CN216000891U - Forming die for processing refractory material - Google Patents

Abstract

The utility model discloses a forming die for processing refractory materials, which comprises: the mould workbench is provided with a forming and processing mould structure; wherein, the shaping mold structure includes: the device comprises a pair of driving die assembly components, an injection component and a pair of demoulding components; the pair of driving die assembly components are arranged at two sides of the upper wall surface of the die workbench, the material injection component is arranged at the middle position of the upper wall surface of the die workbench, and the pair of demoulding components are arranged inside the pair of driving die assembly components; the utility model relates to the technical field of refractory material processing equipment, and the beneficial effects of the scheme are as follows: the problems that an existing machining and forming die is simple, single in effect, poor in die forming effect, not tight enough in die closing, and capable of influencing production quality, and production speed is influenced due to the fact that no effective demoulding structure exists after forming is completed are solved.

Description

Forming die for processing refractory material

Technical Field

The utility model relates to the technical field of refractory material processing equipment, in particular to a forming die for processing refractory materials.

Background

The refractory material is an inorganic non-metallic material with high refractoriness, can resist higher temperature on the indoor layer surface, is not deformed under high-temperature environment, has strong high-temperature resistance, is mainly used in the fields of fire prevention and the like, needs to be molded when the refractory material is produced, has simple existing processing and forming die, single effect, poor die forming effect, insufficient tightness of die assembly, influences the production quality, does not have an effective demolding structure after the molding is finished, and influences the production speed.

SUMMERY OF THE UTILITY MODEL

In order to achieve the purpose, the utility model is realized by the following technical scheme: the forming die for processing refractory materials comprises: the mould workbench is provided with a forming and processing mould structure;

wherein, the shaping mold structure includes: the device comprises a pair of driving die assembly components, an injection component and a pair of demoulding components;

the pair of driving die assembly components are arranged at two sides of the upper wall surface of the die workbench, the material injection component is arranged at the middle position of the upper wall surface of the die workbench, and the pair of demoulding components are arranged inside the pair of driving die assembly components;

one of the pair of driven clamping units comprises: the device comprises two pairs of limiting embedded blocks, a driving connecting block, a pair of mounting frames, a pair of driving hydraulic cylinders, a pair of fixed slideways and a forming die;

two pairs of spacing inlays dress piece fixed mounting and puts around the wall left side on the mould workstation, and drive connecting block activity inlays the dress and puts at two pairs of spacing inboard position of inlaying the dress piece, and a pair of mounting bracket fixed mounting inlays the position around the dress piece left side at two pairs of spacing, and a pair of drive pneumatic cylinder left end is connected and is installed on a pair of mounting bracket right side wall, and a pair of drive pneumatic cylinder output is installed on the wall around the drive connecting block, and is a pair of fixed slide inlays the dress and puts wall intermediate position on the mould workstation, forming die installs on a pair of fixed slide, forming die is connected with drive connecting block right side wall.

Preferably, the material injection assembly comprises: the device comprises two pairs of supporting legs, a mounting table, a feeder, a conveying pipe, a quantitative switch conveyor and a conveying pipe;

two pairs of supporting legs are installed on the wall surface of a mold workbench, the two pairs of supporting legs are located at the front and rear positions of a pair of driving mold closing assemblies, a mounting table is installed at the upper end positions of the two pairs of supporting legs, a feeder is installed on the wall surface of the mounting table, the lower end of a conveying pipe is connected and installed on a feed inlet of the feeder, a quantitative switch conveyor is installed on the wall surface of the mounting table, the quantitative switch conveyor is connected with the feeder, and a conveying pipe is installed on the wall surface of the quantitative switch conveyor.

Preferably, one of the pair of stripper members comprises: the pair of first mounting grooves, the pair of pneumatic push rods and the pair of stripping modules;

a pair of first mounting grooves are formed in the side wall face of a forming cavity in the demolding assembly, a pair of pneumatic push rods are embedded in the pair of first mounting grooves, and a pair of demolding modules are mounted on the output ends of the pair of pneumatic push rods.

Preferably, the pair of stripper units comprises: a pair of second mounting grooves, a pair of mounting blocks, a pair of high-pressure air nozzles and a pair of switch valves;

the pair of second mounting grooves are formed in the side wall face of the forming cavity of the forming die, the pair of mounting blocks are embedded on the inner wall faces of the pair of second mounting grooves, the pair of high-pressure air nozzles are mounted on the pair of mounting blocks, and the pair of switch valves are mounted at opening positions on the inner sides of the pair of second mounting grooves.

