CN217844769U - Cooling device for fired ceramic product - Google Patents

Abstract

The utility model discloses a ceramic fires back cooling device belongs to ceramic manufacture technical field, including the cooling cabinet, the inside fixed plate that has through slide rail sliding connection of cooling cabinet, and fixed plate quantity is two at least, the embedding of fixed plate top is provided with places the draw-in groove, and it is three at least to place draw-in groove quantity, places the inside ceramic fixed establishment that is provided with of draw-in groove, the inside ceramic cooling body that is provided with of cooling cabinet, ceramic fixed establishment includes electric telescopic handle B and grip block, place the inside both sides embedding of draw-in groove and install electric telescopic handle B, the terminal fixed mounting of electric telescopic handle B has the grip block, and the grip block is the arc setting. The utility model discloses positive and negative reciprocating rotation is done to servo motor drive fan housing for ceramic pot and cold wind contact are more even, avoid the local shock chilling of ceramic pot to lead to breaking, have guaranteed ceramic quality, simultaneously, need not to use the water-cooling, have practiced thrift the water resource.

Description

Cooling device for fired ceramic product

Technical Field

The utility model belongs to the technical field of ceramic manufacture, specifically be a ceramic fires back cooling device.

Background

Ceramics are a general name of pottery and porcelain, and the production of ceramics usually needs to be carried out by the steps of pugging, blank drawing, blank printing, blank benefiting, blank drying, pattern engraving, glazing, kiln burning and the like.

Wherein, through the retrieval discovery, there is a patent number CN202120617198.3 to disclose a quick cooling device for green ceramics production, which comprises a fixed base, the top fixedly connected with cooler bin of fixing base, the interior roof fixedly connected with water tank of cooler bin, the top fixedly connected with oral siphon of water tank has and uses through mutually supporting of cooler bin with observation glass, has reached this quick cooling device for green ceramics production and has observed convenient purpose, and when green pottery cools off putting into the cooler bin, can observe the condition of inside by observing glass at any time, and convenient timely green pottery of taking out is changed, has satisfied the demand of production, uses through the mutually supporting of fixing base, cooler bin, drain pipe, spread groove and collection chamber, has reached this quick cooling device for green ceramics production waste water collection convenient purpose, and the water that green pottery sprayed out when cooling off, can be convenient carry out concentrated collection processing, the advantage of empting in time.

However, the research shows that: the device does not carry out the precooling to the pottery, directly sprays cold water and cools off on the pottery, and the ceramic temperature after firing is higher, the cooling of directly watering, and the pottery can't contact with cold water uniformly, leads to local quench and breaks, influences ceramic quality, and through the water-cooling, waste water resource moreover, in addition, the device can't be to the structure of the inside and outside cooling simultaneously of pottery, and cooling efficiency is lower, consequently provides a novel device and solves this problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems, a cooling device for the ceramic products after firing is provided.

The utility model adopts the technical scheme as follows: the cooling device for the fired ceramic product comprises a cooling cabinet, wherein the inside of the cooling cabinet is connected with at least two fixing plates in a sliding manner through slide rails, and at least three placing clamping grooves are embedded above the fixing plates;

a ceramic fixing mechanism is arranged in the placing clamping groove, and a ceramic cooling mechanism is arranged in the cooling cabinet;

ceramic fixed establishment includes electric telescopic handle B and grip block, place the inside both sides embedding of draw-in groove and install electric telescopic handle B, electric telescopic handle B end fixed mounting has the grip block, and the grip block is the arc setting.

The cooling cabinet is characterized in that an electric telescopic rod A is arranged at a position corresponding to the fixing plate inside the cooling cabinet, and a transverse plate is fixedly arranged at the tail end of the electric telescopic rod A.

Wherein, cooling body includes air-cooler, fan housing and wind-guiding post, the outside one side fixed mounting of cooling cabinet has the air-cooler, and the diaphragm below is rotated through hollow rotary joint with the department of placing the draw-in groove correspondence and is connected with the fan housing, and fan housing below fixed mounting has the wind-guiding post, and fan housing inner wall and wind-guiding post surface are provided with a plurality of air outlets, diaphragm below fixed mounting has servo motor, and the servo motor connecting axle passes through the chain and is connected with the fan housing transmission, it is provided with the semiconductor refrigeration piece to place the draw-in groove bottom, and the semiconductor refrigeration piece is "U" shape setting.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, through cooling body, can evenly cool down simultaneously to the outside in the pottery jar simultaneously for cooling efficiency, simultaneously, the cooperation of semiconductor refrigeration piece refrigerates the cooling to the pottery jar bottom, makes the pottery jar cooling more comprehensive, and efficiency is higher.

