . In order to confirm the fixing of the terminal, the above tension test processing R is executed.  
     [0102]FIG. 16 is a flow chart illustrating the tension test processing R in the respective processes shown in FIGS. 14 and 15. FIG. 18A is a side elevation view of a part of the indicating apparatus  20  in the tension test processing shown in FIG. 16, illustrating the indicating apparatus  20  before carrying out the tension test processing. FIG. 18B is a side elevation view of a part of the indicating apparatus  20  in the tension test processing shown in FIG. 16, illustrating the indicating apparatus  20  before carrying out the tension test processing. FIG. 18C is a side elevation view of a part of the indicating apparatus  20  in the tension test processing shown in FIG. 16, illustrating the indicating apparatus  20  in excessive tension.  
     [0103] Referring to FIGS. 16 and 18, when the tension test processing R starts, the sensor “a” is waiting to be released from the shielded state (hereinafter referred to as an “OFF-state”) (step R 1 ). This condition is shown in FIG. 18A. When an operator pulls up a cable D in the Z-direction, which is fixed to the terminal  2   a  inserted into the cavity  3   a  during an inserting operation, the shielding plate  36   d  of the holder adapter  32  is also pulled up to turn the sensor “a” to the OFF-state. When the sensor “a” is turned to the OFF-state, either sensor “a” or sensor “b” waits to be turned to an ON-state (steps R 2  and R 3 ). This condition is shown in FIG. 18B. The shielding plate  36   d  is disposed neither in the detecting groove “a1” in the sensor “a” nor in the detecting groove “b1” in the sensor “b”. Under this condition, when an operator pulls up the cable D further, the shielding plate  36   d  is pulled up to the position shown in FIG. 18C and the sensor “b” is turned to the ON-state. When the sensor “b” turns to the ON-state, the buzzer  56  and irregularity pilot lamp  15   c  are actuated to execute an excessive tension alarm (step R 4 ). When executing the excessive tension alarm, the operating means  53  waits while an operator operates stop switches (not shown) of the buzzer  56  and irregularity pilot lamp  15   c  (step R 5 ). When the stop switches are operated, it is decided whether or not another terminal  2   a  is inserted into the housing  3  into which the A-end and B-end are inserted (step R 6 ). When it is decided that another terminal  2   a  is inserted into the housing  3 , a menu “return to the start” is displayed on the displaying panel  57  and the operating means  53  waits while an answer to the menu is inputted (step R 7 ). When an operator inputs the answer, processing of the controlling means  55  waits for to restart and the inserting operation is carried out from the first condition.  
     [0104] On the other hand, when it is decided that another terminal  2   a  is not inserted into the housing  3  in the step R 6 , a menu “reinsert” is displayed on the displaying panel  57  and the operating means  53  waits while an answer to the menu is inputted (step R 8 ). When an operator inputs the answer, a processing of the controlling means  55  is advanced to the A-end processing. An operator changes the housing  3  and electric wire with terminals  2  to other ones and starts the inserting work.  
     [0105] In the tension test processing shown in FIG. 18, a spring constant of a tension coil spring  31   e  is set so that the tension coil spring  31   e  is in the position shown in FIG. 18B when a suitable force pulls the cable D. When a force pulls the cable to cause an irregular state in the housing  3 , the tension coil spring  31   e  is in the position shown in FIG. 18C. Furthermore, under the condition shown in FIG. 18, the indicating bar  29  is disposed at a position (not shown) above the housing holder  37  in the Z-direction in order to indicate the insertion objective cavity  3   a . When the housing holder  37  is pulled up to the position shown in FIG. 18B or  18 C, a raising force is applied to the indicating bar  29  by the housing holder  37 . However, the indicating bar  29  follows the raised housing holder  37  under an elastic force by the tension coil spring  30  mentioned above (FIG. 5).  
     [0106] In the indicating apparatus  20  constructed above, the indicating bar  29  is moved along the coordinate on the X-axis of the insertion objective cavity  3   a  to specify the X-direction of the cavity  3   a  and the proximal end of the indicating finger  29   c  specifies the Y-direction of the cavity  3   a . In the case where another terminal  2   a  has been already inserted in a cavity  3   a  near the insertion objective cavity  3   a , the indicating bar  29  is moved to the spaced position P2 to specify the X-direction of the cavity  3   a . The pilot lamp  29   b  can specify the Y-direction of the cavity  3   a.    
     [0107] Accordingly, even if the type of wire harness is changed, the indicating apparatus  20  can respond to the change by altering a setting of the controlling means  55 . It is possible to efficiently indicate the cavity  3   a  near the insertion objective cavity  3   a . Consequently, the indicating apparatus  20  can avoid or prevent human error.  
     [0108] From the above description of the invention, one skilled in the art will perceive improvements, changes and modifications. Such improvements, changes and modifications within the skill of the art are intended to be covered by the appended claims.  
     [0109] Although the invention has been described with reference to an exemplary embodiment, it is understood that the words that have been used are words of description and illustration, rather than words of limitation. Changes may be made within the purview of the appended claims, as presently stated and as amended, without departing from the scope and spirit of the invention in its aspects. Although the invention has been described with reference to particular means, materials and embodiments, the invention is not intended to be limited to the particulars disclosed. Rather, the invention extends to all functionally equivalent structures, methods, and uses such as are within the scope of the appended claims.  
     [0110] The entire disclosure of Japanese Patent Application No. 2002-127510 filed on Apr. 26, 2002 including the specification, claims, drawings and summary is incorporated herein by reference in its entirety.