CN218227449U - Take auxiliary heating's mould - Google Patents

Abstract

The utility model discloses a take auxiliary heating's mould, include: a force bearing body; the bearing body is characterized in that an upper cover plate is arranged at the upper end of the bearing body, a lower cover plate is arranged at the lower end of the bearing body, a shallow groove is formed in the inner wall of the bearing body which is enclosed into a closed cavity among the bearing body, the upper cover plate and the lower cover plate, a heating body is arranged in the shallow groove, a heat insulation layer is arranged between the shallow groove and the heating body, and the heat insulation layer is wrapped on the heating body. When the vulcanizing machine is used, the side heating body is used as an auxiliary heating mode to heat a product together with the upper flat plate and the lower flat plate of the vulcanizing machine, so that the vulcanizing efficiency is improved. The utility model discloses make things convenient for mould maintenance and change.

Description

Take auxiliary heating's mould

Technical Field

The utility model relates to a rubber products mould technical field, concretely relates to take auxiliary heating's mould.

Background

As a common rubber product production device, a flat vulcanizing machine is generally heated only by an upper hot plate and a lower hot plate of the vulcanizing machine, but the heat conductivity of rubber is poor, the heat transfer speed is low, the efficiency is low, the time for vulcanizing a thick rubber product such as a laminated rubber support is long, and the improvement of the productivity is greatly limited. The traditional technology for producing laminated rubber products is to put laminated steel plates and rubber into a mould for pressurizing, heating and vulcanizing, and the heat slowly permeates and is conducted into a central area by the heating action of an upper flat plate and a lower flat plate of a flat vulcanizing machine. Two problems exist with conventional heating methods: firstly, the rubber has poor heat conduction and can transfer heat to the interior of a product for a long time; and secondly, the two ends of the product close to the upper and lower heating flat plates are heated and vulcanized firstly, and the inside of the product is vulcanized later, so that the inside of the product is vulcanized unevenly.

The laminated rubber support is a die-pressed product, and because the pressure required to be applied in production is large, a die is mostly of a metal structure, so that the laminated rubber support is heavy, high in cost and inconvenient to replace. The heat dissipation area of the die is large, and the heat preservation performance is insufficient. And the mould is generally integral, and once damaged, the maintenance is difficult.

SUMMERY OF THE UTILITY MODEL

To solve the above problems, an object of the present invention is to provide a mold with auxiliary heating.

In order to solve the technical problem, the utility model adopts the following technical scheme:

a mold with supplemental heating, comprising: a force bearing body;

an upper cover plate is arranged at the upper end of the bearing body, a lower cover plate is arranged at the lower end of the bearing body, and a closed cavity is defined among the bearing body, the upper cover plate and the lower cover plate;

the inner wall of the bearing body is provided with a shallow groove, a heating body is arranged in the shallow groove, a heat insulation layer is arranged between the shallow groove and the heating body, and the heat insulation layer is wrapped on the heating body.

Further, the method comprises the following steps of; the magnetic strip shielding layer is arranged in the shell of the heating body, the coil is coiled in the magnetic strip shielding layer, the magnetic permeable material is packaged in a gap in the shell of the heating body, and a lead of the coil extends through the shell of the heating body and the bearing body.

Further, the method comprises the following steps of; a hollow pipeline is arranged in the shell of the heating body and extends through the shell of the heating body and the bearing body.

Further, the method comprises the following steps of; and a resistance wire is arranged in the shell of the heating body, and the outlet of the resistance wire connected with the lead is arranged by extending through the shell of the heating body and the force bearing body.

Further, the method comprises the following steps of; the bearing body is provided with a rubber discharge sleeve which penetrates through the heating body to extend;

the glue discharging sleeve is provided with a pore, and the pore diameter of the pore of the glue discharging sleeve at the heating body to the pore of the glue discharging sleeve at the bearing body is gradually increased.

Further, the method comprises the following steps of; the force bearing body is a member with two open ends.

Further, the method comprises the following steps of; the heating body is fixed with the force bearing body through a dowel pin.

Further, the method comprises the following steps of; the force bearing body) is composed of two semicircular steel members.

Further, the method comprises the following steps of; the semicircular steel member both ends of load body all are provided with the ear, match on two ear's outer walls and are provided with the clamp block.

The bearing body is provided with a positioning block.

