CN109278169B - Soft porcelain product cooling device - Google Patents

Abstract

A cooling device for soft porcelain products comprises a first conveying belt and a cooling box, wherein the cooling box comprises an upper shell and a lower shell which are symmetrically arranged, a plurality of first cooling pipes which are horizontally arranged are arranged on the upper shell, the first cooling pipes are arranged on the upper shell through bearings, a first belt pulley is sleeved at each of two ends of each first cooling pipe, two adjacent first belt pulleys are in transmission connection through a second belt, a plurality of second cooling pipes which are horizontally arranged are arranged on the lower shell, the second cooling pipes are symmetrically arranged with the first cooling pipes, the second cooling pipes are arranged on the lower shell through bearings, a second belt pulley is sleeved at each of two ends of each second cooling pipe, two adjacent second belt pulleys are in transmission connection through a fourth belt, the first belt pulley and the second belt pulley are in transmission connection with a motor through belts, and the first cooling pipes, two ends of the second cooling pipe are respectively communicated with the water inlet pipe and the water outlet pipe. The design not only improves the cooling effect of the soft porcelain product, but also improves the performance of the soft porcelain product.

Description

Soft porcelain product cooling device

Technical Field

The invention relates to a soft porcelain production device, in particular to a soft porcelain product cooling device which is mainly suitable for improving the cooling effect and the performance of a soft porcelain product.

Background

The soft porcelain is a novel energy-saving low-carbon decorative material, is used as a wall surface decorative material, and has the characteristics of light weight, good flexibility, various appearance models, good weather resistance and the like; it is used as ground decoration material and has the features of wear resistance, skid resistance, comfortable foot feeling, etc. The soft porcelain is simple and quick to construct, shortens the construction period, saves space and cost and is not easy to fall off compared with the traditional material. In the production process of soft porcelain, the soft porcelain which is just produced needs to be cooled, and the existing soft porcelain is generally cooled by natural cooling or a fan. Natural cooling is adopted, so that the consumed time is long, and the working efficiency is influenced; the fan is adopted for cooling, although the cooling speed is high, the soft porcelain can deform, and the performance of the product is affected.

Disclosure of Invention

The invention aims to overcome the defects and problems of poor cooling effect and poor soft ceramic product performance in the prior art, and provides a soft ceramic product cooling device with good cooling effect and good soft ceramic product performance.

In order to achieve the above purpose, the technical solution of the invention is as follows: a cooling device for soft porcelain products comprises a first conveying belt and a cooling box, wherein a first belt wheel is arranged at one end of the inner side of the first conveying belt and is in transmission connection with a first motor through a first belt, a second belt wheel is arranged at the other end of the inner side of the first conveying belt, and the cooling box comprises an upper shell and a lower shell which are symmetrically arranged;

the inner wall of the upper shell is provided with a plurality of horizontally arranged first cooling pipes, two ends of each first cooling pipe are mounted on the inner wall of the upper shell through a first bearing, two ends of each first cooling pipe are sleeved with a first belt pulley, the first belt pulleys on two adjacent first cooling pipes are in transmission connection through a second belt, the first belt pulley on one first cooling pipe close to the first conveying belt in the first cooling pipes is in transmission connection with a second motor through a third belt, one end of each first cooling pipe is communicated with a water inlet pipe, and the other end of each first cooling pipe is communicated with a water outlet pipe;

be provided with No. two cooling tubes of many horizontal arrangements on the inner wall of casing down, No. two cooling tubes and a cooling tube symmetry set up, the both ends of No. two cooling tubes are all installed on the inner wall of casing down through No. two bearings, No. two belt pulleys are all overlapped at the both ends of No. two cooling tubes, No. two belt pulleys on two adjacent cooling tubes are connected through No. four belt drive, No. two belt pulleys on No. two cooling tubes that are close to a conveyer belt among many No. two cooling tubes are connected with No. three motor drive through No. five belts, the one end and the inlet tube intercommunication of No. two cooling tubes, the other end and the outlet pipe intercommunication of No. two cooling tubes.

And the outer wall of the upper shell is vertically connected with an air cylinder.

The periphery of the opposite end face of the upper shell and the lower shell is vertically connected with a first tip cone, the periphery of the opposite end face of the lower shell and the upper shell is vertically connected with a second tip cone, and the second tip cone and the first tip cone are symmetrically arranged.

A support is arranged between the first conveying belt and the cooling box, the support is of a right-angle trapezoidal structure, and a second conveying belt is arranged on the oblique waist of the support.

And baffles are arranged at the parts of the inclined waist of the bracket, which are positioned at the two sides of the second conveying belt.

