CN220892850U

CN220892850U - Glass toasts equipment

Info

Publication number: CN220892850U
Application number: CN202322631334.6U
Authority: CN
Inventors: 辜勇
Original assignee: Guangzhou Sierte Technology Co ltd
Current assignee: Guangzhou Sierte Technology Co ltd
Priority date: 2023-09-26
Filing date: 2023-09-26
Publication date: 2024-05-03
Anticipated expiration: 2033-09-26

Abstract

The utility model provides glass baking equipment, which comprises a case and a control system, wherein the case is divided into a purifying space and a baking space by a partition board; a roller type conveying belt is arranged between the purifying space and the baking space in a crossing manner, and the roller type conveying belt is driven to run by a driving motor; a conveyor belt cleaning structure is arranged between the purifying space and the baking space and below the roller conveyor belt in a crossing manner; the conveyor belt cleaning structure comprises a first linear sliding table, a first rotary driving motor, a cross mounting seat, four second rotary driving motors and four cleaning rollers; can carry out self-cleaning to the conveying roller, prevent effectively that impurity from adhering on glass surface at the in-process of toasting, set up by infrared heating structure and electric wire heating structure matched with, promote the controllability of temperature to ensure glass's baking quality.

Description

Glass toasts equipment

Technical Field

The utility model relates to the technical field of glass processing, in particular to glass baking equipment.

Background

The Chinese authorized bulletin number is CN 219607619U, and the authorized bulletin day is 2023 and 08 and 29 days, and concretely relates to tunnel type oven for skin heat application, which relates to the technical field of skin processing equipment and comprises an oven, wherein two ends of the oven are respectively provided with a feed inlet and a discharge outlet, the interior of the oven is rotationally connected with a plurality of conveying rollers, and a limiting mechanism for enabling boards to be stably conveyed is arranged between the conveying rollers. The plate top and the bottom of carrying are heated simultaneously through two sets of electrical heating plates that set up and are dried more comprehensively to come the inside gas of extraction oven under the effect of aspiration channel and first branch pipe through starting the fan, later through blowpipe, connecting pipe and second branch pipe suction and discharge to the inside of oven, follow the inside air circulation of accelerating oven, filter the dehumidification to the air of circulation through the inside mechanism of purifying box, reduce the moisture in the circulation air, further improved drying efficiency. The prior art has the following defects: the conveying roller is not cleaned, impurities are easy to adhere to the surface of the conveying roller in the long-term use process, and when a product is placed on the surface of the conveying roller for conveying, the impurities are correspondingly adhered to the surface of the product; the upper part and the lower part are heated by adopting an electric heating plate, and the temperature controllability is difficult to realize accurate regulation and control; both of the above-mentioned drawbacks of the prior art directly affect the baking quality, and in view of this, improvement is desired.

Disclosure of utility model

Based on the above, the utility model aims to provide glass baking equipment which can automatically clean a conveying roller, effectively prevent impurities from adhering to the surface of glass in the baking process, and improve the temperature controllability by matching an infrared heating structure with an electric wire heating structure, so that the baking quality of the glass is ensured.

The utility model provides glass baking equipment, which comprises a case and a control system, wherein the case is divided into a purifying space and a baking space by a partition board;

A roller type conveying belt is arranged between the purifying space and the baking space in a crossing manner, and the roller type conveying belt is driven to run by a driving motor; a conveyor belt cleaning structure is arranged between the purifying space and the baking space and below the roller conveyor belt in a crossing manner;

The conveyor belt cleaning structure comprises a first linear sliding table, a first rotary driving motor, a cross mounting seat, four second rotary driving motors and four cleaning rollers; the first linear sliding table is connected with the first rotary driving motor through a sliding block, the power output end of the first rotary driving motor is connected with the coaxial center of the cross mounting seat, the second rotary driving motors are respectively arranged at the four free ends of the cross mounting seat, and the power output ends of the second rotary driving motors are connected with the cleaning roller; the length of each cleaning roller is larger than the width of the roller type conveying belt; the conveying belt cleaning structure is connected with the control system;

The baffle plate is provided with an opening for the cleaning structure of the conveying belt to enter and exit, and a flip structure is arranged at the opening; the flip structure is connected with the control system;

An infrared heating structure and an electric wire heating structure are arranged in the baking space; the infrared heating structure and the electric wire heating structure are connected with the control system;

The infrared heating structures are respectively arranged on the upper side and the lower side of the baking space; the infrared heating structure comprises a lifting driving motor, a transverse mounting bracket and a plurality of infrared heating pipes; the two lifting driving motors are respectively connected with the top and the bottom of the chassis, the power output ends of the lifting driving motors are connected with the transverse mounting bracket, and the infrared heating pipes are orderly and linearly and uniformly distributed along the length direction of the transverse mounting bracket;

The electric wire heating structures are respectively arranged at the left side and the right side in the baking space; the electric wire heating structure comprises a vertical mounting bracket and a plurality of electric wires; the vertical mounting brackets are connected with the chassis, and the electric wires are orderly and linearly uniformly distributed along the height direction of the vertical mounting brackets;

The inside wall in toasting space is provided with the temperature-sensing ware, the temperature-sensing ware with control system connects.

