Brick-forming vacuum press

A brick-forming vacuum press is provided with a die and top and bottom plungers which are disposed along the same vertical central axis as the die. Spaces which extend from the die and surround the top and bottom plungers are enclosed by chambers formed of sealing cylinders, flexible bowl-like skirts and sealing flanges. A horizontal table is provdided on the die to support a mix-filling charger and a compact-discharging pickup device. A wiper is carried by the pickup device to clean the table when the pickup device is shifted away from the vertical central axis of the press. Controls are provided to automate the filling of the die, press-forming and discharging of the resultant compact.

BACKGROUND OF THE INVENTION 
This invention relates to a brick-forming vacuum press, and more 
particularly to such a press which is equipped with flexible sealing 
means. 
An earlier brick-forming vacuum press was disclosed by the present assignee 
in Japanese patent application No. 58161/1971, filed Aug. 2, 1971. In the 
ensuing years, further developments and improvements have been made, and 
presses of this nature have found wider commercial utility year after 
year. 
A brick-forming vacuum press is generally constructed of a die and top and 
bottom plungers disposed along the same vertical central axis. The die is 
located between the plungers so that a mix placed in the die will be 
compressed by means of the top and bottom plungers. To facilitate charging 
of the mix into the die and discharging of a resulting product from the 
die, the die and the plungers are vertically movable relative to each 
other. 
In apparatus of this nature, it is extremely important to maintain a vacuum 
in the space defined by the die and plungers. On this subject, the present 
assignee filed Japanese Utility Model Application No. 185870/1981 on Dec. 
14, 1981, disclosing a vacuum chamber which utilizes a flexible skirt 
element. An attribute of such a skirt is that it permits a greater 
expansion/contraction stroke along the central vertical axis of the press. 
The apparatus disclosed in this specification is particularly advantageous 
because, in addition to providing effective sealing and permitting greater 
strokes of the press elements, it provides a superior production 
efficiency. 
According to this invention, it is possible to maintain a degree of vacuum 
which has been difficult to achieve in prior art presses. The invention 
permits full automization of a high performance brick forming vacuum press 
which successively performs the functions of charging a mix into the die, 
pressing the mix between the top and bottom plungers in a vacuum, and 
removing the resulting compact. This is done without substantial 
interruption and without the attendance of any operators or workers. The 
operational reliability is extremely high, and there are significant 
improvement in production efficiency. 
SUMMARY OF THE INVENTION 
According to this invention, a vacuum press for forming brick compacts has 
a die and top and bottom plungers disposed on a common vertical axis. 
Upper and lower vacuum chambers enclose the upper and lower spaces which 
surround the top and bottom plungers and extend to the die. One 
characterizing feature of the invention is that at least one of the vacuum 
chambers includes a flexible bowl-like skirt and a sealing flange 
connected thereto. 
In another respect, the invention involves a vacuum press with top and 
bottom plungers, a die, and a vacuum chamber for enclosing a space which 
surrounds the plunger and extends to the die. The vacuum chamber includes 
a sealing flange, a flexible skirt which has an outer circumference 
connected to the sealing flange and an inner circumference which is 
vertically fixed relative to the respective plunger and vertically movable 
relative to said outer circumference. The flexible skirt is deformable so 
that a surface thereof deforms from a concave configuration to a convex 
configuration in response to vertical relative movement between its inner 
circumference and its outer circumference. 
There are a number of additional desirable and preferable features of the 
invention. For example, the sealing flange may be bowl-shaped and 
complementary to the flexible skirt. The flexible skirt has a height which 
is at least about one-half the difference between its outside radius and 
its inside radius. The skirt is constructed and used so that a surface 
thereof will deform from a concave configuration to a convex configuration 
in response to vertical relative movement between its inner and outer 
circumferences or between the sealing flange and its respective plunger. 
The vacuum chamber may also include a cylindrical member which is connected 
to the inner edge of the flexible skirt. In this instance, the outer edge 
of the flexible skirt is connected to the sealing flange. 
The upper vacuum chamber preferably has a sealing flange provided with a 
sealing edge which is movable into sealing contact with the die. In this 
regard, the term "die" includes the die and its associated components such 
as the die holder and a table mounted on the die. The sealing flange has a 
convex surface which faces the die, and the flexible skirt has a lower 
surface which deforms from a convex configuration to a concave 
configuration in response to downward movement of the sealing flange 
relative to the top plunger. 
The disclosed apparatus is provided with a pickup means which is movable in 
a horizontal path and is operable to engage a brick compact and remove it 
from the press when the top plunger is in a raised position and the die is 
in a lower position. The top plunger, sealing flange and flexible skirt 
are located above the path of the pickup device when the top plunger is in 
its raised position. 
