CN114453219A

CN114453219A - Uniform colloid drying equipment for electronic display screen

Info

Publication number: CN114453219A
Application number: CN202210131267.9A
Authority: CN
Inventors: 冯宪轮
Original assignee: Huabo Video Zhuhai Technology Co ltd
Current assignee: Huabo Video Zhuhai Technology Co ltd
Priority date: 2022-02-14
Filing date: 2022-02-14
Publication date: 2022-05-10
Anticipated expiration: 2042-02-14
Also published as: CN114453219B

Abstract

The invention relates to the field of electronic display screens, in particular to uniform colloid drying equipment for an electronic display screen. The problems to be solved are: the glue dispensing part of the electronic display screen is unevenly heated, the drying efficiency is low, the drying effect is poor, the colloid is easy to overflow, and the electronic display screen is damaged. The technical implementation scheme of the invention is as follows: a uniform drying device for colloid of electronic display screen comprises a drying box, a sealed door and the like; and a sealing door is arranged on the drying box. The invention realizes that the heat carried in the airflow is accumulated by utilizing the airflow flowing effect and adopting the multi-stage heat backflow, heat accumulation and heat storage modes while drying a plurality of electronic display screens, greatly improves the utilization rate of the heat, improves the drying speed, further accelerates the production speed, improves the benefit when the glue on the electronic display screens is uniformly dried by dispensing, prevents the glue from overflowing and diffusing by utilizing the airflow, causes damage to the electronic display screens, improves the yield of the electronic display screens and prolongs the service life of the electronic display screens.

Description

Uniform colloid drying equipment for electronic display screen

Technical Field

The invention relates to the field of electronic display screens, in particular to uniform colloid drying equipment for an electronic display screen.

Background

With the continuous development and progress of modern science and technology, the demand on electronic equipment is continuously increased, and an electronic display screen is one of important components in the electronic equipment, so that the production and processing of the electronic display screen become an indispensable step for producing the electronic equipment; during the processing of the electronic display screen, the dispensing treatment needs to be carried out on the appointed position of the electronic display screen, and after the dispensing is finished, the dispensing is dried in time, so that the production efficiency can be accelerated, and the drying effect is better than that of natural air drying; secondly, when dispensing and drying, the dispensing is easy to flow and diffuse, which causes the glue to overflow to other parts of the electronic display screen, damages the electronic display screen, reduces the yield, and reduces the service life of the produced electronic display screen.

Disclosure of Invention

The invention provides uniform colloid drying equipment for an electronic display screen, aiming at overcoming the defects that the glue dispensing part of the electronic display screen is unevenly heated, the drying efficiency is low, the drying effect is poor, the colloid is easy to overflow, and the electronic display screen is damaged.

The technical implementation scheme of the invention is as follows: a uniform drying device for colloid for an electronic display screen comprises a fixed bottom column, a drying box, a sealed door, a handle, the electronic display screen, a uniform heat storage system, a backflow heat conduction system and an anti-diffusion system; four fixed bottom columns are arranged; the four fixed bottom columns are provided with drying boxes; the drying box is provided with a sealed door; a handle is arranged on the sealed door; the uniform heat storage system is arranged in the drying box, an electronic display screen is arranged on the uniform heat storage system, and the uniform heat storage system is used for uniformly retaining heat at the electronic display screen to prevent heat from diffusing; the left side and the right side of the uniform heat storage system are provided with the backflow heat conduction systems, and the backflow heat conduction systems are used for guiding heat backflow into the uniform heat storage system, so that heat is effectively collected, and the utilization rate is improved; the middle part of the uniform heat storage system is provided with an anti-diffusion system which is used for preventing colloid on the electronic display screen from diffusing and being heated unevenly in the drying process.

