CN222329141U - Extrusion forming device for catalyst - Google Patents

Abstract

The utility model discloses an extrusion molding device for catalysts, which relates to the field of extrusion molds. It includes a mold cavity, a molding block is provided on one side of the mold cavity, a hole pressing part is provided on the other side of the mold cavity, a hydraulic cylinder is provided on the molding block and the hole pressing part, a blocking mechanism is provided at one end of the mold cavity, a first slide is installed at one end of the mold cavity, a first base is fixedly installed at the edge of one end of the mold cavity, a first electric push rod is fixedly installed on the first base, a first bracket is fixedly installed on the upper end of the first electric push rod, a blocking plate is fixedly installed on the first bracket, and a molding mechanism is provided at the other end of the mold cavity. After the blocking plate is folded up and the molding plate is put down, the hole pressing part can be driven forward by the hydraulic cylinder to open a hole on the embryo, and finally the blocking plate and the molding plate can be folded up at the same time. After the blocking plate and the molding plate are folded up, the embryo can be pushed out by the molding block, and the blanking is completed quickly, thereby improving the processing efficiency.

Description

Extrusion forming device for catalyst

Technical Field

The utility model relates to the field of extrusion dies, in particular to an extrusion molding device for a catalyst.

Background

The denitration catalyst can convert nitrogen oxides into harmless gases such as nitrogen and water vapor. These catalysts are typically made of metallic ammonium, ammonium or potassium phosphates, which are capable of efficiently absorbing nitrogen oxides and converting them into mild substances. In the process of using the denitration catalyst, not only can the emission of pollutants be reduced, but also the energy consumption can be effectively reduced. The catalyst extrusion molding device is formed by extruding a die, workers place raw materials in the die during production, then mold the raw materials in an extrusion mode, and the catalyst blank is taken out by the workers after molding, so that the production efficiency is low.

Disclosure of utility model

The utility model mainly aims to provide an extrusion molding device for a catalyst, which can effectively solve the problems in the background art.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The utility model provides an extrusion device for catalyst, includes the mould cavity, mould cavity one side is equipped with the shaping briquetting, mould cavity opposite side is equipped with presses the hole spare, shaping briquetting and then all are equipped with the pneumatic cylinder on pressing the hole spare, mould cavity one end is equipped with blocks the mechanism, it includes first support, first electric putter, blocks plate, first base and first spout to block the mechanism, first spout is installed in mould cavity one end department, first base fixed mounting is in mould cavity one end edge, fixed mounting has first electric putter on the first base, first electric putter upper end fixed mounting has first support, fixed mounting blocks the plate on the first support, the mould cavity other end is equipped with forming mechanism, forming mechanism includes second support, second electric putter, shaping plate, second base and second spout, second base fixed mounting is in mould cavity other end edge, fixed mounting has the second electric putter on the second base, second electric putter upper end fixed mounting has the second support on the second support.

Further, a screw is arranged at the edge of the first base, and the first base is fixed on the die cavity through the screw.

Furthermore, the blocking plate is movably arranged at one end of the die cavity through a first sliding groove, one end of the first support is fixed on the first electric push rod, and the other end of the first support is fixed on the blocking plate.

Further, a screw is arranged at the edge of the second base, and the second base is fixed on the die cavity through the screw.

Furthermore, the forming plate is movably arranged at the other end of the die cavity through a second sliding groove, one end of the second support is fixed on the second electric push rod, and the other end of the second support is fixed on the forming plate.

Further, the forming press block and the hole pressing piece are respectively movably installed at two ends of the die cavity through hydraulic cylinders.

Compared with the prior art, the utility model has the following beneficial effects:

When the die is used, a worker only needs to place raw materials in the die cavity, after the raw materials are placed in the die cavity, the forming plate can be folded to put down the blocking plate, after the forming plate is folded to put down the blocking plate, the forming press block can be driven to move forwards through the hydraulic cylinder, so that the forming plate can be folded to be put down the blocking plate, after the forming plate is put down, the hole pressing piece can be driven to move forwards through the hydraulic cylinder, so that holes are formed in the blank, finally, the blocking plate and the forming plate can be folded simultaneously, after the blocking plate and the forming plate are folded, the blank can be pushed out through the forming press block, and the blanking is completed rapidly, so that the processing efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a blocking mechanism according to the present utility model;

FIG. 3 is a schematic view of a molding mechanism according to the present utility model.

The device comprises a hydraulic cylinder 1, a forming pressing block 2, a die cavity 3, a hole pressing piece 4, a blocking mechanism 501, a first bracket 502, a first electric push rod 503, a blocking plate block 504, a first base 505, a first sliding chute 6, a forming mechanism 601, a second bracket 602, a second electric push rod 603, a forming plate block 604, a second base 605 and a second sliding chute.

Detailed Description

The utility model is further described in connection with the following detailed description, in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1-3, an extrusion forming device for a catalyst comprises a die cavity 3, wherein a forming press block 2 is arranged on one side of the die cavity 3, a hole pressing piece 4 is arranged on the other side of the die cavity 3, hydraulic cylinders 1 are respectively arranged on the forming press block 2 and the hole pressing piece 4, a blocking mechanism 5 is arranged at one end of the die cavity 3, the blocking mechanism 5 comprises a first support 501, a first electric push rod 502, a blocking plate 503, a first base 504 and a first chute 505, a forming mechanism 6 is arranged at the other end of the die cavity 3, the forming mechanism 6 comprises a second support 601, a second electric push rod 602, a forming plate 603, a second base 604 and a second chute 605, and the forming press block 2 and the hole pressing piece 4 are respectively movably mounted at two ends of the die cavity 3 through the hydraulic cylinders 1.

