CN210970006U - Plate discharging device for producing composite polystyrene board by vibration method - Google Patents

Abstract

The utility model provides a panel discharging device of compound polyphenyl board of vibration method production belongs to building materials production facility technical field. Comprises a frame body, a plate driving roller, a follower roller and a slurry secondary distribution assembly. The panel drive roller sets up on the support body, and can rotate along the axis, and the follower roller sets up on the support body, and can rotate along the axis, forms the panel passageway that supplies compound polyphenyl board panel to pass through between follower roller and the panel drive roller, and thick liquids secondary distribution subassembly includes bottom plate and vibrating motor, and the bottom plate is fixed in on the follower roller, and vibrating motor installs on the bottom plate. In the discharging process, the vibration motor vibrates, so that the plate in contact with the follower roller vibrates, and secondary distribution of the slurry is realized. Under the vibration effect of the vibration motor, the slurry in the board moves in an aggravated manner, so that the slurry is uniformly distributed in the substrate, and meanwhile, the redundant slurry permeating into the substrate can be removed from the substrate through vibration by adjusting the vibration frequency, so that the composite polystyrene board is lightened.

Description

Plate discharging device for producing composite polystyrene board by vibration method

Technical Field

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

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, published as 2019, 7.06.07, comprises a board discharging device, which utilizes the relative movement of an upper pressing roller and a lower pressing roller which are oppositely arranged to extrude the excess material on the passing board so as to remove the excess slurry on the board. However, this type of sheet discharging device has two disadvantages, one of which is that if the slurry is excessively impregnated, the excess material is pressed into the sheet by the upper and lower press rolls under pressure, resulting in a heavy sheet. Secondly, in the extrusion process, the material is in a sedimentation state, after the material is discharged, the density of the lower layer of the board is slightly larger than that of the upper layer of the board, and the slurry is not uniformly distributed, so that the use performance of the polystyrene board is influenced.

Disclosure of Invention

In view of this, the utility model provides a panel discharging device of compound polyphenyl board of vibration method production to solve prior art, at the in-process that utilizes the vibration method to produce compound polyphenyl board, panel weight is great behind the ejection of compact of existence, and the technical problem that the lower floor distributes inhomogeneously about the thick liquids.

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

a panel discharging device for producing composite polystyrene boards by a vibration method comprises:

a frame body;

the plate driving roller is arranged on the frame body and can rotate along the axis;

the follower roller is arranged on the frame body and can rotate along the axis, and a plate channel for the composite polystyrene board to pass through is formed between the follower roller and the board driving roller; and

the slurry secondary distribution assembly comprises a bottom plate and a vibration motor, the bottom plate is fixed on the follower roller, and the vibration motor is installed on the bottom plate.

Preferably, the follower roller comprises a suspension rod, a mounting frame and a rotating roller, one end of the suspension rod is mounted on the frame body, the mounting frame is fixedly connected with the other end of the suspension rod, the rotating roller is arranged along the mounting frame, and the bottom plate is fixed on the mounting frame and positioned above the rotating roller.

Preferably, the mounting bracket does not contact the frame body.

Preferably, one end of the hanging rod connected with the frame body can be lifted and lowered along the vertical direction.

Preferably, one end of the suspension rod is provided with a lifting screw, the frame body is provided with a lifting driving mechanism, and the lifting driving mechanism is in transmission connection with the lifting screw.

Preferably, the lifting driving mechanism comprises a driving motor, a transmission belt, a belt pulley and a transmission worm, the transmission worm is installed on the lifting screw, the belt pulley is arranged at the end part of the transmission worm, and the transmission belt is connected with the output end of the driving motor and the belt pulley.

Preferably, the panel discharging device of vibration method production composite polystyrene board still includes the thick liquids accumulator, the thick liquids accumulator set up with the below of panel drive roller, and the tank bottom slope sets up, be close to on the thick liquids accumulator the thick liquids recovery export has been seted up to tank bottom department.