More preferably, the uniform heat storage system comprises an electric rotating shaft, a first connecting plate, a sliding block, a supporting plate, a first elastic part, a second elastic part, a supporting plate, a heat inlet plate, a heat storage plate, a second connecting plate, a first heat conducting plate and an electric heater; the lower surface of the inner side of the drying box is provided with an electric rotating shaft; a first connecting plate is fixedly connected to the electric rotating shaft; the first connecting plate is connected with the anti-diffusion system; the lower surface of the first connecting plate is fixedly connected with two bilaterally symmetrical slide blocks; two bilaterally symmetrical support plates are fixedly connected to the upper surface of the first connecting plate; the two sliding blocks are in sliding connection with the drying box; the rear sides of the upper surfaces of the two supporting plates are fixedly connected with a first elastic piece respectively; the front sides of the upper surfaces of the two supporting plates are fixedly connected with a second elastic piece respectively; the upper ends of the adjacent first elastic piece and the second elastic piece are fixedly connected with a bearing plate; the two bearing plates are both connected with an anti-diffusion system; the upper surfaces of the two supporting plates are fixedly connected with a heat inlet plate respectively; a second connecting plate is fixedly connected between the two bearing plates; electronic display screens are placed on the upper surfaces of the two bearing plates and the second connecting plate; the two heat inlet plates are both connected with a reflux heat conduction system; a heat storage plate is fixedly connected between the two heat inlet plates; the second connecting plate is connected with the anti-diffusion system; the inner left wall and the inner right wall of the drying box are symmetrically and fixedly connected with a first heat-conducting plate respectively; an electric heater is arranged on each of the two first heat-conducting plates; the drying oven comprises a first connecting plate, a sliding block, a supporting plate, a first elastic part, a second elastic part, a supporting plate, a heat inlet plate, a heat storage plate, a second connecting plate, a first heat conducting plate and an electric heater, wherein multiple groups of the first connecting plate, the sliding block, the supporting plate, the first elastic part, the second elastic part, the supporting plate, the heat inlet plate, the heat storage plate, the second connecting plate, the first heat conducting plate and the electric heater are arranged on the inner side of the drying oven from bottom to top.

More preferably, the heat inlet plate is provided with a plurality of heat inlet circular holes which are inclined downwards.

More preferably, the heat-retaining plate is provided in a wave shape.

More preferably, the upper side of the first heat conducting plate is curved and is curved to approach the electronic display screen.

More preferably, the backflow heat conducting system comprises a sealing plate, a second heat conducting plate, a third elastic part, a heat flow inclined plate and a heat backflow plate; the lower sides of the plurality of heat inlet plates are respectively fixedly connected with a heat flow inclined plate; a second heat conducting plate is fixedly connected to the upper sides of the plurality of heat inlet plates; each heat flow inclined plate is fixedly connected with two symmetrical obturation plates in front and back; each heat flow inclined plate is fixedly connected with a plurality of heat reflux plates; each second heat conduction plate is fixedly connected with two adjacent airtight plates; and the plurality of second heat-conducting plates from bottom to top are connected with the heat flow inclined plates adjacent to the top through a third elastic part.

More preferably, the heat-returning plate is curved in such a manner that the direction of curvature coincides with the direction of curvature of the adjacent first heat-conducting plate.

More preferably, the second heat transfer plate is curved toward the heat inlet plate in a direction opposite to a direction in which the adjacent heat return plate is curved.

More preferably, the diffusion preventing system comprises a fourth elastic part, a connecting block, a linkage plate, a wind-heat inclined plate and a pushing column; a fourth elastic piece is fixedly connected to the middle of the lower surface of each second connecting plate; each telescopic end of each fourth elastic piece is fixedly connected with a connecting block; each connecting block is movably connected with two linkage plates which are symmetrical front and back through a torsion spring rotating shaft; each wind-heat inclined plate is fixedly connected to the separated side of each linkage plate, and a plurality of round holes are formed in each wind-heat inclined plate; each wind-heat inclined plate is contacted with the adjacent bearing plate; each first connecting plate middle part respectively rigid coupling has a pushing column to every pushing column is located adjacent connecting block under.

