CN220986244U - Compression-resistant heat-insulating structure of vulcanizing machine - Google Patents

Abstract

The utility model relates to a heat insulation structure, in particular to a compression-resistant heat insulation structure of a vulcanizing machine. Including last pedestal and lower pedestal, go up the pedestal and be located the top of lower pedestal, go up the pedestal and be close to one side of lower pedestal and install the upper die base, the top of lower pedestal is equipped with the die holder, and the surface of upper die base and die holder all is equipped with thermal-insulated subassembly, and thermal-insulated subassembly's inside is equipped with the filling subassembly that is used for promoting its thermal-insulated effect, links to each other through the reinforcement subassembly between filling subassembly and the thermal-insulated subassembly. According to the utility model, the filling assembly arranged in the heat insulation assembly effectively improves the heat insulation effect of the heat insulation assembly, and the reinforcing assembly improves the connection effect between the filling assembly and the heat insulation assembly and further improves the integral compression resistance effect.

Description

Compression-resistant heat-insulating structure of vulcanizing machine

Technical Field

The utility model relates to a heat insulation plate, in particular to a compression-resistant heat insulation structure of a vulcanizing machine.

Background

In modern industrial production, on machines for high-temperature processing of materials, such as vulcanizing machines, molding presses, hydraulic presses and other machines in rubber industry, heat insulation boards are generally used, and in the case of vulcanizing machines, the current vulcanizing machine generally comprises an upper part and a lower part, and the main structure of the vulcanizing machine is as follows: the vulcanizing machine comprises an upper seat and a base, wherein the upper seat is provided with a heat insulation plate, a heating plate and a die holder from top to bottom, and the base is provided with the heat insulation plate, the heating plate, a movable plate and the die holder from top to bottom;

In the existing vulcanizing machine, the adopted heat insulation plate is usually formed by mixing and pressing asbestos plates or resin and reinforcing fibers, and is suitable for heat insulation, but when rubber is processed, an upper die holder is adopted to press down, the strength of the upper die holder can reach 2000N, and the vulcanizing machine can be damaged due to the fact that the existing heat insulation plate is repeatedly subjected to strong pressure for a long time to a certain extent due to the long-term high-temperature operation of the vulcanizing machine, and in this regard, the compression-resistant heat insulation structure of the vulcanizing machine is provided.

Disclosure of utility model

The utility model aims to solve the defects and provide a compression-resistant heat-insulating structure of a vulcanizing machine, wherein the inside of a heat-insulating plate body can be filled by aerogel felts through a filling assembly arranged inside the heat-insulating assembly.

Through setting up at the inside subassembly that fills of thermal-insulated subassembly for the inside accessible aerogel felt of thermal-insulated board body fills, and effectual thermal-insulated effect and the resistance to compression effect of promotion thermal-insulated board body utilize the surface of the reinforcement extension board that longitudinal extension piece both ends are connected simultaneously and set up the inner wall laminating in the reinforcement groove at transverse extension piece both ends, when the support cover is installed around filling the storehouse, longitudinal extension piece can be splice clamping state with transverse extension piece, has further promoted holistic resistance to compression.

The utility model provides a compression-resistant heat-insulating structure of a vulcanizing machine, which comprises an upper seat body and a lower seat body, and is characterized in that: the upper seat body is positioned above the lower seat body, an upper die holder is arranged on one side, close to the lower seat body, of the upper seat body, a lower die holder is arranged at the top of the lower seat body, and heat insulation components are arranged on the surfaces of the upper die holder and the lower die holder;

The inside of thermal-insulated subassembly is equipped with the filling subassembly that is used for promoting its thermal-insulated effect, link to each other through reinforcing assembly between filling subassembly and the thermal-insulated subassembly.

As a further improvement of the technical scheme, the heat insulation assembly comprises a heat insulation plate body, wherein the heat insulation plate body is composed of an upper mask and a lower mask, and a plurality of ceramic columns used for integrally supporting the heat insulation plate body are connected between the upper mask and the lower mask.

As a further improvement of the technical scheme, the filling assembly comprises a filling bin formed between an upper mask and a lower mask, supporting sleeves are arranged around the filling bin, one sides of the four supporting sleeves, which are close to the filling bin, are respectively connected with a transverse extending piece and a longitudinal extending piece, mounting holes are formed in the surfaces of the upper mask and the lower mask, and the inner threads of the mounting holes are connected with bolts.

