CN212030244U - Cooling device is used in ceramic tile production - Google Patents

Abstract

The utility model belongs to the technical field of the ceramic tile production, it discloses a cooling device is used in ceramic tile production, including the frame, set up conveyor, the cooling tank in the frame, conveyor is including setting up the drive wheel in the cooling tank both sides, the drive wheel passes through endless conveyor belt and connects, the cooling tank sets up endless conveyor belt's inboard, the middle part of endless conveyor belt upside sets up in the cooling tank, the drive wheel is through setting up the servo motor drive in the frame. This cooling device for ceramic tile production simple structure, low in manufacturing cost can be right according to the required cooling time of different ceramic tiles simultaneously servo motor's rotational speed adjusts, improves cooling device guarantees the cooling effect of ceramic tile to the adaptability of different ceramic tiles.

Description

Cooling device is used in ceramic tile production

Technical Field

The utility model relates to a ceramic tile production technical field specifically is a cooling device is used in ceramic tile production.

Background

The applicant of the eastern ceramics limited company flourishing in jiangxian county proposed a utility model patent publication No. CN108106440A in 2017, which discloses an automatic circulation system for water cooling of ceramic tiles; the system comprises a water storage tank, a conveying device, a cooling device and a drying device; the conveying device comprises a first conveying belt, the cooling device comprises a cooling tank, a second conveying belt, a water spray pipe, a water suction pump and a supporting column, the supporting column is connected with the cooling tank and the water storage tank, a cold water accommodating groove is formed in one surface, away from the water storage tank, of the cooling tank, the second conveying belt rotates around the cold water accommodating groove, the water suction pump is located in the water storage tank and connected with the water spray pipe, and a spray head of the water spray pipe faces the cold water accommodating groove; drying device includes third conveyer belt and air jet system, and the air jet system includes the jet-propelled pipe of two parallel arrangement, and the length direction setting of jet-propelled pipe perpendicular to third conveyer belt, and the third conveyer belt sets up between two jet-propelled pipes, and a plurality of ventholes have been seted up to the jet-propelled pipe.

In the existing ceramic tile production technology, the temperature of the ceramic tile which is sintered out of the kiln is still high after the ceramic tile is placed for a period of time, in order to meet the subsequent processing requirements, the ceramic tile needs to be cooled, and the ceramic tile is generally cooled by adopting a water spraying or fan blowing mode; in the scheme of cooling by adopting a water spraying or fan blowing mode, a spraying pipe or a fan and other equipment are required to be arranged above the conveying belt, so that the production cost is increased, and the maintenance is inconvenient.

Therefore, the technical problem to be solved by the application is as follows: how to provide a tile cooling device with simple structure, low manufacturing cost and low maintenance cost.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cooling device is used in ceramic tile production, this cooling device is used in ceramic tile production simple structure, low in manufacturing cost can be right according to the required cooling time of different ceramic tiles simultaneously servo motor's rotational speed is adjusted, improves cooling device guarantees the cooling effect of ceramic tile to the adaptability of different ceramic tiles.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a cooling device is used in ceramic tile production, includes the frame, sets up conveyor, the cooling bath in the frame, conveyor is including setting up the drive wheel in the cooling bath both sides, the drive wheel passes through endless conveyor and connects, the cooling bath sets up endless conveyor's inboard, the middle part of endless conveyor upside sets up in the cooling bath, the drive wheel is through setting up the servo motor drive in the frame.

In the cooling device for producing the ceramic tiles, the length of the annular conveying belt minus the perimeter of one driving wheel is 2.2-2.4 times of the center distance of the two driving wheels.

In the cooling device for producing ceramic tiles, the number of the annular conveying belts is 2, and the number of the driving wheels is 2, and the driving wheels are arranged in parallel and matched with the annular conveying belts.

In the cooling device for producing ceramic tiles, the top parts of the two ends of the cooling pool are provided with inwards inclined supporting plates for supporting the annular conveying belt.

In the cooling device for ceramic tile production, a flexible plate for sweeping water when the ceramic tiles are output from the cooling tank is further arranged on the rack, the flexible plate is arranged at one end of the cooling tank and is positioned above the supporting plate, and a gap for outputting the ceramic tiles is formed between the flexible plate and the annular conveying belt.

In the cooling device for producing ceramic tiles, the upper part of the cooling tank is provided with the overflow hole.

In the cooling device for producing ceramic tiles, a water replenishing pipe for replenishing water to the cooling tank is arranged on the rack, and the output end of the water replenishing pipe is arranged above the cooling tank.