Preferably, the die worktable is provided with a supporting seat with a supporting function.

Preferably, the driving connecting block is provided with a limiting strip for limiting the moving direction.

Advantageous effects

The utility model provides a forming die for processing refractory materials, which has the following beneficial effects that the forming processing die structure is used, the refractory materials are formed and processed by using a mechanical structure, the full-automatic processing can be realized, the operation is convenient, the demoulding structure is added, the production speed is accelerated, and the problems that the existing forming die for processing is simple, the effect is single, the forming effect of the die is poor, the die assembly is not tight enough, the production quality is influenced, and the production speed is influenced because no effective demoulding structure exists after the forming is finished are solved.

Drawings

Fig. 1 is a schematic sectional view of a refractory material processing mold according to example 1 of the present invention.

Fig. 2 is a schematic axial structure diagram of a driving connecting block of the forming mold for processing refractory material according to the present invention.

Fig. 3 is a schematic sectional view of a refractory material processing mold according to example 2 of the present invention.

In the figure: 1-a mould table; 2-limiting embedded blocks; 3-driving a connecting block; 4-a mounting frame; 5-driving the hydraulic cylinder; 6-fixing the slideway; 7-forming a mould; 8-supporting legs; 9-mounting a table; 10-a feeder; 11-a delivery pipe; 12-a quantitative switch conveyor; 13-a feed delivery pipe; 14-a first mounting groove; 15-a pneumatic push rod; 16-demoulding module; 17-a second mounting groove; 18-a mounting block; 19-a high pressure jet head; 20-a switch valve; 21-a support seat; 22-limit strip.

Detailed Description

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-2, the main components of the present invention are: the mould comprises a mould workbench 1, wherein a forming and processing mould structure is arranged on the mould workbench 1;

in the specific implementation process, the molding processing mold structure comprises: the device comprises a pair of driving die assembly components, an injection component and a pair of demoulding components;

the pair of driving die assembly components are arranged at two sides of the upper wall surface of the die workbench 1, the material injection component is arranged at the middle position of the upper wall surface of the die workbench 1, and the pair of demoulding components are arranged in the pair of driving die assembly components;

one of the pair of driven clamping units comprises: the device comprises two pairs of limiting embedded blocks 2, a driving connecting block 3, a pair of mounting frames 4, a pair of driving hydraulic cylinders 5, a pair of fixed slideways 6 and a forming die 7;

two pairs of spacing inlays position around the wall left side on mould workstation 1, and the activity of drive connecting block 3 inlays the dress and is being put in two pairs of spacing 2 inboard positions of inlaying the dress, and a pair of mounting bracket 4 fixed mounting inlays position around 2 left sides of dress in two pairs of spacing, and a pair of 5 left ends of drive pneumatic cylinder are connected and are installed on a pair of 4 right side walls of mounting bracket, and a pair of 5 output of drive pneumatic cylinder are installed on the wall before drive connecting block 3, and is a pair of fixed slide 6 inlays the dress in mould workstation 1 wall intermediate position, forming die 7 installs on a pair of fixed slide 6, forming die 7 is connected with 3 right side walls of drive connecting block.

It should be noted that, when using the drive compound die subassembly, make with equipment assorted controller through controlling and establish the start, install 5 output of drive pneumatic cylinder on mounting bracket 4 and stretch out, 5 output of drive pneumatic cylinder stretch out and drive rather than connect and move to the inboard on drive connecting block 3 two pairs of spacing inlays dress blocks 2, drive connecting block 3 drive and move to the centre with forming die 7 that its right side wall is connected, a pair of forming die 7 is at the 1 intermediate position compound die of mould workstation, prepares shaping processing.

In the specific implementation process, further, the material injection assembly comprises: two pairs of supporting legs 8, a mounting table 9, a feeder 10, a conveying pipe 11, a quantitative switch conveyor 12 and a conveying pipe 13;

two pairs of supporting legs 8 are installed on the upper wall surface of a mold workbench 1, the two pairs of supporting legs 8 are located at the front and rear positions of a pair of driving mold closing assemblies, a mounting table 9 is installed at the upper end positions of the two pairs of supporting legs 8, a feeder 10 is installed on the upper wall surface of the mounting table 9, the lower end of a conveying pipe 11 is connected and installed on a feeding hole of the feeder 10, a quantitative switch conveyor 12 is installed on the lower wall surface of the mounting table 9, the quantitative switch conveyor 12 is connected with the feeder 10, and a conveying pipe 13 is installed on the lower wall surface of the quantitative switch conveyor 12.