The apparatus also preferably is provided with a horizontal table which is 
mounted on the die. This table supports a horizontally reciprocating 
charger means for charging the die with the material which is to be 
compressed. A horizontally reciprocating pickup means mounted on the table 
is used to remove a compressed product. The charger means and the pickup 
means are located on opposite sides of the vertical central axis and they 
are operable independently of each other. It is particularly desirable to 
provide a wiper means which moves horizontally with the pickup means to 
wipe off the table during movement of the pickup means.

DETAILED DESCRIPTION 
As shown in FIGS. 1-3, the apparatus has a top plunger 2, a die 6 and a 
bottom plunger 11 which are disposed on a common vertical axis. These 
members are vertically movable relative to each other to compress the mix 
in the die and to eject from the die the compressed product which is known 
as a "compact." The vertical movement which occurs between the top plunger 
2 and the die 6 also provides a space which permits charging of the die 
with the mix, and pickup and removal of the compact from the die. 
In the preferred embodiment, the bottom plunger 11 is stationary. The die 
holder 7 and die 6 are vertically moved by cylinders 13 between a raised 
die-charging position shown in FIG. 1 and a lower compact-ejecting 
position shown in FIG. 3. A ram 1 moves the top plunger 2 from the raised 
position of FIG. 1 to the lower position of FIG. 2 where it enters and the 
die and compresses the material therein. 
To provide a vacuum during compression of the mix, vacuum chamber means are 
provided around the top and bottom plungers 2 and 11. When the material is 
being compressed, these vacuum chambers extend to the die 6 and they are 
connected to a vacuum source by vacuum hoses 5' and 10'. 
The upper vacuum chamber is formed of a rigid sealing cylinder 3, a 
flexible skirt 4 and a rigid sealing flange 5. The skirt 4 has a bowl-like 
configuration. Its height is at least about one-half the difference 
between its outside radius and its inside radius. Its inner circumference 
is sealingly connected to the cylinder 3, and its outer circumference is 
sealingly connected to the flange 5. The flange 5 is bowl-shaped and 
complementary to the skirt 4; and, it has a convex lower surface which 
faces the die 6. A packing ring is provided on the bottom of the flange 5 
in order to achieve an almost complete hermetic seal against the die 
assembly. A hydraulic actuator 5" moves the flange 5 vertically relative 
to the plunger 2 from the retracted position shown in solid lines in FIG. 
1 to an extended position shown in broken lines in FIG. 1. During downward 
movement of the flange 5 to its extended position, the outer circumference 
of the flexible skirt 4 moves downwardly relative to its inner 
circumference so that, as shown in FIG. 1, the lower surface of the 
flexible skirt deforms from a convex configuration to a concave 
configuration. When the flange 5 is extended, its lower surface is in 
sealing engagement with the upper surface of the die assembly. The vacuum 
chamber may then be evacuated through hose 5' so that, during the 
subsequent compression movement of the plunger 2 into the die cavity, the 
mix will be in a vacuum. 
The vacuum chamber around the lower plunger is formed of a rigid sealing 
cylinder 8 which is connected to the lower surface of the die 6, a 
bowl-like flexible skirt 9 which has its inner circumference connected to 
the cylinder 8, and a rigid sealing flange 10 which is connected to the 
outer circumference of the flexible skirt 9. The upper surface of the 
sealing flange 10 is concave. The height of skirt 9 is at least about 
one-half the difference between its outside diameter and its inside 
diameter. When the die 6 is moved downwardly relative to the bottom 
plunger 11, the skirt 9 is deformed as its inner circumference moves 
downwardly relative to its outer circumference. During this deformation, 
the upper surface of skirt 9 goes from the convex form shown in FIGS. 1 
and 2 to the concave form shown in FIG. 3. A hydraulic actuator 10" is 
operable to move the flange 10 a small distance from an upper venting 
position to a lower sealing position where its lower surface sealingly 
engages the upper surface of a plate 12' on the base 12. The efficacy of 
this seal is enhanced by providing the bottom of flange 10 with a packing 
ring as shown. 
The die is filled by a charger 14 and the compacts are removed by a pickup 
device 18, both of which are described in Japanese patent application No. 
75244/1973 and Japanese Pat. No. 78840 of the present assignee. Referring 
to FIG. 1, it will be seen that the charger 14 reciprocates rightward and 
leftward on a table 16 which is affixed to the die holder 7. In this 
specification, the die 6, die holder 7 and table 16 are referred to 
collectively as the die assembly. Number 17 designates a hydraulic 
cylinder for moving the mix-filling charger 14. The charger 14, after 
receiving the mix from a horizontally immovable hopper 15, is initially 
shifted by cylinder 17 in a leftward direction to fill the central cavity 
of the die 6 with the mix S. During this cavity filling step, the top 
plunger 2 and the die holder 7 are in their uppermost positions. The mix 
filling charger 14 then returns to its rightmost position beneath the 
hopper 15. 
Upon completion of the die-filling step, the top and bottom flanges 5 and 
10 of the vacuum chambers are lowered to the positions illustrated in FIG. 