In the cooling device for producing ceramic tiles, rotating shafts which are rotatably connected to the rack are arranged on two sides of the cooling tank, and the driving wheels are arranged on the rotating shafts; the servo motor drives one of the rotating shafts to rotate so as to drive the driving wheel to rotate.

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

the utility model has simple structure and low manufacturing cost, and can adjust the rotating speed of the servo motor according to the cooling time required by different tiles, improve the adaptability of the cooling device to different tiles and ensure the cooling effect of the tiles;

when the ceramic tile is output from the cooling tank, the ceramic tile can drive the flowing of the cooling liquid, the arrangement of the flexible plate effectively prevents the cooling liquid from overflowing due to the output of the ceramic tile, and meanwhile, when the ceramic tile is output, excessive cooling liquid is remained on the ceramic tile to influence the subsequent processing of the ceramic tile.

Drawings

Fig. 1 is a front view of embodiment 1 of the present invention;

fig. 2 is a plan view of embodiment 1 of the present invention.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-2, a cooling device for ceramic tile production comprises a frame 1, a conveying device 2 and a cooling pool 3, wherein the conveying device 2 and the cooling pool 3 are arranged on the frame 1, the conveying device 2 comprises driving wheels 21 arranged on two sides of the cooling pool 3, the driving wheels 21 are connected through an annular conveying belt 22, the cooling pool 3 is arranged on the inner side of the annular conveying belt 22, the middle of the upper side of the annular conveying belt 22 is arranged in the cooling pool 3, and the driving wheels 21 are driven by a servo motor 4 arranged on the frame 1.

In the belt transmission, in order to change the wrap angle of the belt pulley or control the tension of the belt, a tensioning wheel is arranged to press on the belt, in practical application, in order to ensure that the tiles to be cooled can enter the cooling tank 3, the endless conveyor belt 22 is matched with the transmission wheel 21 in a loose state, the tiles to be cooled have a certain weight, and the tensioning degree of the matching of the endless conveyor belt 22 and the transmission wheel 21 is adjusted by replacing the tensioning wheel in the scheme, so that the slipping phenomenon of the endless conveyor belt 22 is effectively prevented, and the normal operation of the cooling device is ensured.

As a specific implementation of the preferable scheme of this embodiment, in order to ensure that the middle part of the upper side of the endless conveyor belt 22 can be soaked in the cooling tank 3, the length of the endless conveyor belt 22 minus the circumference of one driving wheel 21 is 2.2 times to 2.4 times of the center distance of the two driving wheels 21.

The liquid that is used for the cooling in the cooling pond 3 described in this embodiment is water, and its environmental protection is pollution-free, and the cooling effect is good.

In this embodiment, the number of the endless conveyor belts 22 may be 1, and the present embodiment is not limited thereto; in order to ensure that the tiles can fully contact with the cooling liquid in the cooling tank 3 after entering the cooling tank, and improve the cooling effect, preferably, the number of the endless conveyor belts 22 is 2, and the number of the transmission wheels 21 is 2, which are arranged side by side and matched with the endless conveyor belts 22.

Specifically, the tiles are supported by the 2 endless conveyor belts 22 arranged side by side, the stability is good, and the tiles can be fully contacted with the cooling liquid, so that the cooling effect of the tiles is further improved.

Preferably, the top at both ends of the cooling pool 3 is provided with an inward-inclined supporting plate 31 for supporting the endless conveyor belt, because the endless conveyor belt 22 is connected with the driving wheel 21 in a loose state, the supporting plate 31 serves as the supporting part of the endless conveyor belt 22, which effectively slows down the slope of the endless conveyor belt 22, is beneficial to the input and output of the ceramic tiles, and ensures the normal operation of the work.

When the tiles are output from the cooling tank 3, the tiles can drive the cooling liquid to flow, and in order to prevent the cooling liquid from overflowing due to the output of the tiles, it is preferable that a flexible plate 11 for sweeping water when the tiles are output from the cooling tank is further disposed on the frame 1, the flexible plate 11 is disposed at one end of the cooling tank 3 and above the support plate 31, and a gap for outputting the tiles is disposed between the flexible plate 11 and the endless conveyor belt 22. The flexible plate 11 is arranged to effectively prevent the cooling liquid from overflowing due to the output of the ceramic tile, and meanwhile, when the ceramic tile is output, excessive cooling liquid cannot be remained on the ceramic tile to influence the subsequent processing of the ceramic tile.

Specifically, the flexible plate 11 may be a plate made of rubber or plastic, which is not limited in this embodiment, and the flexible plate 11 may be fixedly connected to the frame 1 in a bolt locking manner.

In this embodiment, the cooling tank 3 is provided with an overflow hole 32 at an upper portion thereof. Specifically, the overflow hole 32 is connected to an external drain pipe, so as to drain and recycle the overflowed water, thereby effectively preventing the overflow of the overflow tank and other losses.

