Abstract:
A laundry dryer has a drum rotatively installed inside a case, a heater heating air flowing inside the drum, a rear plate coupled so as to cover a rear portion of the drum and having a vertically elongated inlet hole traversing upper and lower areas of the drum body, a central portion of the vertically elongated inlet hole crossing a horizontal line of the rear plate, and an inlet duct covering the inlet hole and simultaneously having a plurality of duct holes formed at a portion covering the inlet hole so as to guide air heated by the heater to flow inside the drum. The present invention enables the common use of the rear plate for both electrical and gas laundry dryers, and thus allows the use of a common line for assembly. Therefore, the present invention reduces product costs and increases productivity.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     The present invention relates to a laundry dryer, and more particularly, to a laundry dryer and a rear plate for a drum thereof enabling to apply a rear plate of a drum to an electric laundry dryer and a gas type laundry dryer in common. 
     2. Discussion of the Background Art 
     Generally, a laundry dryer is installed separately from a washer so as to dry wet laundry automatically after completion of washing. 
     An example of such a laundry dryer is schematically illustrated in FIG. 1, and a background art laundry dryer is explained by referring to FIG. 1 as follows. 
     Referring to FIG. 1, an opening  1   a  is formed at a front of a case  1  so as to put in or remove laundry, and the opening is closed or opened by a door  2 . 
     A drum  30  in which inputted laundry is dried is rotatively installed inside the case  1 , and a driving motor  4  generating a turning force is installed at a lower part of the drum  30 . A pulley  5  and a belt  6  are connected between the driving motor  4  and drum  30  so as to transfer turning power to the drum  30 . 
     The drum  30  includes a cylindrical drum body  31  of which both sides are open, a front plate  33  coupled with a front portion of the drum body  31  and having a laundry input opening  33   b  at a central portion, and a rear plate  35  coupled with a rear portion of the drum body  31 . 
     An inlet hole  35   a  is formed at the rear plate  35  of the drum  30 , and an inlet duct  10  guiding external air inside the drum  30  is coupled with the inlet hole  35   a . A heater  8  is installed at an entrance of the inlet duct  10  so as to heat the air introduced through an air intake lb of the case  1  into hot and dry air. 
     An outlet hole  33   a  is formed at the front plate  33 , and an outlet duct  9  guiding air discharged from the drum  30  to the outside is coupled with the outlet hole  33   a . A blow fan  7  driven by the driving motor  4  is installed inside the outlet duct  9  so as to make the air in the drum  30  flow forcibly. 
     Numerals ‘C’ and ‘F’ in FIG. 1 indicate a laundry and a filter, respectively. 
     Operation of the laundry dryer according to the background art is carried out as follows. 
     A user opens the door  2 , puts wet laundry C and the like inside the drum  30  through the opening  1   a , and then pushes a start button to actuate the driving motor  4  so that the driving motor  4  rotates to generate a turning force. The turning force of the driving motor  4  is then transferred to the drum  30  through the pulley  5  and belt  6  so as to rotate the body  31  of the drum  30 . Hence, the laundry C inside the drum  30  is mixed. 
     Simultaneously, the blow fan  7  is actuated to rotate so as to make the external air flow into the drum  30  through the inlet duct  10  and inlet hole  35   a . In this case, the suctioned air is heated by the heater  8  and changed into a very dry and hot air having very low humidity. The drum is supplied with the dry and hot air to dry the laundry C inside the drum  30 . 
     Moreover, the dry air inside the drum  30  comes into contact with the wet laundry to remove the humidity from the laundry, and then is discharged outside the case  1  through the outlet duct  9 . In this case, the filter F removes pile, waste thread, and the like from the discharge air. 
     Drying performance of such a laundry dryer depends mostly on the active contact between the wet laundry C and the dry air flowing inside the drum  30 . Various study and research teaches that a factor having the biggest influence on a flow of the dry air passing through the drum  30  is the position and shape of the inlet hole  35   a  formed at the rear plate  35 . 
     The position of the inlet hole  35   a  formed at the rear plate  35  according to the background art and a structure of the inlet duct  10  connected to the inlet hole  35  are explained by referring to FIG.  2  and FIG. 3 as follows. 
     Referring to FIG. 2, the rear plate  35  has a disk shape, and the inlet hole  35   a  is formed at a left upper position of the rear plate  35 . 
