CN210970015U - Vibration material seeping device for composite polystyrene board - Google Patents

Abstract

The utility model discloses a compound polyphenyl board vibration oozing device belongs to building materials production facility technical field. Comprises a slurry tank, a vibration frame and a noise reduction assembly. The slurry tank is filled with slurry, the vibration frame is provided with a polystyrene board channel for the composite polystyrene board to pass through, the polystyrene board channel is positioned below the slurry liquid level of the slurry tank, the noise reduction assembly comprises a support base and a noise reduction spring which are made of rubber materials, the support base is fixed on the slurry tank, one end of the noise reduction spring is connected onto the support base, and the other end of the noise reduction spring is connected with the bottom of the vibration frame. Through setting up the subassembly of making an uproar that falls, the shaking frame receives the buffering and the spacing effect of noise reduction spring at the in-process of vibration, prevents the bottom or the rigid collision of lateral wall of shaking frame and thick liquids groove, has reduced the noise pollution of production site by a wide margin. Meanwhile, the end part of the noise reduction spring is provided with the supporting base made of rubber materials, so that the hard collision of the noise reduction spring and the supporting base at the contact position is reduced, and the noise is reduced.

Description

Vibration material seeping device for composite polystyrene board

Technical Field

The utility model belongs to the technical field of building materials production facility, concretely relates to compound polyphenyl board vibration oozing device.

Background

The polystyrene heat-insulating board is a heat-insulating board material which is made up by using expandable polystyrene as raw material, heating and pressurizing the expandable polystyrene by using steam to make it foam into polystyrene foam granules, heating, forming, curing and cutting, and its interior is made into an independent closed bubble structure, so that it is a heat-insulating material with the excellent properties of low water absorption, moisture-proofing, air-tight, light weight, corrosion-resisting, ageing-resisting and low heat-conducting coefficient, etc.

When the composite polystyrene board is produced, a negative pressure vacuum mode is mostly adopted, so that slurry permeates into the substrate of the polystyrene board, however, the slurry permeating technology of the negative pressure vacuum is adopted, the slurry cannot be uniformly and effectively distributed in the substrate of the polystyrene board, and a gas channel exists, so that the improvement of the heat preservation, the water resistance and the flame resistance of the composite polystyrene board is greatly limited.

In the prior art, for example, the name of "composite polystyrene board production method and high-frequency vibration composite polystyrene board production system" is as follows: 201910244318.7, the disclosure of which is Chinese patent application publication No. 07/06/2019, provides a device for infiltrating slurry into a polystyrene board substrate by vibration, which adopts a vibration rack and a high-frequency vibration motor to realize simultaneous vibration of the slurry and the substrate, so that the slurry and the substrate move relatively in the vertical direction, and the slurry infiltrates into the substrate, thereby improving the strength and performance of the polystyrene board. However, in the operation process of the device, the vibration frame generates displacement with certain amplitude under the vibration action of the high-frequency vibration motor, so that the vibration frame collides with the bottom plate or the side wall of the slurry tank, larger noise is generated, the noise of a production place exceeds the standard, and the service life of equipment is also reduced.

Disclosure of Invention

In view of this, the utility model provides a compound polyphenyl board vibration bleed device to solve the technical problem that exists among the prior art when adopting the vibration method to produce compound polyphenyl board, can produce great noise.

The utility model provides a technical scheme that its technical problem adopted is:

a compound polyphenyl board vibration bleed device includes:

the slurry tank is filled with slurry;

the vibration frame is provided with a polystyrene board channel for the composite polystyrene board to pass through, the polystyrene board channel is positioned below the slurry liquid level of the slurry tank, and the vibration frame can provide high-frequency vibration;

the noise reduction assembly comprises a supporting base and a noise reduction spring, the supporting base is made of rubber materials and fixed on the slurry tank, one end of the noise reduction spring is connected to the supporting base, and the other end of the noise reduction spring is connected to the bottom of the vibration frame.

Preferably, the noise reduction assembly further comprises a limiting support, the limiting support is arranged at the bottom of the vibration frame and is in an inverted cone shape, and one end, far away from the vibration frame, of the limiting support can be sleeved in the noise reduction spring.

Preferably, the number of the noise reduction assemblies is 4, and 4 noise reduction assemblies are respectively arranged at four corners of the vibration frame.

Preferably, the vibration frame includes polyphenyl board vibration frame and thick liquids vibration frame, polyphenyl board vibration frame includes first support and base plate vibration board, the base plate vibration board set up in the bottom of first support, thick liquids vibration frame includes second support and thick liquids vibration board, the second support passes the first support, the thick liquids vibration board set up in the bottom of second support, and be located the below of base plate vibration board, with form between the base plate vibration board the polyphenyl board passageway.