According to the technical scheme, the utility model provides a panel discharging device of compound polyphenyl board of vibration method production, its beneficial effect is: the slurry secondary distribution assembly is arranged on the follower roller, and in the discharging process, the vibration motor vibrates, and the vibration is transmitted to the whole follower roller through the bottom plate, so that the plate in contact with the follower roller vibrates, and the secondary distribution of the slurry is realized. On one hand, the excessive slurry is separated from the substrate under the extrusion action of the follower roller and the plate driving roller, and the excessive slurry is removed. On the other hand, under the vibration effect of the vibration motor, the slurry in the board moves in an aggravated manner, so that the slurry is uniformly distributed in the substrate, meanwhile, the redundant slurry penetrating into the substrate can be removed from the substrate through vibration by adjusting the vibration frequency, the weight of the composite polystyrene board is reduced, and the weight of the composite polystyrene board can be adjusted according to the vibration frequency.

Drawings

FIG. 1 is a schematic structural diagram of a plate discharging device for producing a composite polystyrene plate by a vibration method.

FIG. 2 is a side view of a plate discharging device for producing a composite polystyrene plate by a vibration method.

In the figure: the plate discharging device 10 for producing the composite polystyrene plate by the vibration method, a frame body 100, a plate channel 101, a lifting driving mechanism 110, a driving motor 111, a driving belt 112, a belt pulley 113, a driving worm 114, a plate driving roller 200, a follower roller 300, a suspension rod 310, a lifting screw 311, a mounting frame 320, a rotating roller 330, a slurry secondary distribution assembly 400, a bottom plate 410, a vibration motor 420, a slurry recovery tank 500 and a slurry recovery outlet 501.

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 one embodiment, a board discharging device 10 for producing a composite polystyrene board by a vibration method is used for leading out a substrate soaked with slurry and removing excess slurry adhered to the surface of the substrate by pressing when the composite polystyrene board is produced by the vibration method. Comprises a frame body 100, a plate driving roller 200, a follower roller 300 and a slurry secondary distribution assembly 400. The plate driving roller 200 is disposed on the frame body 100 and can rotate along an axis, the follower roller 300 is disposed on the frame body 100 and can rotate along an axis, and a plate channel 101 for the composite polystyrene plate to pass through is formed between the follower roller 300 and the plate driving roller 200. The slurry secondary distribution assembly 400 includes a base plate 410 and a vibration motor 420, the base plate 410 is fixed to the follower roller 300, and the vibration motor 420 is installed on the base plate 410.

For example, the frame body 100 is a rectangular parallelepiped frame body, and a transverse bracket for mounting the sheet driving roller 200 is provided in the middle of the frame body, and the sheet driving roller 200 is mounted on the transverse bracket and can rotate in the axial direction under the action of a motor. The follower roller 300 is disposed above the plate driving roller 200, and a plate passage 101 through which the substrate impregnated with the slurry passes is formed between the follower roller and the plate driving roller 200. The base plate 410 is fixed to a mounting frame body of the follower roller 300, and the vibration motor 420 is mounted on the base plate 410.

The base plate soaked with the slurry passes through the plate channel 101, the lower surface of the base plate is in contact with the plate driving roller 200 to move forwards under the action of the plate driving roller 200, the upper surface of the base plate is in contact with the follower roller 300, on one hand, the redundant slurry is separated from the base plate under the extrusion action of the follower roller 300 and the plate driving roller 200, and the redundant slurry is removed. On the other hand, under the vibration action of the vibration motor 420, the slurry in the board moves rapidly, so that the slurry is uniformly distributed in the substrate, meanwhile, the excess slurry penetrating into the substrate can be removed from the substrate through vibration by adjusting the frequency of the vibration, so that the weight of the composite polystyrene board is reduced, and the weight of the composite polystyrene board can be adjusted according to the vibration frequency.

Specifically, the follower roller 300 includes a hanging rod 310, a mounting bracket 320, and a rotating roller 330, wherein one end of the hanging rod 310 is mounted on the frame body 100, the mounting bracket 320 is fixedly connected to the other end of the hanging rod 310, the rotating roller 330 is arranged along the mounting bracket 320, and the base plate 410 is fixed on the mounting bracket 320 and is located above the rotating roller 330. For example, the frame body 100 has a cross beam above, the hanging rod 310 is mounted on the cross beam, the mounting bracket 320 is disposed at an end of the hanging rod 310 away from the cross beam, and the rotating roller 330 is rotatably arranged on the mounting bracket 320.