2. The utility model discloses in, servo motor drives the fan housing and is positive and negative reciprocating rotation for ceramic pot and cold wind contact are more even, avoid the local quench of ceramic pot to lead to breaking, have guaranteed ceramic quality, simultaneously, need not to use the water-cooling, have practiced thrift the water resource.

Drawings

FIG. 1 is a schematic diagram of the overall side structure of the present invention;

fig. 2 is an enlarged schematic diagram of a structure at a in fig. 1 of the present invention;

fig. 3 is a schematic sketch of the three-dimensional structure of the middle fixing plate of the present invention.

The mark in the figure is: 1. a cooling cabinet; 101. an electric telescopic rod A; 1011. a transverse plate; 1012. a servo motor; 2. a fixing plate; 201. placing a clamping groove; 2011. a semiconductor refrigerating sheet; 202. an electric telescopic rod B; 2021. a clamping plate; 3. an air cooler; 301. a fan housing; 3011. a wind guide column.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the 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 efforts all belong to the protection scope of the present invention.

The utility model discloses in:

referring to fig. 1-3, the cooling device for the fired ceramic product comprises a cooling cabinet 1, wherein the cooling cabinet 1 is internally connected with at least two fixing plates 2 in a sliding manner through sliding rails, at least three placing clamping grooves 201 are embedded above the fixing plates 2;

place inside being provided with ceramic fixed establishment of draw-in groove 201, cooling cabinet 1 is inside to be provided with ceramic cooling body.

Referring to fig. 1-3, further, ceramic fixing mechanism includes electric telescopic handle B202 and grip block 2021, place inside both sides embedding of draw-in groove 201 and install electric telescopic handle B202, the terminal fixed mounting of electric telescopic handle B202 has grip block 2021, and grip block 2021 is the arc setting, the staff places the ceramic jar after will firing with the help of the instrument in placing draw-in groove 201 above fixed plate 2, electric telescopic handle B202 extends, drive grip block 2021 centre gripping in ceramic jar bottom both sides, fix it, so reciprocal, all put into the ceramic jar in placing draw-in groove 201 above fixed plate 2.

Referring to fig. 1 and 2, further, an electric telescopic rod a101 is installed inside a cooling cabinet 1 and corresponding to a fixing plate 2, a transverse plate 1011 is installed at the tail end of the electric telescopic rod a101, a cooling mechanism includes an air cooler 3, an air hood 301 and an air guide column 3011, the air cooler 3 is fixedly installed on one side outside the cooling cabinet 1, the air hood 301 is rotatably connected to a position below the transverse plate 1011 and corresponding to a placement clamping groove 201 through a hollow rotary joint, the air guide column 3011 is fixedly installed below the air hood 301, a plurality of air outlets are formed in the inner wall of the air hood 301 and the surface of the air guide column 3011, the electric telescopic rod a101 moves downwards to drive the air guide column 3011 to extend into the ceramic tank, the air hood 301 is covered outside the ceramic tank, the air hood 301 and the air guide column 3011 are not in direct contact with the ceramic tank, the air cooler 3 works to blow cold air to the ceramic tank through the air outlets on the inner wall of the air hood 301 and the surface of the air guide column 3011, so that the ceramic tank is cooled inside and outside the ceramic tank.

Referring to fig. 1 and 2, further, a servo motor 1012 is fixedly mounted below the transverse plate 1011, a connecting shaft of the servo motor 1012 is in transmission connection with the fan housing 301 through a chain, and the servo motor 1012 drives the fan housing 301 to rotate forward and backward in a reciprocating manner, so that the ceramic pot is more uniformly contacted with cold air, and the ceramic pot is prevented from being broken due to local shock cooling.