More preferably, the device further comprises a convenient taking-out system, the sealed door is provided with the convenient taking-out system, and the convenient taking-out system comprises a connecting frame, a first push plate, an L-shaped plate, a fifth elastic element, a fixed plate and a second push plate; the lower part of the right side surface of the airtight door is fixedly connected with a connecting frame; a first push plate is fixedly connected to the left side of the connecting frame, and the top of the first push plate is in a gradually-rising parabolic shape; the lower surface of the fixed bottom column is fixedly connected with two L-shaped plates; a fifth elastic piece is fixedly connected to each of the two elastic pieces; the telescopic ends of the two fifth elastic pieces are fixedly connected with a fixed plate; the first push plate contacts the fixed plate; two bilateral symmetry's second push pedal is fixed to the fixed plate upper surface, and two second push pedals run through the stoving case to be located under two airtight boards of below.

Has the advantages that: the invention realizes that the heat carried in the airflow is accumulated and stored by utilizing the self-flowing effect of the airflow and adopting the modes of multi-stage heat backflow, heat accumulation and heat storage while drying a plurality of electronic display screens, greatly improves the utilization rate of the heat while dispensing glue on the electronic display screens and uniformly drying the electronic display screens, further improves the drying speed, enhances the drying effect, further accelerates the production speed, improves the benefit, prevents the glue from overflowing and diffusing by utilizing the airflow, causes damage to the electronic display screens, improves the yield of the electronic display screens and prolongs the service life of the electronic display screens.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a schematic perspective view of a portion of the present invention;

FIG. 4 is a cross-sectional view of the uniform heat storage system of the present invention;

FIG. 5 is a schematic view of a first partial body structure of the uniform heat storage system of the present invention;

FIG. 6 is a second partial cross-sectional view of the uniform heat storage system of the present invention;

FIG. 7 is an enlarged view of area A of the uniform heat storage system of the present invention;

FIG. 8 is a schematic perspective view of a reflow heat conduction system according to the present invention;

FIG. 9 is a schematic perspective view of a portion of a reflow heat conduction system of the present invention;

FIG. 10 is a schematic perspective view of a first embodiment of the diffusion barrier system of the present invention;

FIG. 11 is a schematic perspective view of a second embodiment of the diffusion barrier system of the present invention;

FIG. 12 is an enlarged view of area B of the diffusion barrier system of the present invention;

FIG. 13 is a schematic view of a first embodiment of the easy retrieval system of the present invention;

fig. 14 is a schematic perspective view of a second embodiment of the easy-to-remove system of the present invention.

The parts are labeled as follows: 1-fixed bottom column, 2-drying box, 3-sealing door, 4-handle, 5-electronic display screen, 201-electric rotating shaft, 202-first connecting plate, 203-sliding block, 204-supporting plate, 205-first elastic element, 206-second elastic element, 207-supporting plate, 208-heat inlet plate, 209-heat storage plate, 2010-second connecting plate, 2011-first heat conducting plate, 2012-electric heater, 301-sealing plate, 302-second heat conducting plate, 303-third elastic element, 304-heat flow inclined plate, 305-heat return plate, 401-fourth elastic element, 402-connecting block, 403-linkage plate, 404-heat flow inclined plate, 405-pushing column, 501-connecting frame, 502-first pushing plate, 503-L-shaped plate, 504-fifth spring, 505-fixed plate, 506-second push plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first elastic member 205 and the second elastic member 206 are springs, and the third elastic member 303, the fourth elastic member 401, and the fifth elastic member 504 are spring expansion plates.

Example 1

A colloid uniform drying device for an electronic display screen 5 is shown in figures 1-12 and comprises a fixed bottom column 1, a drying box 2, a sealed door 3, a handle 4, the electronic display screen 5, a uniform heat storage system, a reflux heat conduction system and an anti-diffusion system; four fixed bottom columns 1 are arranged; the four fixed bottom columns 1 are provided with drying boxes 2; the drying box 2 is provided with a sealed door 3; a handle 4 is arranged on the sealed door 3; an electronic display screen 5 is arranged on the uniform heat storage system of the uniform heat storage system and is arranged in the drying box 2; the left side and the right side of the uniform heat storage system are provided with a backflow heat conduction system; the middle part of the uniform heat storage system is provided with an anti-diffusion system.

