KR100883314B1 - Thomson press - Google Patents

Abstract

A Thomson press is provided to improve endurance of a press mold by exerting equivalent pressing force on the press mold. In a Thomson press, an upper and lower pressing assembly(3,5) faces each other horizontally and are stalled by a spacer fastening member(7) on a base(1), away from upward and downward. Space between the upper pressing assembly and the lower pressing assembly is utilized as a work space(9). The upper pressing assembly comprises an upper pneumatic supply and exhaust port(30), an inside upper fixing member(34), an upper pressurization member(36), an upper seal member(38), an upper guide member(40), and an upper return member(42). The lower pressing assembly consists of a lower fixing member(54), a lower pressing member(56), a lower seal member(58), a lower guide member(60), and a lower return member(62).

Description

Thomson Press

The present invention relates to a thomson press device, and in particular, by the pneumatic pressure to uniformly distribute the pressing force over the entire site at the same time, the quality of the product produced by the press working, and the device can be more compact And a press mold also relates to a Thomson press device that can be improved durability.

In general, the thomson press device is configured to cut various types of products made of paper or resin sheets, such as product packaging cases, various stationery, into desired shapes, and the driving method is conventionally using a press of a hydraulic cylinder. I am working.

In the press method using such a hydraulic cylinder, the pressing force acts at the center of the upper portion of the pressure member, in which the piston rod of the hydraulic cylinder having a relatively small cross-sectional area occupies a large and wide pressing area, and also locally in a single direction downward from the top. Since the configuration is made so that only the action is made, there is a structural and fundamental weakness that the pressing force acting is difficult to evenly distribute over the entire portion of the pressing member.

In addition, as the reaction force acts on the force acting mechanically, it is difficult to obtain even pressing force due to the partial force generated on the cut product. Since it acts as a factor, which shortens the service life of the device, thereby weakening the competitiveness of work.

Moreover, in order to operate such a conventional hydraulic press, a hydraulic pump is essential and a hydraulic pumping operation is continuously required to maintain a constant pressing force during pressurization operation, which increases the amount of power used for operation and makes noise during operation. There is a disadvantage that the work environment is bad due to the occurrence of severe.

In addition, due to the structural characteristics of the hydraulic press, the installation space takes up a lot, and if an abnormality occurs in the equipment due to the characteristics of the equipment using hydraulic pressure, it is not easy to deal with it, and it is cumbersome to check the oil condition periodically as a use medium. There are disadvantages.

The present invention has been researched and developed with the following object to solve such a conventional problem.

The main object of the present invention is to adopt the two-way pressure method to simultaneously perform the pressure operation in both the downward and upward direction together with the pressure press method to have a uniformly distributed pressing force by the pneumatic pressure operation method for the pressure cutting operation. Therefore, the pressure applied to the press mold is also intended to improve the durability of the press mold by uniform pressure distribution, and to cut out the press-cutting product smoothly and uniformly to produce a good quality product.

Another object of the present invention by utilizing the pneumatic pressure medium as a whole device does not occupy a large space compared to the conventional hydraulic equipment, and does not require a separate space for installing it, including the hydraulic pump utilization of space It is excellent in terms of structure and simple in configuration, and there is no possibility of failure, so it is easy to deal with it at that time, and there is almost no noise during operation, so that the working environment of the worker can be greatly improved.