2, to seal the upper and lower chambers around the plungers and the die 
cavity. After evacuating the air from the upper and lower chambers to 
provide a vacuum therein, the ram 1 descends with the top plunger 2 to 
compress the mix S in the die 6 as shown in FIG. 2. 
After forming the mix S into a compact, the top plunger 2 and top sealing 
flange 5 are raised to their initial positions which are above the 
horizontal path of the pickup device described below. As shown in FIG. 1, 
this provides a wide space over the die holder 7. While the top plunger 2 
and top sealing flange 5 are held in these positions, the pickup device 18 
shown in FIGS. 3 and 4 is shifted rightward by a pair of hydraulic 
cylinders 20 which are located on opposite sides of the table. The pickup 
device is positioned directly above the die 6, and the hydraulic cylinder 
13 is contracted to lower the die holder 7 to the position shown in FIG. 
3. This ejects the compact B from the die and holds it above the table 16 
where it enters the pickup device. The compact B is then grasped between 
grips 19 and the pickup device 18 is shifted leftward to transfer the 
compact B onto a takeoff conveyor 21. The charger 14 and pickup device 18 
are operated without any interference. 
A feature of this invention resides in the provision of a pivoted elastic 
rubber wiper 22 which is mounted on and movable with the pickup device 18. 
As seen in FIG. 3, the wiper 22 is pivotally moved about a transverse 
horizontal pin 23 by an actuator 22'. When the pickup device 18 moves 
rightward, the actuator 22' holds the wiper at a position where its lower 
wiping edge is spaced above the table 16. When the pickup device 18 comes 
close to the charger 14 and its direction of movement is reversed, 
actuator 22' turns the wiper 22 in the opposite direction so that its 
rubber blade is pressed against the upper surface of the table 16. As the 
pickup device moves leftward, the wiper 22 completely cleans the upper 
surface of the table 16. This cleaning operation is carried out 
repeatedly, thereby providing a clean surface which is sealingly engaged 
by the flange 5 to play an important role in the maintenance of a high 
degree of vacuum. 
The operation of the brick-forming vacuum press according to this invention 
may be summarized as follows: 
(a) The sealing flange 5 of the top plunger 2 is raised by actuator 5" to 
form a relatively high space beneath the top plunger 2. The die holder 7 
is held at its uppermost position; 
(b) The charger 14 is shifted leftward to the vertical central axis of the 
press and, after filling the cavity of the die 6 with the mix S, is 
shifted back to the right; 
(c) The top and bottom sealing flanges 5 and 10 are moved by actuators 5" 
and 10" into sealing engagement with the die assembly and the bottom plate 
12'; 
(d) Air is evacuated from the spaces defined by the die assembly, sealing 
flanges, and skirts; and the top plunger 2 is driven downwardly to 
compress the mix S in the die; 
(e) As soon as the forming has finished, the plunger 2 and upper flange 5 
are raised, and pickup device 18 is shifted rightward to assume a position 
on the vertical central axis of the press. Then, the die holder 7 is 
lowered so the bottom plunger 11 will eject the compact B upwardly into 
the pickup device 18; 
(f) The compact B is engaged by the grips 19 of the pickup device 18. The 
pickup device 18 is then moved leftward by cylinders 20 to transfer the 
compact B to the conveyor 21; and 
(g) The pickup device 18 is again moved to the right, the rubber blade of 
the wiper 22 is lowered, and the pickup device 18 moves leftward so that 
blade 22 wipes off the upper surface of the table 16 completely. 
In the course of machine operation, there is no interference between any of 
the steps (a) to (g). Since the up and down stroke of each of the flexible 
bowl-shaped skirts 4 and 9 may be large, the horizontal displacement of 
the pickup device 18 is not hampered at all. In the present age of 
automation, it is extremely easy to carry out the above steps successively 
without the attendance of operators or workers. For example, (b) is 
started automatically after completion of the step (a), and then step (c) 
is started automatically after completion of step (b). 
It will be evident that the invention may be modified in many ways. For 
example, the apparatus may have a vertically immovable die which is 
positioned between vertically movable top and bottom plungers without 
altering the advantages and effects of this invention. The lower sealing 
edge of the flange 10 may be affixed and permanently sealed to the plate 
12' of the base. Step (f) may be performed between steps (a) and (b) to 
remove any mix left on the table 16 by the charger 4; or, the wiper 22 may 
be lowered during the leftward movement of the pickup device in step (f) 
in order to avoid step (g) which involves an additional stroke of the 
pickup device. Further, the ram which drives the top plunger may be 
actuated by a hydraulic cylinder, a toggle mechanism or a screw with a 
frictional flywheel. 
Having now fully described the invention, it will be apparent to persons of 
ordinary skill in the art that many changes and modifications can be made 
thereto without departing from the spirit or scope of the invention as set 
forth herein.