The uniform heat storage system comprises an electric rotating shaft 201, a first connecting plate 202, a sliding block 203, a supporting plate 204, a first elastic member 205, a second elastic member 206, a supporting plate 207, a heat inlet plate 208, a heat storage plate 209, a second connecting plate 2010, a first heat conducting plate 2011 and an electric heater 2012; the lower surface of the inner side of the drying box 2 is provided with an electric rotating shaft 201; a first connecting plate 202 is fixedly connected to the electric rotating shaft 201; the first connecting plate 202 is connected with an anti-diffusion system; the lower surface of the first connecting plate 202 is fixedly connected with two bilaterally symmetrical sliding blocks 203; two bilaterally symmetrical support plates 204 are fixedly connected to the upper surface of the first connecting plate 202; the two sliding blocks 203 are both in sliding connection with the drying box 2; the rear sides of the upper surfaces of the two support plates 204 are respectively fixedly connected with a first elastic piece 205; the front sides of the upper surfaces of the two support plates 204 are respectively fixedly connected with a second elastic element 206; the upper ends of the adjacent first elastic piece 205 and second elastic piece 206 are fixedly connected with a bearing plate 207; the two bearing plates 207 are both connected with an anti-diffusion system; the upper surfaces of the two supporting plates 207 are respectively fixedly connected with a heat inlet plate 208; a second connecting plate 2010 is fixedly connected between the two bearing plates 207; the electronic display screen 5 is placed on the upper surfaces of the two bearing plates 207 and the second connecting plate 2010; the two heat inlet plates 208 are both connected with a backflow heat conduction system; a heat storage plate 209 is fixedly connected between the two heat inlet plates 208; the second connecting plate 2010 is connected with an anti-diffusion system; a first heat conducting plate 2011 is symmetrically and fixedly connected with the inner left wall and the inner right wall of the drying box 2 respectively; an electric heater 2012 is arranged on each of the two first heat-conducting plates 2011; a plurality of sets of first connecting plate 202, slider 203, support plate 204, first elastic member 205, second elastic member 206, support plate 207, heat inlet plate 208, heat storage plate 209, second connecting plate 2010, first heat conducting plate 2011 and electric heater 2012 are arranged inside drying box 2 from bottom to top.

The heat inlet plate 208 is provided with a plurality of heat inlet circular holes which are inclined downwards.

The heat storage plate 209 is arranged in a wave shape.

The first heat conducting plate 2011 is curved at the upper side and is curved toward the electronic display 5.

The backflow heat conduction system comprises a closed plate 301, a second heat conduction plate 302, a third elastic piece 303, a heat flow inclined plate 304 and a heat backflow plate 305; a heat flow inclined plate 304 is fixedly connected to the lower side of each of the plurality of heat inlet plates 208; a second heat-conducting plate 302 is fixedly connected to the upper sides of the plurality of heat-inlet plates 208; each heat flow sloping plate 304 is fixedly connected with two symmetrical obturation plates 301; each heat flow sloping plate 304 is fixedly connected with a plurality of heat return plates 305; each second heat conduction plate 302 is fixedly connected with two adjacent closed plates 301; the second heat conducting plates 302 from bottom to top and the heat flow sloping plates 304 adjacent to the top are connected through a third elastic element 303.

The heat return plate 305 is provided in a curved shape, and the curved direction coincides with the curved direction of the adjacent first heat conduction plate 2011.

The second heat transfer plate 302 is curved on the side closer to the heat inlet plate 208 in the direction opposite to the direction in which the adjacent heat return plate 305 is curved.

The anti-diffusion system comprises a fourth elastic part 401, a connecting block 402, a linkage plate 403, an air-heating inclined plate 404 and a push column 405; a fourth elastic part 401 is fixedly connected to the middle of the lower surface of each second connecting plate 2010; each telescopic end of each fourth elastic member 401 is fixedly connected with a connecting block 402; each connecting block 402 is hinged with two linkage plates 403 which are symmetrical front and back through a torsion spring rotating shaft; each wind heat sloping plate 404 is fixedly connected to the separated side of each linkage plate 403, and each wind heat sloping plate 404 is provided with a plurality of round holes; each wind heat ramp 404 contacts an adjacent support plate 207; each first connecting plate 202 has a push post 405 affixed to the middle thereof, and each push post 405 is located directly below the adjacent connecting plate 402.