As a further improvement of the technical scheme, the reinforcing component comprises reinforcing grooves formed in two ends of the transverse extending piece, reinforcing extension plates are fixedly connected to two ends of the longitudinal extending piece, and the surfaces of the reinforcing extension plates are attached to the inner walls of the reinforcing grooves.

As the further improvement of this technical scheme, the top cap surface joint of bolt has the insulating cover that is used for carrying out the check to the heat, the tip that the insulating cover kept away from the bolt flushes with the surface of heat insulating board body.

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

In this vulcanizer resistance to compression heat insulation structure, through setting up upper die base and the die holder on last pedestal and lower pedestal surface, make heat insulating component can set up on upper die base and die holder be close to the surface of upper die base and lower pedestal for the heat can be isolated, utilizes the setting at the inside filling subassembly of heat insulating component, effectually promoted the thermal-insulated effect of heat insulating component, through reinforcing the subassembly, make the connection effect between filling subassembly and the heat insulating component can obtain promoting, and further promoted holistic resistance to compression effect.

Drawings

The utility model is described in more detail below, by way of example, with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of an insulation pack mounting structure of the present utility model;

FIG. 2 is a schematic view of the overall structure of the insulation module of the present utility model;

FIG. 3 is an exploded view of the insulation module of the present utility model;

FIG. 4 is a schematic view of a packing assembly of the present utility model;

fig. 5 is a schematic diagram of the structure of fig. 4 at a.

The meaning of each reference sign in the figure is:

1. an upper base; 11. a lower base; 12. an upper die holder; 13. a lower die holder;

2. a thermal insulation assembly; 21. a heat shield body; 22. an upper mask; 23. a lower mask; 24. a ceramic column;

3. A filling assembly; 31. a support sleeve; 32. a transversely extending sheet; 33. a longitudinally extending sheet; 34. a mounting hole; 35. a bolt; 36. filling a bin;

4. A reinforcement assembly; 41. a reinforcing groove; 42. reinforcing the extension plate;

5. And a heat insulation cover.

Detailed Description

In the existing vulcanizing machine, the adopted heat insulation plate is usually formed by mixing and pressing asbestos plates or resin and reinforcing fibers, and is suitable for heat insulation, but when rubber is processed, an upper die holder is adopted to press down, the strength of the upper die holder can reach 2000N, and the vulcanizing machine can operate at high temperature for a long time, so that the existing heat insulation plate can be damaged due to strong pressure repeatedly for a long time to a certain extent.

Referring to fig. 1-5, the device includes an upper base 1 and a lower base 11, the upper base 1 is located above the lower base 11, an upper die holder 12 is installed on one side of the upper base 1 close to the lower base 11, a lower die holder 13 is disposed at the top of the lower base 11, heat insulation components 2 are disposed on surfaces of the upper die holder 12 and the lower die holder 13, a filling component 3 for improving heat insulation effect is disposed inside the heat insulation components 2, and the filling component 3 is connected with the heat insulation components 2 through a reinforcing component 4.

Firstly, a specific structure of the heat insulation assembly 2 is disclosed, the heat insulation assembly 2 comprises a heat insulation plate body 21, the heat insulation plate body 21 is composed of an upper mask 22 and a lower mask 23, and a plurality of ceramic columns 24 for supporting the whole heat insulation plate body 21 are connected between the upper mask 22 and the lower mask 23. The heat insulation plate body 21 is composed of the upper mask 22 and the lower mask 23, a plurality of ceramic columns 24 can be positioned between the upper mask 22 and the lower mask 23, the whole heat insulation plate body 21 can be supported, and the heat insulation plate body 21 can achieve the effects of compression resistance, no deformation and less heat transfer by utilizing the ceramic materials of the ceramic columns 24, so that the heat insulation effect of the heat insulation plate body 21 is improved.

Secondly, a specific structure of the filling assembly 3 is disclosed, the filling assembly 3 comprises a filling bin 36 formed between the upper mask 22 and the lower mask 23, supporting sleeves 31 are arranged around the filling bin 36, one sides of the four supporting sleeves 31, which are close to the filling bin 36, are respectively connected with a transverse extending piece 32 and a longitudinal extending piece 33, mounting holes 34 are formed in the surfaces of the upper mask 22 and the lower mask 23, and bolts 35 are connected with the inner threads of the mounting holes 34. Through the filling bin 36 arranged between the upper mask 22 and the lower mask 23, aerogel felts can be filled in the filling bin 36, so that the heat insulation effect of the heat insulation plate body 21 is improved, the bolt 35 can pass through the mounting holes 34 to be mounted on the surfaces of the transverse extending piece 32 and the longitudinal extending piece 33 by utilizing the transverse extending piece 32 and the longitudinal extending piece 33 which are connected with the surfaces of the supporting sleeve 31 and the supporting sleeve 31 which are arranged around the filling bin 36, the supporting sleeve 31 can be more conveniently mounted on the surface of the filling bin 36, the filling bin 36 can be in a sealing state, the leakage condition of the aerogel felts is reduced, and the integral compression resistance effect is further improved.