The upper shell and the lower shell are both of cuboid structures, the end face of the upper shell, which is opposite to the lower shell, is an open end, and the end face of the lower shell, which is opposite to the upper shell, is an open end.

Be provided with temperature sensor on the inner wall of casing down, temperature sensor is connected with the controller electricity, be provided with the flow valve on the inlet tube, the flow valve is connected with the controller electricity.

The first cooling pipe and the second cooling pipe respectively comprise a first cylindrical section, a second cylindrical section and a third cylindrical section which are sequentially communicated, the diameter of the first cylindrical section is equal to that of the third cylindrical section, and the diameter of the first cylindrical section is smaller than that of the second cylindrical section;

the first cylindrical section and the third cylindrical section of the first cooling pipe are both mounted on the inner wall of the upper shell through a first bearing, and the first belt pulley is sleeved on the first cylindrical section and the third cylindrical section of the first cooling pipe;

a first cylindrical section and a third cylindrical section of the second cooling pipe are both mounted on the inner wall of the lower shell through a second bearing, and the second belt pulley is sleeved on the first cylindrical section and the third cylindrical section of the second cooling pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention relates to a cooling box in a soft porcelain product cooling device, which comprises an upper shell and a lower shell which are symmetrically arranged, wherein the inner wall of the upper shell is provided with a plurality of first cooling pipes which are horizontally arranged, the inner wall of the lower shell is provided with a plurality of second cooling pipes which are horizontally arranged, one ends of the first cooling pipes and the second cooling pipes are communicated with a water inlet pipe, the other ends of the first cooling pipes and the second cooling pipes are communicated with a water outlet pipe, a first conveyer belt conveys dried soft porcelain between the first cooling pipes and the second cooling pipes, a motor drives the first cooling pipes and the second cooling pipes to rotate, thereby driving the soft porcelain to move forwards, simultaneously contacting the soft porcelain with the first cooling pipe and the second cooling pipe, reducing the temperature through the water flowing in the first cooling pipe and the second cooling pipe, the cooling box of above-mentioned structure not only fine has reduced the temperature of soft porcelain, can prevent moreover that the cooling from resulting in the emergence of soft porcelain deformation problem too fast. Therefore, the invention has good cooling effect and good soft porcelain product performance.

2. According to the cooling device for the soft porcelain product, the air cylinder is vertically connected to the outer wall of the upper shell, and the height of the upper shell is adjusted through the air cylinder, so that the first cooling pipe on the upper shell is in full contact with the soft porcelain; the outer side of the opposite end face of the upper shell and the outer side of the opposite end face of the lower shell are both vertically connected with a first tip cone, the outer side of the opposite end face of the lower shell and the outer side of the opposite end face of the upper shell are both vertically connected with a second tip cone, the second tip cone and the first tip cone are symmetrically arranged, and the first tip cone and the second tip cone are arranged to prevent the soft porcelain from being deformed due to the extrusion of a cooling pipe and a cooling pipe to the soft porcelain. Therefore, the invention has good cooling effect and high reliability.

3. According to the soft porcelain product cooling device, the support is arranged between the first conveying belt and the cooling box, the support is of a right-angle trapezoidal structure, the second conveying belt is arranged on the oblique waist of the support and plays a transition role so as to prevent soft porcelain deformation in the conveying process; the parts that lie in No. two conveyer belt both sides on the oblique waist of support are provided with the baffle, set up the baffle to prevent that soft porcelain from dropping in the transportation. Therefore, the soft porcelain product of the invention has good performance and high reliability.

4. The upper shell and the lower shell in the cooling device for the soft porcelain product are both of cuboid structures, the end surface of the upper shell, which is opposite to the lower shell, is an open end, and the end surface of the lower shell, which is opposite to the upper shell, is an open end; be provided with temperature sensor on the inner wall of casing down, temperature sensor is connected with the controller electricity, is provided with the flow valve on the inlet tube, and the flow valve is connected with the controller electricity, detects the temperature of soft porcelain through temperature sensor to control the velocity of flow of water through the controller, not only guarantee the cooling that soft porcelain can be fine, can prevent moreover that soft porcelain from cooling too fast. Therefore, the invention has simple structure, good cooling effect and high automation degree.

5. The first cooling pipe and the second cooling pipe in the soft porcelain product cooling device respectively comprise a first cylindrical section, a second cylindrical section and a third cylindrical section which are sequentially communicated, the diameter of the first cylindrical section is equal to that of the third cylindrical section, and the diameter of the first cylindrical section is smaller than that of the second cylindrical section. Therefore, the invention has good cooling effect, light weight and simple installation.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the first cooling pipe (second cooling pipe) in fig. 1.