The present invention, in order to achieve the above objects, the upper pressure assembly and the lower pressure assembly on the base by horizontally facing each other by a spacer fixing member installed in a state spaced apart at regular intervals in the vertical direction, the upper, lower pressure The space between the assembly is made to be used as a working space, the upper pressurizing assembly is provided with an upper fixing member configured to provide an upper pneumatic supply discharge port and to secure the upper pressurizing space in the inner side of the pressurizing space And an upper seal member installed inside the upper pressurizing space, the upper seal member installed close to the upper pressurizing member and fitted tightly with the upper pressurizing member to enable airtightness, and the upper fixing member and the upper pressurizing member. Including each of the upper guide member and the upper return member coupled to each other The lower pressurizing assembly is provided with a lower pneumatic supply discharge port and a lower pressurizing member configured to be coupled to an inner side of the lower pressurizing space and a lower fixing member configured to secure a lower pressurizing space therein and to allow a lowering pressurization to be installed. A lower seal member installed inside the member and the lower pressurizing space and in close contact with the lower press member, the lower guide member being installed to be coupled to the lower fixing member and the lower pressing member, respectively, Each member is included, but the sealing member is made of a hollow type inside and connected to the seal pneumatic supply discharge passage, and the upper and lower guide members are fixed on one side of the upper and lower pressing members vertically. The middle portion of the guide coupling hole and the guide hermetic retention hole formed in the upper and lower fixing members It is installed through the fitting through, and installed in a plurality of parts at the same time configured to make the horizontal state of the upper, lower pressurizing member rises and falls, the upper and lower return member is the inner side of the return airtight holding station that one spring seat is fixed There is a spring rod of the other side is fixed to the movable rod is fitted is coupled to form a return spring is installed between the spring seat, one side of the movable rod is fixed to the center of the upper, lower pressing member and the middle portion Provided is a thomson press device which is fitted through the return coupling hole formed in the upper and lower fixing members, and installed through the return airtight holdings provided in the upper and lower fixing members.

Thus, the pressurizing press is applied to the upper and lower pressurizing members throughout the upper and lower pressurizing members in a state of supplying air pressure to the upper and lower pressurizing spaces during the press cutting operation and having a uniformly distributed pressing force by the air pressure thus supplied. In the work space under the condition that the pressure applied to the press die is equally distributed, the pressure applied to the press die is made by the upper and lower pressurizing members to simultaneously perform the pressing operation in both the downward and upward directions at the same time. Press work can be made.

According to the present invention, uniform pressure distribution is performed by both pneumatic pressure at the same time, uniform pressure distribution acts on press mold, thereby improving durability of press mold and smooth and uniform cutting part of press-cutting product. By using the air pressure as a pressurized medium, the whole device does not occupy much space than the conventional hydraulic equipment, the space utilization is advantageous, the configuration of the device is simple and the frequency of failure is small, Since there is little occurrence, it can have an excellent effect such as greatly improving the working environment of the worker.

Next will be described in more detail with reference to the preferred embodiment of the present invention made as described above.

As shown, according to various preferred embodiments of the present invention, in common, the upper press assembly 3 and the lower press assembly 5 face each other horizontally with the spacer fixing member 7 on the base 1. The space between the upper and lower pressure assemblies 3 and 5 may be utilized as a work space 9 by being installed at predetermined intervals in the up and down directions, but the upper pressure assembly 3 may have upper pneumatic pressure. An upper fixing member 34 and an upper fixing member 34 configured to secure the upper pressurizing space 32 inside the supply discharge port 30 and the upper pressurizing space 32 are installed to be able to move up and down. An upper seal member 38 installed inside the pressing member 36 and the upper pressurizing space 32 and installed in close contact with the upper pressing member 36 so as to be hermetically sealed, and the upper fixing member 34 ) And the upper pressing member 36 Each of the upper guide member 40 and the upper return member 42 is installed to be coupled to each other, the lower pressurized assembly 5 is provided with a lower pneumatic supply discharge port 50 and the lower pressurized space 52 inside ) Is installed inside the lower fixing member 54 and the lower pressing space 52 configured to secure the lower pressing member 56 and the lower pressing space 52, which are installed to be capable of raising and lowering. A lower guide member 58 attached to the lower pressing member 56 and installed in close contact with the lower pressing member 56 so as to be hermetically sealed, and a lower guide coupled to the lower fixing member 54 and the lower pressing member 56, respectively. It comprises a member 60 and the lower return member 62, respectively.

At this time, the base 1 serves as a frame for supporting and fixing the combined overall configuration of the upper and lower pressure assemblies 3 and 5 and the spacer fixing member 7 which will be described below in a conventional form. 1 and 2, the work space 9 is configured to secure the work space 9 with one side open, or as shown in FIG. 5, the work space 9 with both sides open at the same time. It can be configured to secure.