Further, the method comprises the following steps of; a clamping block is arranged between the bearing body and the heating body, threaded holes are formed in the bearing body and the heating body, and screws are fixed on the bearing body through the threaded holes.

Compared with the prior art, the utility model discloses an at least, have one of following beneficial effect:

a take auxiliary heating's mould has a plurality of module assembly, and every kind of subassembly or mechanism have many kinds of design schemes again, can change or arrange according to product production's needs and do not have the mould scheme during the use, reach cost and the best effect of quality. The inside auxiliary heating means such as induction heating coil assembly or heating wire heating, hydrothermal solution heating element set up of load body has improved the heat utilization efficiency for the inside heat transfer speed of heated product has improved the production efficiency of vulcanization. And the matched embedded assembly can be designed according to the shapes of the die and the product, so that the embedded assembly has the characteristic of convenient installation, disassembly and replacement, improves the universality of spare parts, and improves the convenience of maintenance.

Drawings

Fig. 1 is a sectional view of the structure of the present invention.

Fig. 2 is a schematic structural diagram of embodiment 6 of the present invention.

Fig. 3 is a schematic structural diagram of embodiment 7 of the present invention.

Fig. 4 is a structural sectional view of embodiment 7 of the present invention.

In the figure: the device comprises a force bearing body 1, an upper cover plate 2, a lower cover plate 3, a shallow groove 4, a heating body 5, a heat insulation layer 6, a dowel pin 7, a glue discharging sleeve 8, an ear part 9, a clamping block 10, a positioning block 11, a clamping block 12 and a threaded hole 13.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1:

a mold with auxiliary heating, comprising: a force bearing body 1;

an upper cover plate 2 is arranged at the upper end of the force bearing body 1, a lower cover plate 3 is arranged at the lower end of the force bearing body 1, and a closed cavity is enclosed among the force bearing body 1, the upper cover plate 2 and the lower cover plate 3; the rubber sealing ring is used for vulcanization production of laminated rubber products, the products are arranged in closed cavities of the bearing body 1, the upper cover plate 2 and the lower cover plate 3, bosses of the upper cover plate 2 and the lower cover plate 3 are matched with the bearing body 1 in size, and the bosses of the upper cover plate 2 and the lower cover plate 3 are embedded in the bearing body 1, so that the rubber sealing ring has good sealing performance.

The inner wall of the bearing body 1 is provided with a shallow groove 4, a heating body 5 is arranged in the shallow groove 4, a heat insulation layer 6 is arranged between the shallow groove 4 and the heating body 5, and the heat insulation layer 6 is wrapped on the heating body 5; the heating body 5 is better placed in the shallow slot 4, and the heat insulation layer 6 plays a role in heat insulation.

Example 2:

a magnetic stripe shielding layer is arranged in a shell of the heating body 5, a coil is coiled in the magnetic stripe shielding layer, a permeable magnetic material is packaged in a gap in the shell of the heating body 5, and a lead of the coil extends through the shell of the heating body 5 and the force bearing body 1; the lead of the coil is externally connected with a heater for controlling heating temperature rise, and the coil is arranged in the heating body 5 for electromagnetic heating, which is a heating mode.

Example 3:

a hollow pipeline is arranged in the shell of the heating body 5, and the hollow pipeline is arranged by extending the shell of the heating body 5 and the force bearing body 1; a hollow pipeline is arranged in the heating body 5, fluid or gas is introduced into the hollow pipeline for heating, and the outlet of the hollow pipeline is extended through the shell of the heating body 5 and the bearing body 1; the heating is realized by introducing hot fluid into the pipeline.

Example 4:

a resistance wire is arranged in the shell of the heating body 5, and the outlet of the resistance wire connected with the lead is arranged by extending through the shell of the heating body 5 and the force bearing body 1; the other is a heating mode in which a resistance wire is arranged in the heating body 5 and is heated by resistance heating.

Example 5:

the bearing body 1 is provided with a rubber discharge sleeve 8, and the rubber discharge sleeve 8 penetrates through the heating body 5 to extend;

the glue discharging sleeve 8 is provided with a pore, and the pore diameter of the pore of the glue discharging sleeve 8 at the heating body 5 to the pore of the glue discharging sleeve 8 at the force bearing body 1 is gradually increased; the design is beneficial to discharging air bubbles in the rubber product. The assembled heating body can be arranged in the shallow groove of the inner wall of the square die, so that the vulcanization efficiency is improved, and the replacement is convenient.