In the figure: the conveyor belt comprises a first conveyor belt 1, a first belt wheel 2, a second belt wheel 3, an upper shell 4, a first cooling pipe 41, a first bearing 42, a first belt wheel 43, a second belt 44, a lower shell 5, a second cooling pipe 51, a second bearing 52, a second belt wheel 53, a fourth belt 54, a cylinder 6, a support 7, a second conveyor belt 8, a first cylindrical section 9, a second cylindrical section 10 and a third cylindrical section 11.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 and 2, the cooling device for the soft porcelain product comprises a first conveying belt 1 and a cooling box, wherein a first belt wheel 2 is arranged at one end of the inner side of the first conveying belt 1, the first belt wheel 2 is in transmission connection with a first motor through a first belt, a second belt wheel 3 is arranged at the other end of the inner side of the first conveying belt 1, and the cooling box comprises an upper shell 4 and a lower shell 5 which are symmetrically arranged;

a plurality of first cooling pipes 41 which are horizontally arranged are arranged on the inner wall of the upper shell 4, two ends of each first cooling pipe 41 are installed on the inner wall of the upper shell 4 through a first bearing 42, a first belt pulley 43 is sleeved at each of two ends of each first cooling pipe 41, the first belt pulleys 43 on the two adjacent first cooling pipes 41 are in transmission connection through a second belt 44, the first belt pulley 43 on one first cooling pipe 41, which is close to the first conveying belt 1, in the plurality of first cooling pipes 41 is in transmission connection with a second motor through a third belt, one end of each first cooling pipe 41 is communicated with a water inlet pipe, and the other end of each first cooling pipe 41 is communicated with a water outlet pipe;

be provided with many horizontal arrangement's No. two cooling tubes 51 on the inner wall of casing 5 down, No. two cooling tubes 51 and a cooling tube 41 symmetry set up, No. two cooling tubes 51's both ends are all installed on casing 5's inner wall down through No. two bearings 52, No. two cooling tubes 51's both ends all overlap and are equipped with No. two belt pulleys 53, No. two belt pulleys 53 on two adjacent cooling tubes 51 are connected through No. four belt 54 transmissions, No. two belt pulleys 53 on No. two cooling tubes 51 that are close to a conveyer belt 1 among many No. two cooling tubes 51 are connected with No. three motor drive through No. five belts, No. two cooling tubes 51's one end and inlet tube intercommunication, No. two cooling tubes 51's the other end and outlet pipe intercommunication.

And the outer wall of the upper shell 4 is vertically connected with a cylinder 6.

The periphery of the opposite end face of the upper shell 4 and the lower shell 5 is vertically connected with a first tip cone, the periphery of the opposite end face of the lower shell 5 and the upper shell 4 is vertically connected with a second tip cone, and the second tip cone and the first tip cone are symmetrically arranged.

A support 7 is arranged between the first conveying belt 1 and the cooling box, the support 7 is of a right-angle trapezoidal structure, and a second conveying belt 8 is arranged on the oblique waist of the support 7.

And baffles are arranged at the parts of the oblique waist of the bracket 7, which are positioned at the two sides of the second conveying belt 8.

Go up casing 4 and casing 5 down and be the cuboid structure, go up casing 4 and the relative terminal surface of casing 5 down be the open end, the terminal surface of casing 5 and the relative of last casing 4 down is the open end.

Be provided with temperature sensor on the inner wall of lower casing 5, temperature sensor is connected with the controller electricity, be provided with the flow valve on the inlet tube, the flow valve is connected with the controller electricity.

The first cooling pipe 41 and the second cooling pipe 51 respectively comprise a first cylindrical section 9, a second cylindrical section 10 and a third cylindrical section 11 which are sequentially communicated, the diameter of the first cylindrical section 9 is equal to that of the third cylindrical section 11, and the diameter of the first cylindrical section 9 is smaller than that of the second cylindrical section 10;

the first cylindrical section 9 and the third cylindrical section 11 of the first cooling pipe 41 are both mounted on the inner wall of the upper shell 4 through a first bearing 42, and the first belt pulley 43 is sleeved on the first cylindrical section 9 and the third cylindrical section 11 of the first cooling pipe 41;

the first cylindrical section 9 and the third cylindrical section 11 of the second cooling pipe 51 are both mounted on the inner wall of the lower shell 5 through a second bearing 52, and the second belt pulley 53 is sleeved on the first cylindrical section 9 and the third cylindrical section 11 of the second cooling pipe 51.