Next, the upper and lower pneumatic supply discharge ports 30 and 50 in the upper and lower pressurized assemblies 3 and 5 are provided with upper and lower pressurizing members from the outside of the upper and lower fixing members 34 and 54. Supplying air pressure to the upper and lower pressurization spaces 32 and 52 which are located at the upper or lower portion of the 36 and 56 or discharge the internal air pressure from the upper and lower pressurization spaces 32 and 52 to the outside. It is a passage used for the purpose, as shown in Figure 1, may be provided in the upper or lower position of the upper and lower fixing members (34, 54) or may be provided in another position of the appropriate, for example, the side position, A plurality of installation number can be provided at the same time, because the upper and lower pressurizing space (32) as a passage for supplying the pneumatic pressure to the pressure lowering or raising operation can be made (52) can be in communication with each other and not structurally restricted It is because it does not matter even if it installs in any position as a site | part.

In addition, the upper and lower pressurizing spaces 32 and 52 provided inside the upper and lower fixing members 34 and 54 use pneumatic pressure through the upper and lower pneumatic supply discharge ports 30 and 50. The upper and lower pressurizing members 36 and 56 to lower or raise the pressurizing operation and the upper and lower pneumatic supply discharge ports 30 and 50 to discharge the internal pneumatic to the outside after the pressurizing operation. It is the structure provided in the rear part of the press member 36,56.

Next, the upper and lower pressing members 36 and 56 coupled to the inside of the pressing spaces 32 and 52 so as to be lifted and lowered are pressed to press work products 100 including a press mold. It is a technical configuration to perform this.

In addition, the upper and lower pressing members 32 and 52 are installed inside the upper and lower pressing members 36 and 56 so as to be in close contact with each other so that the airtight seals are fitted. The upper and lower fixing members 34 and 54 and the upper and lower parts are moved by the upper and lower pressing members 36 and 56 when pneumatic pressure is supplied into the upper and lower pressing spaces 32 and 52. As a technical configuration installed to maintain airtightness between the pressing members 36 and 56, the upper and lower pressing members 36 and 56 move from the upper and lower initial positions to the lower lowering positions or the upper rising positions. In close contact with the side of the upper and lower pressing members 36 and 56, it is preferable to provide in the side position so that the airtight can be continuously maintained.

At this time, the seal members 38 and 58 are elastically hollow and connected to the seal pneumatic supply discharge passages 38a and 58a to pass through the seal pneumatic supply discharge passages 38a and 58a from the outside. By supplying air pressure inside to expand the sealing members 38 and 58 so that the airtight operation is performed or, on the contrary, the air pressure inside the air is discharged to the outside via the seal supply discharge passages 38a and 58a. It is preferable that the sealing members 38 and 58 be configured to be reduced to perform an operation of releasing the airtight operation.

Of course, in the case of the seal members 38 and 58, it is preferable to install and use a type in which expansion or expansion is made in a variable form by supplying or discharging the external pneumatic pressure as described above, but it can be replaced by itself as a substitute. If there is a good and durable seal, this type of seal can be selected and utilized, and the location of the installation has been described based on the type of installation in one part for convenience, but it is also possible to install a plurality of upper and lower positions simultaneously. The upper and lower pressurization spaces 32 and 52 may be provided for convenience, and the upper and lower pressurization members 36 and 56 may be in contact with the side positions of the upper and lower pressurization members 36 and 56, or the upper and lower pressurization may be performed as illustrated in FIG. 6. Description has been made centering around the upper and lower parts of the members 36 and 56, but if necessary, installed on the outer periphery of the upper and lower pressurizing members 34 and 54. It is also possible. That is, in the upper and lower pressing spaces 32 and 52, the upper and lower pressing members 36 and 56 operate in the airtight structure so that the pressurizing members 36 and 56 can be kept in air. It is irrelevant even if you choose to make it.