Preferably, a flexible gasket is arranged at the joint of the second bracket and the first bracket.

Preferably, the second bracket includes a support rod and a connection reinforcing plate, and the connection reinforcing plate is disposed between two adjacent support rods.

Preferably, the flexible gasket is cut with a connection notch matched with the connection reinforcing plate.

According to the above technical scheme, the utility model provides a compound polyphenyl board vibration bleed device, its beneficial effect is: through setting up the subassembly of making an uproar falls, the shaking frame receives the buffering and spacing effect of noise reduction spring in the in-process of vibration, prevents the shaking frame with the bottom or the lateral wall rigid collision of thick liquids groove has reduced the noise pollution of production site by a wide margin. Meanwhile, a supporting base made of rubber materials is arranged at the end part of the noise reduction spring, so that the hard collision of the noise reduction spring and the supporting base at the contact position is reduced, and the noise is reduced.

Drawings

FIG. 1 is a schematic structural diagram of a vibration infiltration device for composite polystyrene boards.

Fig. 2 is a partially enlarged view of a portion a shown in fig. 1.

FIG. 3 is a side view of the vibration and infiltration device for composite polystyrene board.

Fig. 4 is a partially enlarged view of a portion B shown in fig. 3.

FIG. 5 is a structural schematic diagram of a polystyrene board vibration frame.

In the figure: the composite polystyrene board vibration seepage device 10, a slurry tank 100, a vibration frame 200, a polystyrene board channel 201, a flexible gasket 202, a polystyrene board vibration frame 210, a first support 211, a substrate vibration plate 212, a first vibration motor 213, a slurry vibration frame 220, a second support 221, a slurry vibration plate 222, a second vibration motor 223, a noise reduction assembly 300, a support base 310, a noise reduction spring 320 and a limit support 330.

Detailed Description

The following combines the drawings of the utility model to further elaborate the technical scheme and technical effect of the utility model.

Referring to fig. 1 and 2, in an embodiment, a composite polystyrene board vibration infiltration apparatus 10 is used for infiltrating slurry into a substrate of a composite polystyrene board in a vibration manner to produce the composite polystyrene board. The method comprises the following steps: a slurry tank 100, a vibratory frame 200, and a noise reduction assembly 300. The slurry tank 100 is filled with slurry for producing the composite polystyrene board, the vibration frame 200 is provided with a polystyrene board channel 201 for the composite polystyrene board to pass through, and the polystyrene board channel 201 is positioned below the slurry level of the slurry tank 100. The noise reduction assembly 300 includes a supporting base 310 made of rubber and a noise reduction spring 320, the supporting base 310 is fixed on the slurry tank 100, one end of the noise reduction spring 320 is connected to the supporting base 310, and the other end is connected to the bottom of the vibration frame 200.

When the composite polystyrene board is produced, the substrate for producing the composite polystyrene board passes through the polystyrene board channel 201 and is immersed in the slurry for producing the composite polystyrene board, the vibration frame 200 vibrates, and the slurry and the substrate run in a vertical direction relatively, so that the slurry permeates into the substrate. In the process, the bottom of the vibration frame 200 is in contact with the noise reduction spring 320, and the vertical displacement of the vibration frame 200 caused by vibration is buffered by the noise reduction spring 320, so that the vibration frame 200 cannot be in direct contact with the bottom plate of the slurry tank 100, noise is reduced, and the service life of the device is prolonged. Meanwhile, the lateral displacement of the vibration frame 200 is limited within a certain range under the limiting action of the noise reduction spring 320, so that the vibration frame 200 is prevented from being in direct contact with the side wall of the slurry tank 100, the noise is reduced, and the service life of the equipment is prolonged. Further, a supporting base 310 made of a rubber material is disposed between the noise reduction spring 320 and the bottom plate of the slurry tank 100, so that the noise reduction spring 320 is in direct contact with the flexible supporting base 310, and noise is further reduced.

Further, the noise reduction assembly 300 further comprises a limiting support 330, the limiting support 330 is disposed at the bottom of the vibration frame 200 and is in an inverted cone shape, and one end of the limiting support 330, which is far away from the vibration frame 200, can be sleeved on the noise reduction spring 320. On one hand, in the process that the vibration frame 200 is lifted to descend, the limiting support 330 is gradually sleeved into the noise reduction spring 320 from small to large, and the installation is convenient. On the other hand, the limiting seat 330 is made of rubber, so that the noise reduction spring 320 is not in direct contact with the bottom of the vibration frame 200, and noise is further reduced.

Further, the noise reduction assemblies 300 are 4, and the noise reduction assemblies 300 are respectively arranged at four corners of the vibration frame 200, so that the vibration frame 200 is kept stable, and the possibility that the vibration frame 200 is contacted with the slurry tank 100 is reduced to the maximum extent, thereby achieving the purpose of reducing noise.