     Referring to FIG. 3, the inlet duct  10  is constructed with a pair of plates  11  and  12  assembled with each other so as to form a path for the dry air. An entrance  11   c  is formed at a lower portion of the inlet duct  10  to make hot air flow in by being coupled with the heater  8 , and a plurality of duct holes  11   a  are formed at an upper portion of the inlet duct  10  to correspond to the inlet hole  35   a  of the rear plate  35 . 
     A total open area of the duct holes  11   a  is generally formed to cover about 40% of the open area of the inlet hole  35 A. 
     When the inlet hole  35   a  is formed at the upper position of the rear plate  35 , as shown in FIG. 4, the air drawn inside the drum  30  tends to flow in a direction having a least airflow resistance and the wet laundry tends to be distributed at a lower part of the drum. Hence, the air drawn inside the drum  30  flows as having a speed component preponderating toward about 45° upper side for the rotating axis of the drum  30 . 
     Accordingly, the hot and dry air drawn inside the drum  30  fails to be contacted with the wet laundry C actively so as to be discharged through the outlet duct  9 . Thus, the laundry drying time increases and energy efficiency decreases. 
     The inlet hole  35   a  in the laundry dryer according to the background art is positioned at the upper portion of the rear plate  35 , thereby becoming disadvantageous with regard to drying performance. 
     In spite of such disadvantages, the reason why the inlet hole  35   a  is designed to be located at the upper portion of the rear plate  35  is as follows. 
     Generally, laundry dryers are divided into an electrical laundry dryer and a gas type laundry dryer in accordance with the form of using the heater  8 . The electrical laundry dryer includes an electric hot wire for heating air, while the gas type laundry dryer includes a nozzle jetting a gas so that the air is heated in a manner that the jetted gas reacts with suctioned air for combustion. 
     Specifically, the gas type laundry dryer should secure at least a predetermined length of the inlet duct  10  for the characteristics of combustion. If the sufficient length of the inlet duct  10  fails to be secured, a flame reaches the inside of the drum  30  so as to cause damage on the laundry C or set it on fire. 
     For the above safety reasons, the gas type laundry dryer, as shown in FIG. 4, should form the inlet hole  35 A at the upper portion of the rear plate  35 . Yet, the electrical laundry dryer does not need the long combustion section like the gas type, so therefore the length of the inlet duct  10  can be shortened and the inlet hole  35   a  is installed at the lower portion of the rear plate  35 . Hence, the electrical laundry dryer enables to improve the drying performance. 
     As mentioned through FIG. 1 to FIG. 4, when the positions of the inlet holes  35   a  of the electrical and gas type laundry dryers are set up at the upper portions of the rear plates  35 , the same rear plate shown in FIG. 2 can be used regardless of the species of the laundry dryers. Besides, the inlet ducts  10  having different shapes in part are used only case by case. Namely, the inlet duct  10  can be used for both the electrical and gas type laundry dryers. Nevertheless, a vent  11   b  (as a plurality of air paths), as shown in FIG. 3, is added to the inlet duct  10  to dilute the burnt air. 
     When the inlet hole  35   a  is formed equivalently at the upper portion of the rear plate  35 , the inlet duct  10  manufactured differently in accordance with the electrical or gas type can be assembled with the same rear plate  35  by the same assembly process so as to reduce a product cost of the laundry dryer. As such, it is impossible to increase the drying performance of the electrical laundry dryer any more. 
     On the contrary, if the position of the inlet hole  35   a  is adjusted to fit the characteristics of the electrical or gas type laundry dryer, the product cost of the laundry dryer increases. 
     Namely, if the inlet hole  35   a  of the electrical laundry dryer is installed at the lower portion of the rear plate  35  in order to improve the drying performance, the position of the inlet hole  35 A is different from that of the gas type laundry dryer. Hence, the rear plates  35  for the electrical and gas type laundry dryers should be manufactured using expensive large moldings. Moreover, the inlet ducts  10  applied to the electrical and gas type laundry dryers differ in length, thereby requiring different designs to be manufactured. 
     Unfortunately, when the position of the inlet hole  35   a  of the electrical laundry dryer is different from that of the gas type laundry dryer, the rear plates  35  and inlet ducts  10  should be manufactured separately as well as assembled using different assembly lines, respectively. Hence, a product cost of the laundry dryer increases greatly. 