When the material injection assembly is used, production raw materials are injected into the feeder 10 through the delivery pipe 11 for preliminary storage, after mold closing is completed, the quantitative switch conveyor 12 connected with the feeder 10 is started for quantitative material injection, and the raw materials are injected into the forming mold 7 through the delivery pipe 13.

In one embodiment, one of the pair of mold release assemblies further comprises: a pair of first mounting grooves 14, a pair of pneumatic push rods 15 and a pair of stripping modules 16;

a pair of first mounting grooves 14 are formed in the side wall surface of the inner molding cavity of the demolding component, a pair of pneumatic push rods 15 are embedded in the pair of first mounting grooves 14, and a pair of demolding modules 16 are mounted on the output ends of the pair of pneumatic push rods 15.

It should be noted that, when the demolding assembly is used, after the molding process is completed, the pair of driving mold closing assemblies drives the pair of molding molds 7 to move towards two sides for separation, when the molding molds are separated, the pair of pneumatic push rods 15 installed in the first installation groove 14 start the output ends to extend out, and the pneumatic push rods 15 drive the demolding modules 16 installed on the output ends of the pneumatic push rods to extend into the molding molds 7 to demold the molded products.

In the specific implementation process, further, a supporting seat 21 with a supporting function is installed on the mold workbench 1.

In the implementation process, furthermore, a limiting strip 22 for limiting the moving direction is installed on the driving connecting block 3.

Example 2: referring to fig. 2-3, the main components of the present invention are: the mould comprises a mould workbench 1, wherein a forming and processing mould structure is arranged on the mould workbench 1;

in the specific implementation process, the molding processing mold structure comprises: the device comprises a pair of driving die assembly components, an injection component and a pair of demoulding components;

the pair of driving die assembly components are arranged at two sides of the upper wall surface of the die workbench 1, the material injection component is arranged at the middle position of the upper wall surface of the die workbench 1, and the pair of demoulding components are arranged in the pair of driving die assembly components;

one of the pair of driven clamping units comprises: the device comprises two pairs of limiting embedded blocks 2, a driving connecting block 3, a pair of mounting frames 4, a pair of driving hydraulic cylinders 5, a pair of fixed slideways 6 and a forming die 7;

two pairs of spacing inlays position around the wall left side on mould workstation 1, and the activity of drive connecting block 3 inlays the dress and is being put in two pairs of spacing 2 inboard positions of inlaying the dress, and a pair of mounting bracket 4 fixed mounting inlays position around 2 left sides of dress in two pairs of spacing, and a pair of 5 left ends of drive pneumatic cylinder are connected and are installed on a pair of 4 right side walls of mounting bracket, and a pair of 5 output of drive pneumatic cylinder are installed on the wall before drive connecting block 3, and is a pair of fixed slide 6 inlays the dress in mould workstation 1 wall intermediate position, forming die 7 installs on a pair of fixed slide 6, forming die 7 is connected with 3 right side walls of drive connecting block.

It should be noted that, when using the drive compound die subassembly, make with equipment assorted controller through controlling and establish the start, install 5 output of drive pneumatic cylinder on mounting bracket 4 and stretch out, 5 output of drive pneumatic cylinder stretch out and drive rather than connect and move to the inboard on drive connecting block 3 two pairs of spacing inlays dress blocks 2, drive connecting block 3 drive and move to the centre with forming die 7 that its right side wall is connected, a pair of forming die 7 is at the 1 intermediate position compound die of mould workstation, prepares shaping processing.

In the specific implementation process, further, the material injection assembly comprises: two pairs of supporting legs 8, a mounting table 9, a feeder 10, a conveying pipe 11, a quantitative switch conveyor 12 and a conveying pipe 13;

two pairs of supporting legs 8 are installed on the upper wall surface of a mold workbench 1, the two pairs of supporting legs 8 are located at the front and rear positions of a pair of driving mold closing assemblies, a mounting table 9 is installed at the upper end positions of the two pairs of supporting legs 8, a feeder 10 is installed on the upper wall surface of the mounting table 9, the lower end of a conveying pipe 11 is connected and installed on a feeding hole of the feeder 10, a quantitative switch conveyor 12 is installed on the lower wall surface of the mounting table 9, the quantitative switch conveyor 12 is connected with the feeder 10, and a conveying pipe 13 is installed on the lower wall surface of the quantitative switch conveyor 12.

When the material injection assembly is used, production raw materials are injected into the feeder 10 through the delivery pipe 11 for preliminary storage, after mold closing is completed, the quantitative switch conveyor 12 connected with the feeder 10 is started for quantitative material injection, and the raw materials are injected into the forming mold 7 through the delivery pipe 13.