Preferably, in order to enable the vibration of the vibration motor 420 to affect the driving motor of the plate driving roller 200, the mounting frame 320 is not in contact with the frame body 100, that is, the frame body 100 is separated from the mounting frame 320 and has a certain lateral distance, so as to prevent the mounting frame 320 from colliding with the frame body in the vibration process, reduce noise and prolong the service life of the device.

In a specific embodiment, one end of the suspension rod 310 connected to the frame body 100 can be lifted and lowered in a vertical direction, so that the distance between the follower roller 300 and the plate driving roller 200 can be adjusted according to the thickness of a plate, thereby meeting the production requirements of composite polystyrene plates with different specifications. For example, one end of the hanging rod 310 is provided with a lifting screw 311, the frame body 100 is provided with a lifting driving mechanism 110, and the lifting driving mechanism 110 is in transmission connection with the lifting screw 311. So as to drive the lifting screw 311 to move up or down by the lifting driving mechanism 110.

Specifically, the lifting driving mechanism 110 includes a driving motor 111, a transmission belt 112, a belt pulley 113 and a transmission worm 114, the transmission worm 114 is mounted on the lifting screw 311, the belt pulley 113 is disposed at an end of the transmission worm 114, and the transmission belt 112 is connected to an output end of the driving motor 111 and the belt pulley 113. For example, the driving motor 111 is a servo motor, the driving motor 111 rotates forward, the driving belt 112 drives the driving worm 114 to rotate through the belt pulley 113, and then the lifting screw 311 is driven to ascend. The driving motor 111 rotates reversely, the driving belt 112 drives the driving worm 114 to rotate through the belt pulley 113, and then drives the lifting screw 311 to descend.

In another specific embodiment, the board discharging device 10 for producing the composite polystyrene board by the vibration method further includes a slurry recycling tank 500, the slurry recycling tank 500 is disposed below the board driving roller 200, and the bottom of the tank is disposed in an inclined manner, and a slurry recycling outlet 501 is disposed on the slurry recycling tank 500 near the tank. The excess slurry falls off the substrate by the extrusion of the plate driving roller 200 and the follower roller 300 and the vibration of the slurry secondary distribution assembly 400, enters the slurry recovery tank 500, and is recovered and utilized through the slurry recovery outlet 501.

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 panel discharging device of compound polyphenyl board of vibration method production which characterized in that includes:

a frame body;

the plate driving roller is arranged on the frame body and can rotate along the axis;

the follower roller is arranged on the frame body and can rotate along the axis, and a plate channel for the composite polystyrene board to pass through is formed between the follower roller and the board driving roller; and

the slurry secondary distribution assembly comprises a bottom plate and a vibration motor, the bottom plate is fixed on the follower roller, and the vibration motor is installed on the bottom plate.

2. The plate discharging device for producing the composite polystyrene plate by the vibration method as claimed in claim 1, wherein the follower roller comprises a suspension rod, a mounting frame and a rotating roller, one end of the suspension rod is mounted on the frame body, the mounting frame is fixedly connected with the other end of the suspension rod, the rotating roller is arranged along the mounting frame, and the bottom plate is fixed on the mounting frame and positioned above the rotating roller.

3. The apparatus for discharging boards in the production of composite polystyrene boards by the vibration method as claimed in claim 2, wherein the mounting frame does not contact the frame body.

4. The apparatus for discharging boards produced by the vibration method of claim 2, wherein the end of the suspension rod connected to the frame body can be lifted and lowered in the vertical direction.

5. The board discharging device for producing the composite polystyrene board by the vibration method as claimed in claim 4, wherein one end of the suspension rod is provided with a lifting screw, and the frame body is provided with a lifting driving mechanism which is in transmission connection with the lifting screw.

6. The board discharging device for producing composite polystyrene boards by using the vibration method as claimed in claim 5, wherein the lifting driving mechanism comprises a driving motor, a driving belt, a belt pulley and a driving worm, the driving worm is mounted on the lifting screw, the belt pulley is arranged at the end of the driving worm, and the driving belt is connected with the output end of the driving motor and the belt pulley.

7. The board discharging device for producing the composite polystyrene board by the vibration method as claimed in claim 1, further comprising a slurry recycling tank, wherein the slurry recycling tank is disposed below the board driving roller, the bottom of the tank is disposed obliquely, and a slurry recycling outlet is disposed on the slurry recycling tank and close to the tank.

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