     SUMMARY OF THE INVENTION 
     Accordingly, the present invention is directed to a laundry dryer and rear plate for a drum thereof that substantially obviates one or more problems due to limitations and disadvantages of the background art. 
     An object of the present invention is to provide a laundry dryer and a rear plate for a drum thereof enabling to apply a rear plate of a drum to an electric laundry dryer and a gas type laundry dryer in common so as to improve productivity of the laundry dryer as well as reduce product costs. 
     Another object of the present invention is to provide a laundry dryer and rear plate for a drum thereof enabling to cope with a modification of a position of a hole, through which hot and dry air flows inside a drum, in accordance with design requirements such as drying capacity change of the drum, airflow capacity change of a blowing fan, and the like. 
     Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings. 
     To achieve these objects and other advantages and in accordance with the purpose of the invention, as embodied and broadly described herein, a laundry dryer according to the present invention includes a drum body rotatively installed inside a case, a rear plate coupled so as to cover a rear portion of the drum body and having an inlet hole open from upper to lower sides across upper and lower areas centering around a horizontal line of the rear plate, and an inlet duct connected to the inlet hole of the rear plate so as to guide air to flow inside the drum body wherein the air dries the laundry. 
     Preferably, a ratio L/D between an upper and lower opening length L of the inlet hole and an outer diameter D of the rear plate is at least 0.45. 
     Preferably, a covering portion is formed at an end portion of the inlet duct in a flowing direction of the air so as to cover the inlet hole of the rear plate and wherein a plurality of duct holes are formed at the covering portion so that the air passes through the duct holes to flow inside the drum body. 
     More preferably, an opening area of the inlet hole is at least 375% of a total opening area of the duct holes. 
     More preferably, an electrical heater heating the air using an electrical coil is installed at an entrance of the inlet duct and wherein the duct holes are distributed on a relatively lower area in the covering portion. 
     More preferably, the duct holes are distributed in the lower area centering around the horizontal line of the rear plate. 
     More preferably, a gas type heater heating the air using gas combustion is installed at an entrance of the inlet duct and wherein the duct holes are distributed on a relatively upper area in the covering portion. 
     More preferably, the duct holes are distributed in the upper area centering around the horizontal line of the rear plate. 
     More preferably, the covering portion has the same shape of the inlet hole so as to be inserted into the inlet hole for coupling. 
     Preferably, the inlet hole is positioned at one area centering around a vertical center line of the rear plate. 
     In another aspect of the present invention, a laundry dryer including a drum rotatively installed inside a case, a heater heating an air flowing inside the drum, a rear plate coupled so as to cover a rear portion of the drum and having an inlet hole open long from upper to lower sides across upper and lower areas centering around a horizontal line of the rear plate, and an inlet duct covering the inlet hole and simultaneously having a plurality of duct holes formed at a portion covering the inlet hole so as to guide the air heated by the heater to flow inside the drum. 
     Preferably, a ratio L/D between an upper and lower opening length L of the inlet hole and an outer diameter D of the rear plate is at least 0.45. 
     Preferably, an opening area of the inlet hole is at least 375% of a total opening area of the duct holes. 
     Preferably, the heater is an electrical type and the duct holes are distributed on the lower area centering around the horizontal line of the rear plate. 
     Preferably, the heater is a gas type and the duct holes are distributed on the upper area centering around the horizontal line of the rear plate. 
     Preferably, the inlet hole extends from upper to lower sides across the upper and lower areas centering around the horizontal line of the rear plate to be coupled with an inlet duct guiding airflow inside the drum. 
     More preferably, a ratio L/D between an upper and lower opening length L of the inlet hole and an outer diameter D of the rear plate is at least 0.45. 
     More preferably, the inlet hole is covered with a covering means having a plurality of duct holes and an opening area of the inlet hole is at least 375% of a total opening area of the duct holes. 
     More preferably, the duct holes are distributed on one of the upper and lower areas centering around the horizontal center line of the rear plate. 
     More preferably, the inlet hole is positioned at one area centering around a vertical center line of the rear plate. 
     The laundry dryer according to the present invention has the inlet hole connected to the rear plate of the drum from the upper side to the lower side, whereby the identical rear plate can be applied to the electrical laundry dryer using the inlet duct having the duct holes at the lower side or the gas type laundry dryer using the other inlet duct having the duct holes at the upper side. 