Next, the upper and lower guide members 40 and 60 coupled to the upper and lower fixing members 34 and 54 and the upper and lower pressing members 36 and 56 respectively are upper and lower pressing members ( 36) (56) is to guide the lower and upward movement in the horizontal state when performing the operation of lowering or rising inside the upper and lower pressing space (32) 52, one side is the upper, lower pressing member (36) and (56) perpendicularly installed and the middle portion via the guide coupling holes (34a) (54a) and the guide hermetic holding (40a) (50a) formed in the upper and lower fixing members (34, 54). It is installed so as to be coupled to each other, and installed in a plurality of portions at the same time configured to make the horizontal state of the upper, lower pressing members 36, 56 rise and fall.

In addition, the upper and lower return members 42 and 62 coupled to the upper and lower fixing members 34 and 54 and the upper and lower pressing members 36 and 56 are respectively provided to upper and lower pressing members. 36) 56 lowers or rises due to pneumatic pressure and returns to an upward or downward original position. The upper and lower return members 42 and 62 have one spring seat 42a and 62a. The movable rods 42d and 62d on which the other spring seats 42c and 62c are fixedly fitted are fitted inside the return airtight holding portions 42b and 62b which are fixedly installed, and the spring seats 42a and 42c ( The return springs 42e and 62e are installed between 62a and 62c, and one side of the movable rods 42d and 62d is fixed to the center of the upper and lower pressure members 36 and 56. The return portion is provided in the upper and lower fixing members (34) and (54) through the return coupling holes (34b, 54b) and the upper and lower fixing members (34, 54). Via (62b) It is fitted together by fitting.

Next, with reference to the accompanying drawings for the operation of the present invention made as described above will be described in each step.

First, as shown in FIGS. 1 and 2, the upper and lower pressurizing assemblies 3 and 5 positioned on the upper part of the base 1 are horizontally spaced apart at predetermined upper and lower positions by the spacer fixing member 7. Each of the upper and lower pressurizing assemblies 3 and 5 in the position is upper and lower pressurizing members 36 and 56 by upper and lower returning members 42 and 62, respectively. It is maintained in the initial state as a state in which the back or close contact with the upper or lower portion of the

In the ready state for such a press work in the initial state, the working position 9 including the press cutting mold in the work space 9 located between the upper and lower pressurizing members 36 and 56 is corrected for press work. Perform the work preparation work located at

Next, when air is supplied from the outside via the upper and lower pneumatic supply discharge passages 30 and 50 in a state where airtight is maintained by the upper and lower seal members 38 and 58, as shown in FIG. As described above, the upper and lower pressurizing spaces 32 and 52 are simultaneously provided with pneumatic pressure so that the upper and lower pressurizing members 36 and 56 simultaneously move downward and ascending and process the product including a press cutting mold. The press operation of pressing the upper and lower pressing members 36 and 56 simultaneously at the top and the bottom is performed.

At this time, when the upper and lower pressing members 36 and 56 are lowered and raised, the upper and lower pressurizing members 36 and 56 can simultaneously press and lower the upper and lower guide members 40 and 60 while maintaining the horizontal state. Through the upper and lower pressurizing spaces 32 and 52 in which the lower pressurizing members 36 and 56 are located at the rear, the same pneumatic pressure is applied to the entire rear portion and an even and uniform pressurizing operation can be obtained. Press work by the upper and lower simultaneous uniform pressurizing operation is performed on the processing product 100 including the press cutting mold located in the space 9.

Next, after the press work is performed as described above, the state in which the airtight is maintained by the upper and lower seal members 38 and 58 is released, and the pneumatic pressure applied to the inside of the upper and lower pressurized spaces 32 and 52 is removed. When the air is discharged to the outside via the upper and lower pneumatic supply discharge passages 30 and 50 to release the upper and lower pressurizing members 36 and 56 by the upper and lower return members 42 and 62. At the same time as the rising and lowering operation is made and as shown in Figures 1 and 2 as shown in the state, the upper and lower pressing member (36, 56) space is secured between the press work is completed product 100 Discharge to the outside and place the workpiece 100 including the press cutting mold in the work space 9 for the next press work, and the upper and lower pressurizing members 36 and 56 at the upper and lower portions as described above. At the same time, the press work to pressurize again.