Finally, a specific structure of the reinforcing component 4 is disclosed, the reinforcing component 4 comprises reinforcing grooves 41 formed in two ends of the transverse extending piece 32, reinforcing extension plates 42 are fixedly connected to two ends of the longitudinal extending piece 33, and the surfaces of the reinforcing extension plates 42 are attached to the inner walls of the reinforcing grooves 41. The surface of the reinforcing extension plate 42 connected with the two ends of the longitudinal extension piece 33 is attached to the inner wall of the reinforcing groove 41 formed on the two ends of the transverse extension piece 32, when the supporting sleeve 31 is installed around the filling bin 36, the longitudinal extension piece 33 and the transverse extension piece 32 can be in a splicing and clamping state, so that the installation stability of the supporting sleeve 31 is improved.

The improvement of the embodiment is that: firstly, through the upper die holder 12 and the lower die holder 13 arranged on the surfaces of the upper base body 1 and the lower base body 11, the heat insulation plate body 21 can be arranged on the surfaces of the upper die holder 12 and the lower die holder 13 close to the upper base body 1 and the lower base body 11, heat can be insulated, the heat insulation plate body 21 is composed of the upper mask 22 and the lower mask 23, a plurality of ceramic columns 24 can be positioned between the upper mask 22 and the lower mask 23, the whole heat insulation plate body 21 can be supported, the heat insulation plate body 21 can achieve the effects of pressure resistance, deformation resistance and less heat transfer by utilizing the ceramic materials of the ceramic columns 24, the heat insulation plate body 21 can be filled in the filling bin 36 through the filling bin 36 arranged between the upper mask 22 and the lower mask 23, the heat insulation effect of the heat insulation plate body 21 is improved, the transverse extending pieces 32 and the longitudinal extending pieces 33 which are connected with the surfaces of the supporting sleeves 31 arranged around the filling bin 36 are utilized, the bolts 35 can pass through the mounting holes 34 to be mounted on the surfaces of the transverse extending pieces 32 and the longitudinal extending pieces 33, the surface of the reinforcing plates 42 which are connected with the two ends of the longitudinal extending pieces 33 are utilized, the surface of the reinforcing plates 42 which are mounted on the two ends of the transverse extending pieces 32 and the two ends of the supporting sleeves 31 are mounted on the transverse extending pieces 31, and the two sides of the supporting sleeves 31 can be mounted on the transverse extending sleeves 31, and the transverse extending grooves 31 are mounted on the side of the supporting sleeves and the two ends of the supporting sleeves 31 are mounted on the transverse extending grooves and the supporting sleeves and the transverse extending bodies and the supporting grooves and the supporting plates and the transverse extending and 31 and the supporting structures and the transverse extension and the supporting structures and the heat insulation structures and are mounted.

The heat insulating plate body 21 is supported by the ceramic columns 24, the cross section area of the ceramic columns 24 is small, compression resistance is not deformed, heat transfer is small, and the heat insulating plate body 21 has a heat conductivity coefficient as low as below 0.06 and a service life as long as more than twenty years and can be disassembled for repeated use by matching with aerogel felts.

Because the bolt 35 is metal, the heat conduction performance is stronger, so in order to reduce the bolt 35 and influence the holistic thermal-insulated condition of heat insulating board body 21, show through fig. 3-5, the top cap surface joint of bolt 35 has the insulating cover 5 that is used for carrying out the check to the heat, and the end that insulating cover 5 kept away from bolt 35 flushes with the surface of heat insulating board body 21.

The improvement is that: when the bolts 35 are installed in the installation holes 34, the heat insulation cover 5 can be clamped at the top cover of the bolts 35, and after the installation is finished, the surface of the heat insulation cover 5 and the surface of the heat insulation plate body 21 are in a flush state, so that the heat absorption of the bolts 35 is reduced, and the integral installation condition of the heat insulation plate body 21 is not influenced.