     The present invention has the rear plate for common use, whereby the rear plate need not be manufactured additionally in accordance with the species of the laundry dryer, i.e. electrical or gas type laundry dryer. Therefore, the present invention enables to manufacture the rear plate used for the electrical or gas type laundry dryer for common use using the same metal mold. 
     It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principle of the invention. 
     In the drawings: 
     FIG. 1 illustrates a cross-sectional view of a laundry dryer according to background art; 
     FIG. 2 illustrates a layout of a rear plate seen from a rear side of a drum of the laundry dryer in FIG. 1; 
     FIG. 3 illustrates a bird&#39;s-eye view of an inlet duct connected to the rear plate in FIG. 2; 
     FIG. 4 illustrates a schematic diagram of airflow in a laundry dryer according to background art; 
     FIG. 5 illustrates a layout of a rear plate of a drum for a laundry dryer according to the present invention; 
     FIG.  6 A and FIG. 6B illustrate rear side and cross-sectional views of an inlet duct in an electrical laundry dryer according to the present invention; 
     FIG. 7 illustrates a rear side view of the inlet duct in FIG. 6A connected to a rear plate according to the present invention; 
     FIG. 8 illustrates a schematic diagram of airflow in an electrical laundry dryer to which the present invention is applied; 
     FIG.  9 A and FIG. 9B illustrate rear side and cross-sectional views of an inlet duct in a gas type laundry dryer according to the present invention; 
     FIG. 10 illustrates a rear side view of the inlet duct in FIG. 9A connected to a rear plate according to the present invention; 
     FIG. 11 illustrates a schematic diagram of airflow in a gas type laundry dryer to which the present invention is applied; 
     FIG. 12 illustrates a diagram of a designed position of an inlet hole in a rear plate according to the present invention; and 
     FIG. 13 illustrates a graph of relation between drying time and a position of an inlet hole. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Besides, the basic constitution of a laundry dryer according to the present invention is identical to that of the background art, which is skipped in the following description. 
     FIG. 5 illustrates a layout of a rear plate of a drum for a laundry dryer according to the present invention. 
     Referring to FIG. 5, a drum  99  has a cylindrical structure enabling to rotate inside a case. 
     A rear plate  100  covering a rear portion of the drum  99  has a disk shape. An inlet hole  101  formed at the rear plate  100  extends lengthwise across an upper semicircle and a lower semicircle centering around a horizontal center line X so as to be coupled with an inlet duct of an electrical laundry dryer or a gas type laundry dryer. 
     Particularly, the inlet hole  101  is located at one side area centering around a vertical center line Y of the rear plate  100 , and simultaneously extends across upper and lower areas centering around the horizontal center line X. 
     An inner side  102  of the inlet hole  101  located close to a rotational center of the rear plate  100  is formed straight so as to incline to a vertical direction, and an outer side  103  opposing the inner side  102  is rounded along a circumference of the rear plate  100 . 
     Upper and lower sides  104  and  105  connecting the inner and outer sides  102  and  103  are straight so as to be in parallel with each other as well as incline at a predetermined angle to a horizontal direction. 
     Therefore, the inlet hole  101  has a quadrangular shape extending lengthwise in upper and lower directions, and the outer side  103  has a round shape convex to a circumferential direction of the rear plate  100 . 
     FIG.  6 A and FIG. 6B illustrate rear side and cross-sectional views of an electrical type inlet duct applied to a rear plate according to the present invention, FIG. 7 illustrates a rear side view of the inlet duct in FIG. 6A assembled with the rear plate according to the present invention, and FIG. 8 illustrates a schematic diagram of airflow in an electrical laundry dryer according to the present invention. 
     Referring to FIG.  6 A and FIG. 6B, an inlet duct  110  for an electrical laundry dryer includes a pair of assembled plates  111  and  112  so as to form a path through which dry air heated through a heater  130  passes. An entrance  113  is formed at a lower portion of the inlet duct  110 , which is coupled with the heater  130 , to make the dry air flow in. A covering portion  114  is formed at an upper portion of the inlet duct  110  to protrude in a front direction with a predetermined height so as to be inserted in the inlet hole  101  of the rear plate  100 . 
     Specifically, the covering portion  14  is coupled with an electrical laundry dryer so that a plurality of duct holes  115  are formed at a lower area of the covering portion  114 . 