Referring to fig. 3 and 4 together, in an embodiment, the vibration frame 200 includes a polystyrene board vibration frame 210 and a slurry vibration frame 220, the polystyrene board vibration frame 210 includes a first bracket 211 and a substrate vibration plate 212, the substrate vibration plate 212 is disposed at the bottom of the first bracket 211, the slurry vibration frame 220 includes a second bracket 221 and a slurry vibration plate 222, the second bracket 221 passes through the first bracket 211, and the slurry vibration plate 222 is disposed at the bottom of the second bracket 221 and below the substrate vibration plate 212, and the polystyrene board channel 201 is formed between the substrate vibration plate 212 and the slurry vibration plate 221.

That is, the polystyrene board vibration frame 210 includes a first frame 211 having a first vibration motor 213, a frame for mounting the substrate vibration plate 212 is provided at a bottom of the first frame 211, and the substrate vibration plate 212 is mounted in the frame. The frame is provided with a strip-shaped through hole. Slurry vibration frame 220 is including the second support 221 that has second vibrating motor 223, second support 221 has spliced pole or connecting plate, spliced pole or connecting plate pass the bar through-hole makes second vibrating motor 223 is located the base plate vibration board 212 top, slurry vibration board 222 is located base plate vibration board 212 below, and spliced pole or connecting plate pass the bar through-hole goes out, spliced pole or connecting plate not with the pore wall contact of bar through-hole reduces the contact noise.

Referring to fig. 5, in particular, the second bracket 211 includes support rods and a connection reinforcing plate, and the connection reinforcing plate is disposed between two adjacent support rods to prevent the support rods from being broken and damaging the device during the vibration process.

Further, a flexible gasket 202 is disposed at a joint of the second bracket 221 and the first bracket 211, and the flexible gasket is preferably made of a rubber material. In a preferred embodiment, one side of the flexible gasket 202 is in contact with the wall of the strip-shaped through hole, and the other side is not in contact with the connecting column or the connecting plate, i.e. the first support 211 and the second support 221 are not affected by each other, so that the vibration occurs independently. The flexible gasket 202 can effectively reduce the rigid contact between the first bracket 211 and the second bracket 221 in the vibration process, reduce noise and protect equipment.

Specifically, the flexible gasket 202 is cut with a connection notch matching with the connection reinforcing plate to meet the installation requirement of the connection reinforcing plate, and is convenient to detach and install.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (7)

1. The utility model provides a compound polyphenyl board vibration bleed device which characterized in that includes:

the slurry tank is filled with slurry;

the vibration frame is provided with a polystyrene board channel for the composite polystyrene board to pass through, the polystyrene board channel is positioned below the slurry liquid level of the slurry tank, and the vibration frame can provide high-frequency vibration;

the noise reduction assembly comprises a supporting base and a noise reduction spring, the supporting base is made of rubber materials and fixed on the slurry tank, one end of the noise reduction spring is connected to the supporting base, and the other end of the noise reduction spring is connected to the bottom of the vibration frame.

2. The composite polystyrene board vibration infiltration device of claim 1, wherein the noise reduction assembly further comprises a limiting support, the limiting support is arranged at the bottom of the vibration frame and is in an inverted cone shape, and one end of the limiting support, which is far away from the vibration frame, can be sleeved in the noise reduction spring.

3. The vibration infiltration device of composite polystyrene board as claimed in claim 1 or 2, wherein the number of said noise reduction assemblies is 4, 4 said noise reduction assemblies are respectively arranged at four corners of said vibration frame.

4. The composite polystyrene board vibration infiltration device of claim 3, wherein the vibration frame comprises a polystyrene board vibration frame and a slurry vibration frame, the polystyrene board vibration frame comprises a first support and a substrate vibration plate, the substrate vibration plate is arranged at the bottom of the first support, the slurry vibration frame comprises a second support and a slurry vibration plate, the second support passes through the first support, the slurry vibration plate is arranged at the bottom of the second support, is positioned below the substrate vibration plate, and forms the polystyrene board channel with the substrate vibration plate.

5. The vibration infiltration apparatus of composite polystyrene board of claim 4, wherein a flexible gasket is provided at the joint of the second bracket and the first bracket.

6. The vibration infiltration apparatus of composite polystyrene board as claimed in claim 5, wherein said second frame comprises supporting rods and connecting reinforcing plates, said connecting reinforcing plates are disposed between two adjacent supporting rods.

7. The vibration infiltration apparatus of composite polystyrene board of claim 6, wherein the flexible washer has cut-outs for the connection slots to match the connection reinforcing plates.

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