To sum up, the working principle of the scheme is as follows: firstly, through the upper die holder 12 and the lower die holder 13 arranged on the surfaces of the upper base body 1 and the lower base body 11, the heat insulation plate body 21 can be arranged on the surfaces of the upper die holder 12 and the lower die holder 13 close to the upper base body 1 and the lower base body 11, so that heat can be insulated, the heat insulation plate body 21 is composed of an upper mask 22 and a lower mask 23, a plurality of ceramic columns 24 can be positioned between the upper mask 22 and the lower mask 23, the whole heat insulation plate body 21 can be supported, the heat insulation plate body 21 can achieve the effects of compression resistance, no deformation and less heat transfer by utilizing the ceramic material of the ceramic columns 24, the aerogel blanket can be filled in the filling bin 36 through the filling bin 36 arranged between the upper mask 22 and the lower mask 23, thereby improving the heat insulation effect of the heat insulation plate body 21, utilizing the supporting sleeve 31 arranged around the filling bin 36 and the transverse extension piece 32 and the longitudinal extension piece 33 which are connected with the surfaces of the supporting sleeve 31, so that the bolt 35 can pass through the mounting hole 34 to be mounted on the surfaces of the transverse extension piece 32 and the longitudinal extension piece 33, utilizing the surfaces of the reinforcing extension plates 42 connected with the two ends of the longitudinal extension piece 33 to be attached to the inner walls of the reinforcing grooves 41 arranged on the two ends of the transverse extension piece 32, when the supporting sleeve 31 is mounted around the filling bin 36, the longitudinal extension piece 33 and the transverse extension piece 32 can be in a splicing and clamping state, thereby improving the mounting stability of the supporting sleeve 31 and reducing the leakage of aerogel felt;

When the bolts 35 are installed in the installation holes 34, the heat insulation cover 5 can be clamped at the top cover of the bolts 35, and after the installation is finished, the surface of the heat insulation cover 5 and the surface of the heat insulation plate body 21 are in a flush state, so that the heat absorption of the bolts 35 is reduced, and the integral installation condition of the heat insulation plate body 21 is not influenced.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a vulcanizer resistance to compression heat insulation structure, includes pedestal (1) and lower pedestal (11), its characterized in that: the upper seat body (1) is positioned above the lower seat body (11), an upper die holder (12) is arranged on one side, close to the lower seat body (11), of the upper seat body (1), a lower die holder (13) is arranged at the top of the lower seat body (11), and heat insulation components (2) are arranged on the surfaces of the upper die holder (12) and the lower die holder (13);

the inside of thermal-insulated subassembly (2) is equipped with and is used for promoting its thermal-insulated effect's filling subassembly (3), link to each other through reinforcement subassembly (4) between filling subassembly (3) and thermal-insulated subassembly (2).

2. The vulcanizer compression and heat insulation structure of claim 1, wherein: the heat insulation assembly (2) comprises a heat insulation plate body (21), wherein the heat insulation plate body (21) is composed of an upper mask (22) and a lower mask (23), and a plurality of ceramic columns (24) used for supporting the whole heat insulation plate body (21) are connected between the upper mask (22) and the lower mask (23).

3. The vulcanizer compression and heat insulation structure of claim 2, wherein: the filling assembly (3) comprises a filling bin (36) formed between an upper mask (22) and a lower mask (23), supporting sleeves (31) are arranged around the filling bin (36), one sides of the four supporting sleeves (31) close to the filling bin (36) are respectively connected with a transverse extending piece (32) and a longitudinal extending piece (33), mounting holes (34) are formed in the surfaces of the upper mask (22) and the lower mask (23), and bolts (35) are connected with internal threads of the mounting holes (34).

4. A vulcanizer compression and heat insulation structure as defined in claim 3, wherein: the reinforcing component (4) comprises reinforcing grooves (41) formed in two ends of the transverse extending piece (32), reinforcing extension plates (42) are fixedly connected to two ends of the longitudinal extending piece (33), and the surfaces of the reinforcing extension plates (42) are attached to the inner walls of the reinforcing grooves (41).

5. A vulcanizer compression and heat insulation structure as defined in claim 3, wherein: the top cover surface joint of bolt (35) has heat insulating cover (5) that are used for carrying out check to the heat, the tip that keeps away from bolt (35) of heat insulating cover (5) flushes with the surface of heat insulating board body (21).