     The inlet duct  110 , as shown in FIG. 7, is coupled with a left side of the rear plate  100 , and the duct holes  115  are distributed on a lower area centering around a horizontal center line of the rear plate  100 . It is a matter of course that a portion of the inlet hole  101  of the rear plate  100  failing to be inter-connected to the duct holes  115  is blocked by the covering portion  114  of the inlet duct  110 . 
     Therefore, in the electrical laundry dryer coupled with the rear plate  100  and inlet duct  110 , as shown in FIG. 8, air dried through the heater  130  flows in a lower side of a drum  99  through the inlet duct  110  and duct holes  115 , comes into contact with wet laundry, and then is discharged outside through an outlet duct  98 . 
     FIG.  9 A and FIG. 9B illustrate rear side and cross-sectional views of an inlet duct for a gas type laundry dryer which is applied to a rear plate according to the present invention, FIG. 10 illustrates a rear side view of the inlet duct assembled with the rear plate according to the present invention, and FIG. 11 illustrates a schematic diagram of airflow in a gas type laundry dryer according to the present invention. 
     Referring to FIG.  9 A and FIG. 9B, an inlet duct  120  for a gas type laundry dryer includes a pair of assembled plates  121  and  122  like the inlet duct for the electrical laundry dryer. An entrance  123  is formed at a lower portion of the inlet duct  120 , and a covering portion  124  is formed at an upper portion of the inlet duct  120  so as to be inserted in the inlet hole  101  of the rear plate  100  for coupling. 
     A plurality of duct holes  125  are distributed on the covering portion  124  at an area relatively higher than that for the above-described electrical laundry dryer. 
     A vent  126  as a plurality of air paths is additionally formed between the covering portion  124  and entrance  123 . 
     The above-constituted inlet duct  120 , as shown in FIG. 10, is coupled with a left side of the rear plate  100 , and the duct holes  125  are distributed on an upper area centering around a horizontal center line of the rear plate  100 . The inlet hole  101  is blocked by the covering portion  124 . 
     Therefore, in the gas type laundry dryer coupled with the rear plate  100  and inlet duct  120 , as shown in FIG. 11, an air heated and dried through a gas type heater  140  flows in an upper side of a drum  99  through the inlet duct  120  and duct holes  125 , comes into contact with wet laundry actively in the drum  99 , and then is discharged outside through an outlet duct  98 . 
     In this case, the duct holes  125  are positioned at an upper side in the rear plate  100 , thereby enabling to secure a sufficient combustion section from the heater  140  to the duct holes  125 . 
     Therefore, the inlet hole  101  extends long from the upper area to the lower area centering around a center of the rear plate  100  according to the present invention, whereby the same rear plate  100  can be applied to both the electrical and gas type laundry dryers for common use. 
     Meanwhile, in order to secure drying performance of the electrical laundry dryer and a combustion section of the gas type laundry dryer, a shown in FIG. 5, it is preferable that a ratio L/D between an opening length L of the inlet hole  101  and a diameter D of the rear plate  100  is set up as at least 0.45. 
     Moreover, an opening area of the inlet hole  101  is preferably formed to be at least 375% of a total opening area of the duct holes  115  or  125  formed at the inlet duct  110  or  120 . 
     The relation between the upper and lower length L of the inlet hole  101  and diameter D of the rear plate and the other relation between the opening areas of the inlet hole and duct holes are explained in detail by referring to FIG.  12  and FIG. 13 as follows. 
     Referring to FIG. 12, a diameter D of a rear plate  100  like a general rear plate applied to a general laundry dryer is set up as 660 mm. 
     An inlet hole indicated as ‘GAS TYPE’ in FIG. 12 has the same size of the inlet hole used for the laundry dryer according to the background art, where a distribution height of the inlet hole(duct hole) is 200 mm. A distance between a lowest end of the rear plate and a lower end of the inlet hole(duct hole) is a combustion section, and should be at least 350 mm. Being advantageously positioned lower, the distance is generally designed to be 350 mm. 
     A position of the inlet hole(duct hole) is about 150 mm from the lowest end of the rear plate so that the electrical type, which is unnecessary to consider the minimum height of the combustion section, shows its best drying performance(minimum drying time). 
     Hence, it is preferable that the length of the inlet hole according to the present invention enabling to include all the duct holes of the electrical and gas types is set up as 400 mm. In this case, the ratio L/D between the diameter D of the rear plate and length L of the inlet hole is preferably set up as about 0.6. 