Example 6:

one condition of the die with auxiliary heating is that the bearing body 1 is a rectangular steel member with two open ends; the heating body 5 is fixed with the force bearing body 1 through a dowel pin 7; the inner wall of the bearing body 1 is provided with a shallow groove 4, a heating body 5 is arranged in the shallow groove 4, a heat insulation layer 6 is arranged between the shallow groove 4 and the heating body 5, and the heat insulation layer 6 is wrapped on the heating body 5; for the structure of fig. 2, heating member 5 is fixed in load body 1 through dowel 7, is applicable to the heating of square product, improves vulcanization efficiency, and it is convenient to change.

Example 7:

one condition of the die with auxiliary heating is that the bearing body 1 consists of two semicircular steel members; lugs 9 are arranged at two ends of a semicircular steel member of the bearing body 1, and clamping blocks 10 are arranged on the outer walls of the two lugs 9 in a matching manner;

a positioning block 11 is arranged on the force bearing body 1;

a clamping block 12 is arranged between the bearing body 1 and the heating body 5, threaded holes 13 are formed in the bearing body 1 and the heating body 5, and screws are fixed on the bearing body 1 through the threaded holes 13; the fixture block 12 is arranged between the force bearing body 1 and the heating body 5, so that the fixture block is convenient to fix. The screw is fixed on the force bearing body 1 through the threaded hole 13, so that the heating body 5 is convenient to fix. The structure shown in fig. 3 and 4 can be used for installing an assembled heating body in the shallow groove on the inner wall of the circular mold, is suitable for heating a circular product, improves the vulcanization efficiency and is convenient to replace.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (10)

1. The utility model provides a take auxiliary heating's mould which characterized in that: the method comprises the following steps: a force bearing body (1);

an upper cover plate (2) is arranged at the upper end of the bearing body (1), a lower cover plate (3) is arranged at the lower end of the bearing body (1), and a closed cavity is enclosed among the bearing body (1), the upper cover plate (2) and the lower cover plate (3);

the inner wall of the bearing body (1) is provided with a shallow groove (4), a heating body (5) is arranged in the shallow groove (4), a heat insulation layer (6) is arranged between the shallow groove (4) and the heating body (5), and the heat insulation layer (6) is wrapped on the heating body (5).

2. The mold with auxiliary heating according to claim 1, wherein: the magnetic strip shielding layer is arranged in the shell of the heating body (5), the coil is wound in the magnetic strip shielding layer, the magnetic permeable material is packaged in a gap in the shell of the heating body (5), and a wire of the coil extends through the shell of the heating body (5) and the bearing body (1).

3. The mold with auxiliary heating according to claim 1, wherein: a hollow pipeline is arranged in the shell of the heating body (5), and the hollow pipeline is arranged by extending the shell of the heating body (5) and the bearing body (1).

4. The mold with auxiliary heating according to claim 1, wherein: and a resistance wire is arranged in the shell of the heating body (5), and the outlet of the resistance wire connecting lead is arranged by extending through the shell of the heating body (5) and the bearing body (1).

5. The mold with auxiliary heating according to claim 1, wherein: the bearing body (1) is provided with a rubber discharge sleeve (8), and the rubber discharge sleeve (8) penetrates through the heating body (5) to extend;

the glue discharging sleeve (8) is provided with a pore, and the pore diameter from the pore of the glue discharging sleeve (8) at the heating body (5) to the pore of the glue discharging sleeve (8) at the bearing body (1) is gradually increased.

6. The mold with auxiliary heating of claim 1, wherein: the force bearing body (1) is a member with two open ends.

7. The mold with auxiliary heating of claim 6, wherein: the heating body (5) is fixed with the force bearing body (1) through a dowel pin (7).

8. The mold with auxiliary heating according to claim 1, wherein: the bearing body (1) is composed of two semicircular steel members.

9. The mold with auxiliary heating of claim 8, wherein: lugs (9) are arranged at two ends of the semicircular steel member of the bearing body (1), and clamping blocks (10) are arranged on the outer walls of the two lugs (9) in a matching manner;

the bearing body (1) is provided with a positioning block (11).

10. The mold with auxiliary heating according to claim 8, wherein: a clamping block (12) is arranged between the bearing body (1) and the heating body (5), threaded holes (13) are formed in the bearing body (1) and the heating body (5), and screws are fixed on the bearing body (1) through the threaded holes (13).

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