CN214562234U - High-efficient building shock insulation rubber support mould - Google Patents

Abstract

The utility model discloses a high-efficiency building shock insulation rubber support mold, which comprises an upper frame plate, wherein the bottom of the upper frame plate is fixedly provided with an outer frame, the outer frame is provided with a mounting groove, one side of the outer frame is provided with four gas ports in parallel arrangement, two steam pipelines are arranged in the outer frame in parallel arrangement, two ends of each steam pipeline are respectively communicated with the two gas ports, a middle cavity with four petals mutually attached is embedded in the mounting groove, and a plurality of convex blocks are arranged on the top and bottom rectangles of the middle cavity. The production efficiency is greatly improved.

Description

High-efficient building shock insulation rubber support mould

Technical Field

The utility model relates to the technical field of mold, especially, relate to a high-efficient building shock insulation rubber support mould.

Background

Along with the improvement of people's living standard, dress safety, food safety, safety at home, trip safety are more and more taken into account by people, and besides traditional house reinforcement, in recent years along with the high-speed development of science and technology, building isolation rubber bearing has also obtained high-speed development, has been the main research direction of people's safety at home at present, and building isolation rubber bearing has also developed the production and the application era of II type building rubber isolation bearing.

At present, the mold for producing the II-type building rubber shock insulation support in the industry is a new generation product which is just raised, and the mold used for production is different greatly and has some common defects, such as: 1. the modeling is complex; 2. the operation difficulty is high; 3. the manufacturing cost is high; 4. the production energy consumption is high; 5. the production efficiency is low, so we propose a high-efficient building shock insulation rubber support mould for solving the problem that puts forward.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a high-efficiency building shock insulation rubber support mold.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a high-efficient building shock insulation rubber support mould, includes the deckle board, it has the frame to go up deckle board bottom fixed mounting, the frame is provided with the mounting groove, frame one side is arranged side by side and is provided with four gas ports, it is provided with two steam conduit to arrange side by side in the frame, steam conduit's both ends are linked together with two gas ports respectively, the embedded lumen that is equipped with four lamella mutual laminatings of mounting groove, a plurality of lugs of having arranged of lumen top and bottom rectangle, the lug bottom laminating that is located the below has the deckle board, and the lug top that is located the top is laminated with the bottom of last deckle board mutually.

Preferably, the inner wall of the air port is provided with a threaded hole.

Preferably, the inner diameter of the steam pipe is 20mm to 30 mm.

Preferably, the thickness of the lower frame plate is 10cm-15 cm.

Preferably, the bumps have a thickness of 5cm to 10 cm.

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

1. the utility model discloses in, with the lumen with the outline border cover outside the lumen after butt joint on the deckle board down, the die-filling of rubber support just can be accomplished to the deckle board of having covered.

2. The utility model discloses in, will go up the deckle board during the mould unloading and take off, get the frame again, the separation of rubber support just can be accomplished to mould and support.

3. The utility model discloses in, seted up gas port and steam conduit on the frame, made the whole peripheral concurrent heating of product, heat transfer efficiency obviously improves, and the energy consumption obviously descends 20%.

The utility model discloses simple structure, with the lumen with the frame cover outside the lumen after butt joint on the deckle board, cover the deckle board and just accomplish the die-filling, will go up the deckle board during the mould unloading and take off, get the frame again, the separation can be accomplished with rubber support to the mould, easy operation, the mould after the improvement is because die-filling and die-unloading time and the degree of difficulty obviously descend, production efficiency has been improved greatly to heat transfer efficiency's improvement.

Drawings

FIG. 1 is an explosion diagram of a high-efficiency building shock insulation rubber support mold provided by the utility model;

FIG. 2 is a three-dimensional schematic view of a high-efficiency building shock insulation rubber support mold provided by the utility model;

FIG. 3 is a top view of a lower frame plate of the high-efficiency building shock insulation rubber support mold provided by the utility model;

FIG. 4 is a front view of a high-efficiency building shock insulation rubber support mold provided by the utility model;

fig. 5 is a sectional view taken in the direction B of fig. 3;

FIG. 6 is a top view of the outer frame of the high-efficiency building shock insulation rubber support mold provided by the utility model;

fig. 7 is a sectional view taken along the direction C of fig. 6;

fig. 8 is the utility model provides a high-efficient building shock insulation rubber support mould's frame's elevation view.

In the figure: 1. a lower frame plate; 2. an outer frame; 3. a middle cavity; 4. an upper frame plate; 5. a gas port; 6. a bump; 7. mounting grooves; 8. a steam pipeline.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Example one

Referring to fig. 1-8, a high-efficient building shock insulation rubber support mould, including last deckle board 4, go up 4 bottom fixed mounting of deckle board and have frame 2, frame 2 is provided with mounting groove 7, frame 2 one side is arranged side by side and is provided with four gas ports 5, it is provided with two steam conduit 8 to arrange side by side in the frame 2, steam conduit 8's both ends are linked together with two gas ports 5 respectively, the embedded lumen 3 that is equipped with four lamella mutual laminatings of mounting groove 7, a plurality of lugs 6 that have arranged at 3 tops of lumen and bottom rectangle, lug 6 bottom laminating of below has deckle board 1, lug 6 top that is located the top is laminated with the bottom of last deckle board 4 mutually.

Example two

The embodiment is improved on the basis of the first embodiment: the inner wall of the air port 5 is provided with a threaded hole, the inner diameter of the steam pipeline 8 is 20mm-30mm, the thickness of the lower frame plate 1 and the lower frame plate is 10cm-15cm, and the thickness of the lug 6 is 5cm-10 cm.

The working principle is as follows: after the middle cavity 3 is butted on the lower frame plate 1, the outer frame 2 is sleeved outside the middle cavity 3, the upper frame plate 4 is covered, the die assembly of the rubber support can be completed, the upper frame plate 4 is taken down during die disassembly, the outer frame 2 is taken down, the die and the support can be separated, the air port 5 and the steam pipeline 8 are arranged on the outer frame 2, the whole periphery of the product is heated simultaneously, the heat transfer efficiency is obviously improved, and the energy consumption is obviously reduced by 20%.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a high-efficient building shock insulation rubber support mould, includes last framed lamella (4), its characterized in that, it has frame (2) to go up framed lamella (4) bottom fixed mounting, frame (2) are provided with mounting groove (7), frame (2) one side is arranged side by side and is provided with four gas ports (5), it is provided with two steam conduit (8) to arrange side by side in frame (2), the both ends of steam conduit (8) are linked together with two gas ports (5) respectively, embedded well chamber (3) of laminating each other of four lamellas that are equipped with in mounting groove (7), a plurality of lugs (6) have been arranged to well chamber (3) top and bottom rectangle, and lug (6) bottom laminating that is located the below has lower framed lamella (1), and lug (6) top that is located the top is laminated with the bottom of last framed lamella (4).

2. A high-efficiency building shock insulation rubber support mold according to claim 1, characterized in that the inner wall of the air port (5) is provided with a threaded hole.

3. A high efficiency building isolation rubber bearing mould according to claim 1, wherein the inner diameter of the steam pipeline (8) is 20mm-30 mm.

4. A high-efficiency building shock insulation rubber support mold according to claim 1, characterized in that the thickness of the lower frame plate (1) is 10cm-15 cm.

5. A high-efficiency building shock insulation rubber support mold according to claim 1, wherein the thickness of the bump (6) is 5cm-10 cm.

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