The principle of the invention is illustrated as follows:

the inner wall of the upper shell is provided with a plurality of first cooling pipes which are horizontally arranged, a first belt pulley is sleeved at each of two ends of each first cooling pipe, the first cooling pipe at the head position (close to the first conveying belt) of the arrangement rotates under the driving of a second motor, the first cooling pipe at the head position drives the first cooling pipe adjacent to the first cooling pipe to rotate through a second belt, and the rest first cooling pipes rotate under the driving of the first cooling pipe before the first cooling pipe; the motion principle of the second cooling pipe is the motion of the same cooling pipe, and the first cooling pipe and the second cooling pipe which rotate drive the soft porcelain to move forward.

In order to further improve the heat dissipation effect, through holes can be formed in the outer walls of the upper shell and the lower shell. The temperature of the water in the water inlet pipe can be adjusted according to the actual situation, and the premise is that the cooling effect is good and the product performance is good.

Example 1:

referring to fig. 1, the cooling device for the soft porcelain product comprises a first conveying belt 1 and a cooling box, wherein a first belt wheel 2 is arranged at one end of the inner side of the first conveying belt 1, the first belt wheel 2 is in transmission connection with a first motor through a first belt, a second belt wheel 3 is arranged at the other end of the inner side of the first conveying belt 1, and the cooling box comprises an upper shell 4 and a lower shell 5 which are symmetrically arranged; a plurality of first cooling pipes 41 which are horizontally arranged are arranged on the inner wall of the upper shell 4, two ends of each first cooling pipe 41 are installed on the inner wall of the upper shell 4 through a first bearing 42, a first belt pulley 43 is sleeved at each of two ends of each first cooling pipe 41, the first belt pulleys 43 on the two adjacent first cooling pipes 41 are in transmission connection through a second belt 44, the first belt pulley 43 on one first cooling pipe 41, which is close to the first conveying belt 1, in the plurality of first cooling pipes 41 is in transmission connection with a second motor through a third belt, one end of each first cooling pipe 41 is communicated with a water inlet pipe, and the other end of each first cooling pipe 41 is communicated with a water outlet pipe; be provided with many horizontal arrangement's No. two cooling tubes 51 on the inner wall of casing 5 down, No. two cooling tubes 51 and a cooling tube 41 symmetry set up, No. two cooling tubes 51's both ends are all installed on casing 5's inner wall down through No. two bearings 52, No. two cooling tubes 51's both ends all overlap and are equipped with No. two belt pulleys 53, No. two belt pulleys 53 on two adjacent cooling tubes 51 are connected through No. four belt 54 transmissions, No. two belt pulleys 53 on No. two cooling tubes 51 that are close to a conveyer belt 1 among many No. two cooling tubes 51 are connected with No. three motor drive through No. five belts, No. two cooling tubes 51's one end and inlet tube intercommunication, No. two cooling tubes 51's the other end and outlet pipe intercommunication.

Example 2:

the basic contents are the same as example 1, except that:

referring to fig. 1, a cylinder 6 is vertically connected to the outer wall of the upper shell 4, a first tip cone is vertically connected to the periphery of the opposite end surface of the upper shell 4 and the lower shell 5, a second tip cone is vertically connected to the periphery of the opposite end surface of the lower shell 5 and the upper shell 4, and the second tip cone and the first tip cone are symmetrically arranged.

Example 3:

the basic contents are the same as example 1, except that:

referring to fig. 1, a support 7 is arranged between the first conveyor belt 1 and the cooling box, the support 7 is of a right-angled trapezoid structure, and a second conveyor belt 8 is arranged on the oblique waist of the support 7; and baffles are arranged at the parts of the oblique waist of the bracket 7, which are positioned at the two sides of the second conveying belt 8.

Example 4:

the basic contents are the same as example 1, except that:

referring to fig. 1, the upper shell 4 and the lower shell 5 are both of a cuboid structure, the end surface of the upper shell 4 opposite to the lower shell 5 is an open end, and the end surface of the lower shell 5 opposite to the upper shell 4 is an open end; be provided with temperature sensor on the inner wall of lower casing 5, temperature sensor is connected with the controller electricity, be provided with the flow valve on the inlet tube, the flow valve is connected with the controller electricity.