In this embodiment, the water in the cooling tank 3 may be reduced due to heat absorption and evaporation when cooling the tiles, or reduced due to a small amount of water being taken away from the output of the tiles, in order to ensure the normal operation of the tile cooling operation, it is preferable that a water replenishing pipe 12 for replenishing water to the cooling tank 3 is provided on the rack 1, and an output end of the water replenishing pipe 12 is provided above the cooling tank 3.

As a specific implementation of the preferred scheme of this embodiment, two sides of the cooling pool 3 are both provided with a rotating shaft 13 rotatably connected to the frame 1, and the driving wheel 21 is arranged on the rotating shaft 13; the servo motor 4 drives the transmission wheel 21 to rotate by driving one of the rotating shafts 13 to rotate.

In this embodiment, the driving wheel 21 may be integrally formed with the rotating shaft 13, or may be fixedly connected to the rotating shaft 13 in a key connection manner, which is not limited in this embodiment.

The servo motor 4 can adjust the speed according to the cooling time required by different tiles, so that the cooling effect of the tiles is ensured, and the adaptability of the cooling device to different tiles is effectively improved;

in this embodiment, a common motor may be used as a driving source to drive the rotating shaft 13 to rotate, and a gear transmission may be disposed between the rotating shaft 13 and the common motor to adjust the output rotation speed.

The specific implementation mode of the installation of the servo motor 4 can be as follows: an installation plate 14 for installing the servo motor 4 is arranged on the rack 1, a support rod 15 for enhancing the support strength of the installation plate 14 is arranged at the bottom of the installation plate 14, and the servo motor 4 is fixedly connected to the installation plate 14;

the fixed connection described in this embodiment may be a bolt connection or a welding connection, which is not limited in this embodiment.

This embodiment cooling device for ceramic tile production, its working process is: the front end of the cooling device for producing the ceramic tiles is provided with an input device for the ceramic tiles, the rear end of the cooling device for producing the ceramic tiles is provided with an output device for the ceramic tiles, and the ceramic tiles are input to the annular conveying belt 22 from the front end of the cooling device for producing the ceramic tiles; during the conveying process of the tile by the endless conveyor belt 22, the tile enters the cooling tank 3, and the cooling tank 3 cools the tile; when the ceramic tiles are driven by the annular conveying belt 22 to be output, the water in the cooling tank 3 is driven by the ceramic tiles, and the flexible plate 11 blocks the driven water, so that the water in the cooling tank is effectively prevented from overflowing; the ceramic tiles cooled by the cooling tank are output to a subsequent output device at the rear end of the cooling device for ceramic tile production under the action of the annular conveying belt 22.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a cooling device is used in ceramic tile production, includes the frame, sets up conveyor, the cooling bath in the frame, its characterized in that, conveyor is including setting up the drive wheel in the cooling bath both sides, the drive wheel passes through endless conveyor and connects, the cooling bath sets up endless conveyor's inboard, the middle part of endless conveyor upside sets up in the cooling bath, the drive wheel is through setting up the servo motor drive in the frame.

2. The cooling device for tile production according to claim 1, wherein the length of the endless conveyor belt minus the circumference of one driving wheel is 2.2 to 2.4 times the center distance between the two driving wheels.

3. The cooling device for producing ceramic tiles according to claim 2, wherein the endless conveyor belt is 2 endless conveyor belts arranged side by side, and the driving wheels are 2 pairs of endless conveyor belts arranged side by side.

4. The cooling device for tile production according to claim 3, wherein the top of the cooling pool is provided with inwardly inclined support plates for supporting the endless conveyor belt.

5. The cooling device for tile production according to claim 4, wherein a flexible plate for sweeping water when the tiles are output from the cooling tank is further arranged on the frame, the flexible plate is arranged at one end of the cooling tank and above the support plate, and a gap for outputting the tiles is arranged between the flexible plate and the annular conveying belt.

6. The cooling apparatus for producing ceramic tiles according to claim 1, wherein an overflow hole is provided at an upper portion of the cooling bath.

7. The cooling device for producing ceramic tiles according to claim 6, wherein a water replenishing pipe for replenishing water to the cooling tank is arranged on the rack, and an output end of the water replenishing pipe is arranged above the cooling tank.

8. The cooling device for producing ceramic tiles according to claim 3, wherein rotating shafts which are rotatably connected to the frame are arranged on both sides of the cooling pool, and the driving wheels are arranged on the rotating shafts; the servo motor drives one of the rotating shafts to rotate so as to drive the driving wheel to rotate.

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