When dispensing the electronic display screen 5, dispensing the adhesive around the upper surface of the electronic display screen 5 is needed, drying and curing the adhesive after dispensing is completed, and accelerating the production of the electronic display screen 5, therefore, after dispensing the electronic display screen 5, the electronic display screen 5 is sequentially placed into the drying box 2 by a worker, that is, placed on the two support plates 207 and the second connecting plate 2010, for convenience of description, the following description is about the electronic display screen 5 having a plurality of groups of the same components and having the same functions, all describing only one group, after placing the electronic display screen 5, because the electronic display screen 5 has a certain weight, under the action of gravity of the electronic display screen 5, the two support plates 207 and the second connecting plate 2010 are pushed downwards, that is, the two first elastic members 205 and the two second elastic members 206 are compressed by the two support plates 207, and at the same time, the fourth elastic member 401 is synchronously driven to move downwards by the second connecting plate 2010, that is, the fourth elastic member 401 drives the connecting block 402 to move downwards, the connecting block 402 further drives the two linkage plates 403 to move downwards, the linkage blocks 402 move downwards along with the downward movement of the connecting block 402 and contact with the pushing posts 405, the pushing posts 405 extrude the connecting block 402 upwards, so that the fourth elastic member 401 is compressed, the two linkage plates 403 synchronously rotate around the torsion spring rotating shafts, the two air-heating inclined plates 404 synchronously rotate while the two linkage plates 403 rotate, the two air-heating inclined plates 404 gradually protrude outwards from the two bearing plates 207 under the limiting action of the two bearing plates 207 due to the synchronous downward movement of the two bearing plates 207, and contact with the front and rear edges of the lower surface of the electronic display screen 5, so as to limit the electronic display screen 5, prevent the electronic display screen 5 from sliding during the drying process, when the electronic display screen 5 is completely placed in the drying box 2, a worker holds the handle 4 and closes the sealed door 3, so that the drying box 2 and the sealed door 3 form a sealed drying space to effectively store heat;

then, controlling a plurality of electric heaters 2012 to start working at the same time, supplying heat to the inside of the drying box 2 through the electric heaters 2012, so as to gradually raise the temperature inside the drying box 2, meanwhile, because the temperatures of different parts inside the drying box 2 are different, the drying effect on different dispensing parts of the electronic display screen 5 is also different, in order to make the different dispensing parts of the electronic display screen 5 heated uniformly, i.e. dried uniformly and sufficiently, the heat inside the drying box 2 needs to be accumulated and controlled, so that the heat is accumulated between the electronic display screen 5 and the heat storage plate 209, then controlling the electric rotating shaft 201 to start working, driving the first connecting plate 202 to rotate slowly through the electric rotating shaft 201, further making the two sliding blocks 203 slide on the drying box 2, ensuring that the whole equipment cannot be supported by the electric rotating shaft 201 due to overweight, when the first connecting plate 202 rotates slowly, the two supporting plates 204 are synchronously driven to slowly rotate, so that the two first elastic members 205 and the two second elastic members 206 are driven to slowly rotate, namely, the two supporting plates 207, the two heat inlet plates 208, the heat storage plate 209, the second connecting plate 2010 and the electronic display screen 5 are driven to slowly rotate, when the supporting plates 207, the two heat inlet plates 208, the heat storage plate 209, the second connecting plate 2010 and the electronic display screen 5 slowly rotate, the air flow in the drying box 2 is automatically disturbed, namely, the heat in the drying box 2 moves along with the air flow, and is completely manufactured by a plurality of electric heaters 2012, therefore, after the heat is dissipated, as the first heat conducting plate 2011 is bent and bent towards the direction close to the electronic display screen 5, when the air flow automatically moves along the first heat conducting plate 2011 and synchronously accumulates and drives the heat to move, the heat automatically moves towards the electronic display screen 5, and meanwhile, when the air flow carrying the heat enters the two sealing plates 301, the two sealing plates, The second heat conduction plate 302 and the heat flow sloping plate 304 form a space, and automatically flow along the plurality of heat flow back plates 305, because the plurality of heat flow back plates 305 are arranged in a curved shape, and the curved direction is consistent with the curved direction of the adjacent first heat conduction plate 2011, the airflow carrying heat further passes through the plurality of heat flow back plates 305 and then flows to the curved part of the adjacent second heat conduction plate 302, under the back flow effect of the second heat conduction plate 302, the airflow automatically accumulates between the heat flow sloping plate 304 and the heat inlet plate 208 along one heat flow back plate 305 adjacent to the heat inlet plate 208, as the airflow carrying heat gradually accumulates, because the heat inlet plate 208 is provided with a plurality of heat inlet round holes which are inclined downwards, the airflow carrying heat automatically enters between the electronic display screen 5 and the heat storage plate 209, and the heat storage plate 209 is arranged in a wavy shape, the heat storage effect is better, so that the heat is effectively accumulated between the electronic display screen 5 and the heat storage plate 209, further, uniformly drying the dispensing positions on the electronic display screen 5;