Example 5:

the basic contents are the same as example 1, except that:

referring to fig. 1 and 2, each of the first cooling pipe 41 and the second cooling pipe 51 comprises a first cylindrical section 9, a second cylindrical section 10 and a third cylindrical section 11 which are sequentially communicated, the diameter of the first cylindrical section 9 is equal to that of the third cylindrical section 11, and the diameter of the first cylindrical section 9 is smaller than that of the second cylindrical section 10; the first cylindrical section 9 and the third cylindrical section 11 of the first cooling pipe 41 are both mounted on the inner wall of the upper shell 4 through a first bearing 42, and the first belt pulley 43 is sleeved on the first cylindrical section 9 and the third cylindrical section 11 of the first cooling pipe 41; the first cylindrical section 9 and the third cylindrical section 11 of the second cooling pipe 51 are both mounted on the inner wall of the lower shell 5 through a second bearing 52, and the second belt pulley 53 is sleeved on the first cylindrical section 9 and the third cylindrical section 11 of the second cooling pipe 51.

Claims (1)

1. The cooling device for the soft porcelain products is characterized by comprising a first conveying belt (1) and a cooling box, wherein a first belt wheel (2) is arranged at one end of the inner side of the first conveying belt (1), the first belt wheel (2) is in transmission connection with a first motor through a first belt, a second belt wheel (3) is arranged at the other end of the inner side of the first conveying belt (1), and the cooling box comprises an upper shell (4) and a lower shell (5) which are symmetrically arranged;

a plurality of first cooling pipes (41) which are horizontally arranged are arranged on the inner wall of the upper shell (4), two ends of each first cooling pipe (41) are installed on the inner wall of the upper shell (4) through a first bearing (42), a first belt pulley (43) is sleeved at each of two ends of each first cooling pipe (41), the first belt pulleys (43) on two adjacent first cooling pipes (41) are in transmission connection through a second belt (44), the first belt pulley (43) on one first cooling pipe (41) which is close to the first conveying belt (1) in the plurality of first cooling pipes (41) is in transmission connection with a second motor through a third belt, one end of each first cooling pipe (41) is communicated with a water inlet pipe, and the other end of each first cooling pipe (41) is communicated with a water outlet pipe;

the inner wall of the lower shell (5) is provided with a plurality of second cooling pipes (51) which are horizontally arranged, the second cooling pipes (51) and the first cooling pipes (41) are symmetrically arranged, two ends of each second cooling pipe (51) are installed on the inner wall of the lower shell (5) through a second bearing (52), two ends of each second cooling pipe (51) are sleeved with a second belt pulley (53), the second belt pulleys (53) on two adjacent second cooling pipes (51) are in transmission connection through a fourth belt (54), the second belt pulley (53) on one second cooling pipe (51) close to the first conveying belt (1) in the plurality of second cooling pipes (51) is in transmission connection with a third motor through a fifth belt, one end of each second cooling pipe (51) is communicated with the water inlet pipe, and the other end of each second cooling pipe (51) is communicated with the water outlet pipe;

the outer wall of the upper shell (4) is vertically connected with a cylinder (6); the periphery of the opposite end surface of the upper shell (4) and the lower shell (5) is vertically connected with a first tip cone, the periphery of the opposite end surface of the lower shell (5) and the upper shell (4) is vertically connected with a second tip cone, and the second tip cone and the first tip cone are symmetrically arranged; a temperature sensor is arranged on the inner wall of the lower shell (5), the temperature sensor is electrically connected with the controller, a flow valve is arranged on the water inlet pipe, and the flow valve is electrically connected with the controller;

a bracket (7) is arranged between the first conveying belt (1) and the cooling box, the bracket (7) is of a right-angled trapezoid structure, and a second conveying belt (8) is arranged on the oblique waist of the bracket (7); baffles are arranged at the parts, positioned at the two sides of the second conveying belt (8), on the oblique waist of the bracket (7);

the upper shell (4) and the lower shell (5) are both of cuboid structures, the end face of the upper shell (4) opposite to the lower shell (5) is an open end, and the end face of the lower shell (5) opposite to the upper shell (4) is an open end;

the first cooling pipe (41) and the second cooling pipe (51) respectively comprise a first cylindrical section (9), a second cylindrical section (10) and a third cylindrical section (11) which are sequentially communicated, the diameter of the first cylindrical section (9) is equal to that of the third cylindrical section (11), and the diameter of the first cylindrical section (9) is smaller than that of the second cylindrical section (10);

the first cylindrical section (9) and the third cylindrical section (11) of the first cooling pipe (41) are both mounted on the inner wall of the upper shell (4) through a first bearing (42), and the first belt pulley (43) is sleeved on the first cylindrical section (9) and the third cylindrical section (11) of the first cooling pipe (41);

the first cylindrical section (9) and the third cylindrical section (11) of the second cooling pipe (51) are both mounted on the inner wall of the lower shell (5) through a second bearing (52), and the second belt pulley (53) is sleeved on the first cylindrical section (9) and the third cylindrical section (11) of the second cooling pipe (51).

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