In one embodiment, the pair of mold release assemblies further comprises: a pair of second mounting grooves 17, a pair of mounting blocks 18, a pair of high-pressure nozzles 19, and a pair of switching valves 20;

the pair of second mounting grooves 17 are formed in the side wall surface of the molding cavity of the molding die 7, the pair of mounting blocks 18 are fitted to the inner wall surfaces of the pair of second mounting grooves 17, the pair of high-pressure air jets 19 are mounted on the pair of mounting blocks 18, and the pair of on-off valves 20 are mounted at the positions of openings inside the pair of second mounting grooves 17.

In the case of using the mold release unit, after the molding process is completed, the pair of molding dies are separated, and at the same time, the on-off valve attached to the inner wall surface of the molding die 7 is opened, and the pair of high-pressure gas jets 19 jet the high-pressure gas, and the jetted high-pressure gas jets into the molding die 7, and the gas separates the inner wall surface of the molding die 7 from the outer wall surface of the product, and the product is released.

In the specific implementation process, further, a supporting seat 21 with a supporting function is installed on the mold workbench 1.

In the implementation process, furthermore, a limiting strip 22 for limiting the moving direction is installed on the driving connecting block 3.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The forming die for processing refractory materials comprises: the mould workbench is characterized in that a forming and processing mould structure is arranged on the mould workbench;

wherein, the shaping mold structure includes: the device comprises a pair of driving die assembly components, an injection component and a pair of demoulding components;

the pair of driving die assembly components are arranged at two sides of the upper wall surface of the die workbench, the material injection component is arranged at the middle position of the upper wall surface of the die workbench, and the pair of demoulding components are arranged inside the pair of driving die assembly components;

one of the pair of driven clamping units comprises: the device comprises two pairs of limiting embedded blocks, a driving connecting block, a pair of mounting frames, a pair of driving hydraulic cylinders, a pair of fixed slideways and a forming die;

two pairs of spacing inlays dress piece fixed mounting and puts around the wall left side on the mould workstation, and drive connecting block activity inlays the dress and puts at two pairs of spacing inboard position of inlaying the dress piece, and a pair of mounting bracket fixed mounting inlays the position around the dress piece left side at two pairs of spacing, and a pair of drive pneumatic cylinder left end is connected and is installed on a pair of mounting bracket right side wall, and a pair of drive pneumatic cylinder output is installed on the wall around the drive connecting block, and is a pair of fixed slide inlays the dress and puts wall intermediate position on the mould workstation, forming die installs on a pair of fixed slide, forming die is connected with drive connecting block right side wall.

2. The mold of claim 1, wherein the injection assembly comprises: the device comprises two pairs of supporting legs, a mounting table, a feeder, a conveying pipe, a quantitative switch conveyor and a conveying pipe;

two pairs of supporting legs are installed on the wall surface of a mold workbench, the two pairs of supporting legs are located at the front and rear positions of a pair of driving mold closing assemblies, a mounting table is installed at the upper end positions of the two pairs of supporting legs, a feeder is installed on the wall surface of the mounting table, the lower end of a conveying pipe is connected and installed on a feed inlet of the feeder, a quantitative switch conveyor is installed on the wall surface of the mounting table, the quantitative switch conveyor is connected with the feeder, and a conveying pipe is installed on the wall surface of the quantitative switch conveyor.

3. The refractory material processing mold of claim 1, wherein one of the pair of mold release assemblies comprises: the pair of first mounting grooves, the pair of pneumatic push rods and the pair of stripping modules;

a pair of first mounting grooves are formed in the side wall face of a forming cavity in the demolding assembly, a pair of pneumatic push rods are embedded in the pair of first mounting grooves, and a pair of demolding modules are mounted on the output ends of the pair of pneumatic push rods.

4. The mold according to claim 1, wherein the pair of mold release members comprises: a pair of second mounting grooves, a pair of mounting blocks, a pair of high-pressure air nozzles and a pair of switch valves;

the pair of second mounting grooves are formed in the side wall face of the forming cavity of the forming die, the pair of mounting blocks are embedded on the inner wall faces of the pair of second mounting grooves, the pair of high-pressure air nozzles are mounted on the pair of mounting blocks, and the pair of switch valves are mounted at opening positions on the inner sides of the pair of second mounting grooves.

5. The mold for processing a refractory according to claim 1, wherein a support base having a supporting function is attached to the mold table.

6. The mold as claimed in claim 1, wherein the driving connecting block is provided with a stopper for limiting the movement direction.

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