in the drying process, in order to prevent the glue on the electronic display screen 5 from diffusing, i.e. flowing outwards, and overflowing to four sides of the electronic display screen 5, which causes the electronic display screen 5 to be damaged, therefore, along with the slow rotation of the electronic display screen 5, the air flow formed in the rotation process automatically enters between the electronic display screen 5 and the heat storage plate 209 along a plurality of round holes arranged on the air-heated inclined plate 404, and simultaneously, the air flow synchronously blows the glue at the front and rear edges of the upper surface of the electronic display screen 5 inwards, i.e. an air flow blowing force is applied, so that the glue at the front and rear edges of the upper surface of the electronic display screen 5 cannot flow outwards and diffuse in the drying process, and meanwhile, the glue at the left and right edges of the upper surface of the electronic display screen 5 is blown by the air flow entering from the round holes of the two heat inlet 208, so as to prevent the glue from flowing outwards and diffusing, and under carrying thermal air current to blow, the point on the electronic display screen 5 is glued and can be further heated evenly, and stoving speed also obtains improving, and then improves production efficiency, improves the stoving effect.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 13 and 14, the device further comprises a convenient taking-out system, the sealed door 3 is provided with the convenient taking-out system, and the convenient taking-out system comprises a connecting frame 501, a first push plate 502, an L-shaped plate 503, a fifth elastic member 504, a fixing plate 505 and a second push plate 506; the lower part of the right side surface of the airtight door 3 is fixedly connected with a connecting frame 501; a first push plate 502 is fixedly connected to the left side of the connecting frame 501, and the top of the first push plate 502 is in a gradually-rising parabolic shape; the lower surface of the fixed bottom pillar 1 is fixedly connected with two L-shaped plates 503; a fifth elastic piece 504 is fixedly connected to each of the two parts; the telescopic ends of the two fifth elastic members 504 are fixedly connected with a fixing plate 505; the first push plate 502 contacts the fixed plate 505; two second push plates 506 which are bilaterally symmetrical are fixedly connected to the upper surface of the fixing plate 505, and the two second push plates 506 penetrate through the drying box 2 and are positioned right below the two lowest airtight plates 301.