Referring to fig. 1-3, further, it is provided with semiconductor refrigeration piece 2011 to place draw-in groove 201 bottom, and semiconductor refrigeration piece 2011 is "U" shape setting, and when the ceramic pot temperature reduced to safe temperature, switch-on semiconductor refrigeration piece 2011 power, semiconductor refrigeration piece 2011 refrigerates the cooling to ceramic pot bottom, avoids using semiconductor refrigeration piece 2011 to cool down under the higher circumstances of ceramic pot temperature, avoids local quench to lead to the ceramic pot to break.

Referring to fig. 1 to 3, further, the electric telescopic rod a101, the servo motor 1012, the semiconductor chilling plate 2011, the electric telescopic rod B202 and the air cooler 3 are electrically connected to an external power source through a control panel.

The working principle is as follows: firstly, a worker places fired ceramic tanks in a placing clamping groove 201 above a fixed plate 2 by means of a tool, then an electric telescopic rod B202 extends to drive clamping plates 2021 to be clamped at two sides of the bottom of the ceramic tank to fix the ceramic tanks, the process is repeated in this way, after the ceramic tanks are placed in the placing clamping groove 201 above the fixed plate 2, the fixed plate 2 slides into a cooling cabinet 1, then an electric telescopic rod A101 moves downwards to drive air guide columns 3011 to extend into the ceramic tanks, an air hood 301 covers the outside of the ceramic tanks, the air hood 301 and the air guide columns 3011 are not in direct contact with the ceramic tanks, an air cooler 3 works to blow cold air to the ceramic tanks through air outlets on the inner walls of the air hood 301 and the surfaces of the air guide columns 3011, the ceramic tanks are cooled inside and outside at the same time, a servo motor drives the air hood 301 to rotate in a forward and backward reciprocating mode, the ceramic tanks are in contact with the cold air, the ceramic tanks are prevented from being broken due to local refrigeration of the ceramic tanks, and finally, a semiconductor refrigeration sheet 2011 is prevented from being broken due to shock chilling under the condition that the ceramic tanks are high temperature.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents, improvements, etc. made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (6)

1. The utility model provides a cooling device after ceramic is fired, includes cooling cabinet (1), its characterized in that: the cooling cabinet (1) is internally connected with at least two fixing plates (2) in a sliding manner through sliding rails, the number of the fixing plates (2) is at least two, placing clamping grooves (201) are embedded above the fixing plates (2), and the number of the placing clamping grooves (201) is at least three;

a ceramic fixing mechanism is arranged in the placing clamping groove (201), and a ceramic cooling mechanism is arranged in the cooling cabinet (1);

the ceramic fixing mechanism comprises an electric telescopic rod B (202) and a clamping plate (2021), the electric telescopic rod B (202) is installed on two sides of the inside of the placing clamping groove (201) in an embedded mode, the clamping plate (2021) is fixedly installed at the tail end of the electric telescopic rod B (202), and the clamping plate (2021) is arranged in an arc shape.

2. The ceramic article post-firing cooling apparatus of claim 1, wherein: the cooling cabinet (1) is internally provided with an electric telescopic rod A (101) at a position corresponding to the fixing plate (2), and the tail end of the electric telescopic rod A (101) is fixedly provided with a transverse plate (1011).

3. The ceramic article post-firing cooling apparatus of claim 1, wherein: the cooling mechanism comprises an air cooler (3), a fan cover (301) and an air guide column (3011).

4. The ceramic article post-firing cooling apparatus of claim 1, wherein: the cooling cabinet (1) outside one side fixed mounting has air-cooler (3), and diaphragm (1011) below is rotated through hollow rotary joint with the department that places draw-in groove (201) correspondence and is connected with fan housing (301), and fan housing (301) below fixed mounting has air guide post (3011), and fan housing (301) inner wall and air guide post (3011) surface are provided with a plurality of air outlets.

5. The ceramic article post-firing cooling apparatus of claim 2, wherein: a servo motor (1012) is fixedly mounted below the transverse plate (1011), and a connecting shaft of the servo motor (1012) is in transmission connection with the fan cover (301) through a chain.

6. The ceramic article post-firing cooling apparatus of claim 1, wherein: placing clamping groove (201) bottom is provided with semiconductor refrigeration piece (2011), and semiconductor refrigeration piece (2011) is "U" shape setting.

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