1 is a longitudinal sectional view as a preferred example of the present invention;

2 is a longitudinal cross-sectional view of FIG. 1 viewed from another direction;

3 is an enlarged view illustrating main parts of FIG. 1;

4 is an exemplary operational state example illustrated in FIGS. 1 and 2;

5 is a longitudinal sectional view illustrating a modification of FIG. 2;

6 is a longitudinal sectional view showing still another modification;

<Description of the symbols for the main parts of the drawings>

1: anticipation, 3: upper press assembly,

5: lower press assembly, 7: spacer fixing member,

9: working space, 30, 50: pneumatic supply discharge port

32, 52: pressurized space, 34, 54: fixed member,

34a, 54a: guide coupling hole, 34b, 54b: return coupling hole,

36,56: pressing member, 38,58: sealing member,

38a, 58a: seal pneumatic supply discharge passage 40, 60: guide member,

40a, 60a: guide hermetic holding zone, 42, 62: return member,

42a, 42c, 62a, 62c: spring seat, 42b, 62b: return closure zone,

42d, 62d: movable rod, 42e, 62e: return spring

Claims (3)

On the base 1, the upper press assembly 3 and the lower press assembly 5 face each other horizontally by the spacer fixing member 7 and are spaced apart at regular intervals in the up and down directions so as to be spaced apart from each other. The space between the pressure assembly (3, 5) is made to be utilized as the working space (9), The upper pressurizing assembly 3 includes an upper fixing member 34 configured to provide an upper pneumatic supply discharge port 30 and to secure an upper pressurizing space 32 therein, and an inside of the pressurizing space 32. The upper pressing member 36 coupled and installed to be capable of raising and lowering, and the upper sealing member installed inside the upper pressing space 32 and tightly coupled to the upper pressing member 36 to enable airtightness. 38, and an upper guide member 40 and an upper return member 42 which are respectively coupled to the upper fixing member 34 and the upper pressing member 36, respectively, The lower pressurizing assembly 5 includes a lower fixing member 54 configured to provide a lower pneumatic supply discharge port 50 and to secure a lower pressurizing space 52 therein, and an inner side of the lower pressurizing space 52. A lower pressing member 56 coupled to the lower pressing member 56 and installed to enable lowering and lowering, and a lower seal installed inside the lower pressing space 52 and in close contact with the lower pressing member 56 to be hermetically sealed. The member 58 and the lower guide member 60 and the lower return member 62 which are respectively coupled to the lower fixing member 54 and the lower pressing member 56 are made, respectively, The seal members 38 and 58 are made to be connected to the seal pneumatic supply discharge passages 38a and 58a as a stretchable type having an empty inside. The upper and lower guide members 40 and 60 have one side fixed to the upper and lower pressurizing members 36 and 56, and a middle portion of the upper and lower guide members 40 and 60 is formed on the upper and lower fixing members 34 and 54. The coupling holes 34a and 54a and guide seal holding portions 40a and 50a are fitted to each other to be installed and installed at a plurality of portions at the same time to raise and lower the horizontal state of the upper and lower pressing members 36 and 56. It is configured to be done The upper and lower return members 42 and 62 have spring seats 42c and 62c on the other side inside the return airtight holdings 42b and 62b on which one side spring seats 42a and 62a are fixed. The movable rods 42d and 62d fixedly installed are fitted to each other, and return springs 42e and 62e are installed between the spring seats 42a and 42c and 62a and 62c, respectively. One side of the 62d) is fixed to the center of the upper and lower pressing members 36 and 56, and the middle portion of the return coupling holes 34b and 54b formed in the upper and lower fixing members 34 and 54. Thompson press device, characterized in that the coupling is installed via the return airtight holding (42b, 62b) provided in the upper and lower fixing members (34) (54). delete delete

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