After the electronic display screen 5 is dried, the worker opens the sealed door 3 to the state shown in the figure I, at this time, the electronic display screen 5 is limited and clamped by the two wind-heat inclined plates 404 and is inconvenient to take out, therefore, in order to take out conveniently, the worker only needs to further open the sealed door 3, so that the opening angle of the sealed door 3 is continuously expanded, when the sealed door 3 is further opened, based on the view from the top to the bottom, at this time, the sealed door 3 gradually rotates anticlockwise, the connecting frame 501 synchronously drives the connecting frame 501 to rotate anticlockwise through the sealed door 3, then the connecting frame 501 drives the first push plate 502 to rotate anticlockwise, when the first push plate 502 rotates anticlockwise, because the top of the first push plate 502 is set to be in a gradually rising parabolic shape, therefore, the fixing plate 505 is gradually pushed towards each other through the first push plate 502, namely, when the fixing plate 505 stretches the two fifth elastic members 504, two second push pedal 506 rebound in step, along with two second push pedal 506 rebound to contact with a heat flow swash plate 304 respectively, two second push pedal 506 upwards promote two heat flow swash plates 304, and then make a plurality of heat flow swash plates 304 and a plurality of bearing board 207 upwards promoted, make a plurality of heat flow swash plate 404 resume to initial condition with adjacent bearing board 207 gradually, make things convenient for the staff to take out electronic display 5.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A uniform drying device for colloid for an electronic display screen comprises a fixed bottom column (1), a drying box (2), a sealed door (3) and a handle (4); four fixed bottom columns (1) are arranged; the four fixed bottom columns (1) are provided with drying boxes (2); a sealed door (3) is arranged on the drying box (2); a handle (4) is arranged on the sealed door (3); the device is characterized by also comprising a uniform heat storage system, a reflux heat conduction system and an anti-diffusion system; the uniform heat storage system is arranged in the drying box (2), an electronic display screen (5) is placed on the uniform heat storage system, and the uniform heat storage system is used for uniformly retaining heat at the electronic display screen (5) to prevent heat diffusion; the left side and the right side of the uniform heat storage system are provided with the backflow heat conduction systems, and the backflow heat conduction systems are used for guiding heat backflow into the uniform heat storage system, so that heat is effectively collected, and the utilization rate is improved; the middle part of the uniform heat storage system is provided with an anti-diffusion system which is used for preventing colloid on the electronic display screen (5) from diffusing and being heated unevenly in the drying process.

2. The uniform drying equipment for colloid of electronic display screen according to claim 1, characterized in that the uniform heat storage system comprises an electric rotating shaft (201), a first connecting plate (202), a sliding block (203), a supporting plate (204), a first elastic member (205), a second elastic member (206), a supporting plate (207), a heat inlet plate (208), a heat storage plate (209), a second connecting plate (2010), a first heat conducting plate (2011) and an electric heater (2012); the lower surface of the inner side of the drying box (2) is provided with an electric rotating shaft (201); a first connecting plate (202) is fixedly connected to the electric rotating shaft (201); the first connecting plate (202) is connected with the anti-diffusion system; the lower surface of the first connecting plate (202) is fixedly connected with two bilaterally symmetrical sliding blocks (203); two bilaterally symmetrical support plates (204) are fixedly connected to the upper surface of the first connecting plate (202); the two sliding blocks (203) are in sliding connection with the drying box (2); the rear sides of the upper surfaces of the two support plates (204) are respectively fixedly connected with a first elastic piece (205); the front sides of the upper surfaces of the two supporting plates (204) are respectively fixedly connected with a second elastic piece (206); the upper ends of the adjacent first elastic piece (205) and the second elastic piece (206) are fixedly connected with a bearing plate (207); the two bearing plates (207) are both connected with an anti-diffusion system; the upper surfaces of the two supporting plates (207) are respectively fixedly connected with a heat inlet plate (208); a second connecting plate (2010) is fixedly connected between the two bearing plates (207); an electronic display screen (5) is placed on the upper surfaces of the two bearing plates (207) and the second connecting plate (2010); the two heat inlet plates (208) are both connected with a backflow heat conduction system; a heat storage plate (209) is fixedly connected between the two heat inlet plates (208); the second connecting plate (2010) is connected with the anti-diffusion system; the inner left wall and the inner right wall of the drying box (2) are symmetrically and fixedly connected with a first heat conducting plate (2011) respectively; an electric heater (2012) is arranged on each of the two first heat-conducting plates (2011); the drying box comprises a first connecting plate (202), a sliding block (203), a supporting plate (204), a first elastic part (205), a second elastic part (206), a bearing plate (207), a heat inlet plate (208), a heat storage plate (209), a second connecting plate (2010), a first heat conducting plate (2011) and an electric heater (2012), wherein a plurality of groups are arranged on the inner side of the drying box (2) from bottom to top.