     Referring to FIG. 13, compared to a right area of a dotted line where the inlet hole of the background art is located, a left area of the dotted line shows that the drying time is reduced so as to improve the drying performance when a height h from the lowest end of the rear plate  100  is lower than about 250 mm. 
     In this case, if the height h as a reference of the dotted line is 250 mm, L/D=(550−250)/660=0.45. In order to achieve the objectives of the present invention, the ratio L/D between the length L of the inlet hole and diameter D of the rear plate exceeds 0.45 enough to secure sufficient drying performance and be applied to both the electrical and gas types for common use. 
     Moreover, the duct holes of the laundry dryer according to the background art are densely constructed with small circular holes across a total area of the inlet hole, and a corresponding opening ratio of the duct holes is about 40% of the opening area of the inlet hole. On the contrary, the opening ratio of the inlet hole becomes about 250% of the total opening area of the duct holes. 
     The area of the duct holes of the present invention has no difference from that of the background art. Yet, the area of the inlet hole  101  of the present invention increases up to at least 1.5 times (h=250 mm) so that the opening area of the inlet hole  101  is preferably over 375% of the total opening area of the duct holes  115  or  125 . 
     Operation and effect of the above-constituted laundry dryer according to the present invention are explained as follows. 
     The rear plate  100  according to the present invention has the inlet hole  101  extending lengthwise from upper to lower sides of the horizontal center line X of the rear plate  100 , thereby enabling to use the inlet duct  110  for the electrical laundry dryer having the duct holes  115 , as shown in FIG.  6 A and FIG. 6B, formed at a lower side. 
     Moreover, since the dry air, as shown in FIG. 8, flows in the lower side of the drum  99  through the inlet duct  110  so as to move in a central direction for active contact with the wet laundry, thereby enabling to improve drying performance. 
     The rear plate  100  according to the present invention, as shown in FIG.  9 A and FIG. 9B, can be applied to the case that the inlet duct  120  of the gas type laundry dryer, which has the duct holes  125  positioned at the upper side to secure the combustion section, is used. Namely, the rear plate  100  applied to the electrical laundry dryer is used as it is, and the inlet duct  120  of the gas type laundry dryer having the duct holes  125  formed at the upper side can be applied thereto. Hence, it is able to use the same rear plate  100  for the electrical or gas type laundry dryer for common use. 
     Meanwhile, in the laundry dryer according to the present invention, the inlet hole  101  of the rear plate  100  extends long from the upper to lower sides centering around the horizontal center line X and the covering portion of the inlet duct  110  or  120  is connected to the inlet hole  101 . Hence, the present invention enables to cope conveniently with the modification of the shape or position of the duct holes in accordance with a drying capacity change due to length variation of the drum and an airflow change of the blow fan by adjusting the position or area of the duct holes formed at the inlet duct without changing the design of the rear plate. 
     As explained in detail in the above description, the laundry dryer according to the present invention has the inlet hole connected long from upper to lower sides to the rear plate of the drum, thereby enabling to apply the same shaped rear plate to the electrical laundry dryer including the inlet duct which has the duct holes positioned at the lower side or the gas type laundry dryer including the inlet duct which has the duct holes positioned at the relatively upper side. 
     The present invention enables the rear plate to be used for common use, and it is unnecessary to manufacture an additional rear plate in accordance with the species of the laundry dryer such as electrical or gas types. Therefore, the present invention uses the same metal mold to produce the rear plate used for the electrical and gas type laundry dryers without using an additional metal mold, thereby enabling to improve productivity as well as reduce product costs. 
     Moreover, the inlet duct couplet with the rear plate only needs to change the position of the duct holes in accordance with the species of the laundry dryer, thereby enabling to reduce product costs and assembly costs despite the changed species of the laundry dryer. 
     After all, the present invention enables the common use of the rear plate for the electrical and gas type laundry dryers so as to assemble the rear plate using the same assembly line. Therefore, the present invention enables to reduce product costs as well as improve productivity. 
     Besides, the electrical laundry dryer according to the present invention uses the inlet duct having the duct holes formed at the lower side to supply the heated air from the lower side of the drum in a central direction, whereby a drying performance is improved over 10%. 
     The foregoing embodiments are merely exemplary and are not to be construed as limiting the present invention. The present teachings can be readily applied to other types of apparatuses. The description of the present invention is intended to be illustrative, and not to limit the scope of the claims. Many alternatives, modifications, and variations will be apparent to those skilled in the art.