The mould cavity 3 one end is equipped with blocks mechanism 5, block mechanism 5 includes first support 501, first electric push rod 502, block plate 503, first base 504 and first spout 505, first spout 505 installs in mould cavity 3 one end department, first base 504 fixed mounting is in mould cavity 3 one end edge, fixed mounting has first electric push rod 502 on the first base 504, first electric push rod 502 upper end fixed mounting has first support 501, fixed mounting has blocks plate 503 on the first support 501, can drive the up-and-down motion of blocking plate 503 through first electric push rod 502, thereby the position of blocking plate 503 is controlled.

The other end of the die cavity 3 is provided with a forming mechanism 6, the forming mechanism 6 comprises a second support 601, a second electric push rod 602, a forming plate 603, a second base 604 and a second chute 605, the second chute 605 is arranged at the other end of the die cavity 3, the second base 604 is fixedly arranged at the edge of the other end of the die cavity 3, the second electric push rod 602 is fixedly arranged on the second base 604, the second support 601 is fixedly arranged at the upper end of the second electric push rod 602, the forming plate 603 is fixedly arranged on the second support 601, the forming plate 603 can be driven to move up and down through the second electric push rod 602, so that the position of the forming plate 603 is controlled, and redundant raw materials in the punching process can be discharged through holes in the forming plate 603.

In practical use, the raw materials are firstly placed in the die cavity 3, the blocking plate 503 is movably installed at one end of the die cavity 3 through the first chute 505, one end of the first bracket 501 is fixed on the first electric push rod 502, the other end of the first bracket 501 is fixed on the blocking plate 503, the edge of the second base 604 is provided with a screw, the second base 604 is fixed on the die cavity 3 through the screw, the forming plate 603 is movably installed at the other end of the die cavity 3 through the second chute 605, one end of the second bracket 601 is fixed on the second electric push rod 602, the other end of the second bracket 601 is fixed on the forming plate 603, then, after the raw material is placed in the die cavity 3, the forming plate 603 can be folded to put down the blocking plate 503, after the forming plate 603 is folded to put down the blocking plate 503, the forming press block 2 can be driven to move forward through the hydraulic cylinder 1, so that the raw material is extruded into a block-shaped blank body, after the forming plate 603 is put down by the folding blocking plate 503, the forming plate 603 can be driven to move forward through the hydraulic cylinder 1, so that holes are formed on the blank body, finally, the blocking plate 503 and the forming plate 603 can be folded at the same time, after the blocking plate 503 and the forming plate 603 are folded, the blank body can be pushed out through the forming press block 2, the blanking is rapidly completed, and the processing efficiency is improved.

It should be noted that the above-mentioned embodiments are merely preferred embodiments of the present utility model, and the present utility model is not limited thereto, but may be modified or substituted for some of the technical features thereof by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (6)

1. The extrusion molding device for the catalyst is characterized by comprising a mold cavity (3), wherein one side of the mold cavity (3) is provided with a molding press block (2), the other side of the mold cavity (3) is provided with a hole pressing piece (4), the molding press block (2) and the hole pressing piece (4) are respectively provided with a hydraulic cylinder (1), one end of the mold cavity (3) is provided with a blocking mechanism (5), the blocking mechanism (5) comprises a first bracket (501), a first electric push rod (502), a blocking plate (503), a first base (504) and a first chute (505), the first chute (505) is arranged at one end of the mold cavity (3), the first base (504) is fixedly arranged at the edge of one end of the mold cavity (3), the first base (504) is fixedly provided with a first electric push rod (502), the upper end of the first bracket (501) is fixedly arranged with a blocking plate (5), the other end of the mold cavity (3) is provided with a second bracket (6), the second bracket (605) comprises a second bracket (601) and a second forming mechanism (605), the second sliding groove (605) is arranged at the other end of the die cavity (3), the second base (604) is fixedly arranged at the edge of the other end of the die cavity (3), the second base (604) is fixedly provided with a second electric push rod (602), the upper end of the second electric push rod (602) is fixedly provided with a second support (601), and the second support (601) is fixedly provided with a forming plate (603).

2. The extrusion molding apparatus for a catalyst according to claim 1, wherein screws are provided at the edges of the first base (504), and the first base (504) is fixed to the mold cavity (3) by the screws.

3. The extrusion molding device for a catalyst according to claim 2, wherein the blocking plate (503) is movably mounted at one end of the mold cavity (3) through a first chute (505), one end of the first bracket (501) is fixed to the first electric push rod (502), and the other end of the first bracket (501) is fixed to the blocking plate (503).

4. An extrusion molding apparatus for a catalyst as set forth in claim 3, wherein screws are provided at edges of said second base (604), said second base (604) being secured to said mold cavity (3) by screws.

5. The extrusion molding device for a catalyst according to claim 4, wherein the molding plate (603) is movably mounted at the other end of the mold cavity (3) through a second sliding groove (605), one end of the second bracket (601) is fixed on the second electric push rod (602), and the other end of the second bracket (601) is fixed on the molding plate (603).

6. The extrusion molding device for catalysts according to claim 5, wherein the molding press block (2) and the hole pressing piece (4) are movably installed at two ends of the mold cavity (3) through the hydraulic cylinder (1).