3. The uniform drying equipment for colloid of electronic display screen according to claim 2, characterized in that the heat inlet plate (208) is provided with a plurality of heat inlet circular holes inclined downwards.

4. The uniform drying equipment for colloid of electronic display screen according to claim 2, characterized in that the heat storage plate (209) is set in wave shape.

5. The uniform drying equipment for colloid of electronic display screen according to claim 2, characterized in that the upper side of the first heat conducting plate (2011) is curved and is curved to the direction close to the electronic display screen (5).

6. The uniform drying equipment for colloid of electronic display screen according to claim 1, wherein the heat conduction system of back flow comprises a closed plate (301), a second heat conduction plate (302), a third elastic member (303), a heat flow inclined plate (304) and a heat return plate (305); a heat flow inclined plate (304) is fixedly connected to the lower side of each heat inlet plate (208); a second heat-conducting plate (302) is fixedly connected to the upper sides of the plurality of heat inlet plates (208); each heat flow inclined plate (304) is fixedly connected with two symmetrical closing plates (301); each heat flow inclined plate (304) is fixedly connected with a plurality of heat reflux plates (305); each second heat conduction plate (302) is fixedly connected with two adjacent airtight plates (301); the second heat conduction plates (302) from bottom to top are connected with the adjacent heat flow inclined plates (304) through a third elastic piece (303).

7. The uniform drying equipment for colloid of electronic display screen according to claim 6, wherein the heat-returning plate (305) is disposed in a curved shape, and the curved direction is consistent with the curved direction of the adjacent first heat-conducting plate (2011).

8. The uniform drying apparatus for electronic display screen glue according to claim 6, wherein the second heat conducting plate (302) is curved at a side close to the heat inlet plate (208) and in a direction opposite to the direction of curvature of the adjacent heat return plate (305).

9. The uniform drying equipment for colloid of electronic display screen according to claim 1, characterized in that the diffusion preventing system comprises a fourth elastic member (401), a connecting block (402), a linkage plate (403), a wind heat sloping plate (404) and a pushing column (405); a fourth elastic piece (401) is fixedly connected to the middle of the lower surface of each second connecting plate (2010); each telescopic end of each fourth elastic piece (401) is fixedly connected with a connecting block (402); each connecting block (402) is movably connected with two linkage plates (403) which are symmetrical front and back through a torsion spring rotating shaft; each separated side of each linkage plate (403) is fixedly connected with an air-heating sloping plate (404), and each air-heating sloping plate (404) is provided with a plurality of round holes; each wind heat sloping plate (404) is contacted with the adjacent bearing plate (207); a push column (405) is fixedly connected to the middle of each first connecting plate (202), and each push column (405) is located right below the adjacent connecting plate (402).

10. The uniform drying equipment for the colloid for the electronic display screen, according to claim 1, is characterized by further comprising a convenient taking-out system, wherein the convenient taking-out system is installed on the airtight door (3) and comprises a connecting frame (501), a first push plate (502), an L-shaped plate (503), a fifth elastic element (504), a fixed plate (505) and a second push plate (506); the lower part of the right side surface of the sealed door (3) is fixedly connected with a connecting frame (501); a first push plate (502) is fixedly connected to the left side of the connecting frame (501), and the top of the first push plate (502) is in a gradually-rising parabolic shape; two L-shaped plates (503) are fixedly connected to the lower surface of the fixed bottom column (1); a fifth elastic piece (504) is fixedly connected to each of the two springs; the telescopic ends of the two fifth elastic pieces (504) are fixedly connected with a fixed plate (505); the first push plate (502) contacts the fixed plate (505); two second push plates (506) which are bilaterally symmetrical are fixedly connected to the upper surface of the fixing plate (505), and the two second push plates (506) penetrate through the drying box (2) and are positioned under the two lowest sealing plates (301).