Preferably, the flip structure comprises a cover plate corresponding to the opening and two electric rotary mounting seats; the two electric rotating installation seats are respectively arranged at the bottom of the inner cavity of the case and are in contact with the partition plate in a pasting mode, and the power output ends of the two electric rotating installation seats are respectively connected with one side of the side face of the cover plate.

Preferably, a dust hood is arranged at the upper part of the inner cavity of the purifying space, and a dust suction fan communicated with the dust hood is arranged at the position of the machine case corresponding to the purifying space.

Preferably, a second linear sliding table fixedly connected with the bottom of the inner cavity of the chassis is arranged at the bottom of the vertical mounting bracket, and the second linear sliding table is connected with the vertical mounting bracket through a sliding block.

Preferably, an air filter screen layer is arranged at the inlet end of the dust hood.

The beneficial effects of the utility model are as follows: a conveying belt cleaning structure is arranged between the purifying space and the baking space and below the roller conveying belt in a crossing manner, the roller conveying belt is cleaned regularly through the conveying belt cleaning structure, so that the roller conveying belt is ensured to be kept in a clean state all the time, and impurities are effectively prevented from adhering to the surface of glass in the baking process; the infrared heating structure and the electric wire heating structure are arranged in the baking space, the infrared heating structure is respectively arranged on the upper side and the lower side of the baking space, the electric wire heating structure is respectively arranged on the left side and the right side in the baking space, so that heat can be provided for four sides of the baking space, and the infrared heating structure and the electric wire heating structure are matched, so that the temperature controllability is improved, and the baking quality of glass is ensured.

Drawings

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is a front view of the present utility model.

Fig. 3 is a front view of the vertical mounting bracket.

The reference numerals are: the cleaning device comprises a conveyor belt cleaning structure 10, a first linear sliding table 15, a first rotary driving motor 14, a cross mounting seat 13, a second rotary driving motor 12, a cleaning roller 11, a purifying space 16, a cover plate 17, a temperature sensor 18, a baking space 19, a vertical mounting bracket 20, an electric wire 21, a second linear sliding table 22, a lifting driving motor 25, a transverse mounting bracket 23, an infrared heating pipe 24, a machine box 26, a dust suction fan 27, a roller conveyor belt 28, a dust suction hood 29, an electric rotary mounting seat 30, a partition plate 31, a flip cover structure 32, an infrared heating structure 34 and an electric wire heating structure 33.

Detailed Description

The utility model will be further described in detail with reference to the following detailed description and the accompanying drawings, in order to further understand the features and technical means of the utility model and the specific objects and functions achieved.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and include, for example, either permanently connected, removably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1 to 3, the present utility model provides a glass baking apparatus comprising a cabinet 26 and a control system, the cabinet 26 being partitioned into a clean space 16 and a baking space 19 by a partition 31.

A roller type conveyer belt 28 is arranged between the purifying space 16 and the baking space 19 in a crossing way, and the roller type conveyer belt 28 is driven to run by a driving motor; a conveyor belt cleaning structure 10 is arranged across and between the cleaning space 16 and the toasting space 19 and below the roller conveyor belt 28. A feed inlet is arranged on one side of the purifying space 16, and a discharge outlet is arranged on one side of the baking space 19 corresponding to the feed inlet; the discharge hole is provided with an automatic closing door.

The conveyor belt cleaning structure 10 comprises a first linear sliding table 15, a first rotary driving motor 14, a cross mounting seat 13, four second rotary driving motors 12 and four cleaning rollers 11; the first linear sliding table 15 is connected with the first rotary driving motor 14 through a sliding block, the power output end of the first rotary driving motor 14 is connected with the cross mounting seat 13 coaxially, the second rotary driving motors 12 are respectively mounted at the four free ends of the cross mounting seat 13, and the power output ends of the second rotary driving motors 12 are connected with the cleaning roller 11; the length of each cleaning roller 11 is greater than the width of the roller conveyor belt 28; the conveyor belt cleaning structure 10 is connected to a control system. When the cleaning machine is in a cleaning state, the first linear sliding table 15 drives the first rotary driving motor 14, the cross mounting seat 13, the four second rotary driving motors 12 and the four cleaning rollers 11 to move back and forth along the length direction of the roller type conveying belt 28, the roller type conveying belt 28 is in a running state in the cleaning process, one cleaning roller 11 which is in abutting contact with the roller type conveying belt 28 runs in the opposite direction of the roller type conveying belt 28 under the driving of the second rotary driving motor 12, and the cleaning roller 11 is in abutting contact with the roller type conveying belt 28 to clean the surface of the roller type conveying belt 28; when one cleaning roller 11 is used for a given number of times, the first rotary driving motor 14 drives the cross mounting seat 13 to drive the four second rotary driving motors 12 and the four cleaning rollers 11 to rotate for a given number of times, so that the other clean cleaning roller 11 is contacted with the roller type conveying belt 28 to prepare for the next cleaning action. Through such a structural arrangement, the four cleaning rollers 11 can be randomly switched to clean, and after the four cleaning rollers 11 are completely used for a set time, the four cleaning rollers can be correspondingly replaced, so that the convenience is improved, and the maintenance times are saved.

The baffle 31 is provided with an opening for the conveying belt cleaning structure 10 to enter and exit, and a flip structure 32 is arranged at the opening; the flip cover structure 32 is connected to a control system.

An infrared heating structure 34 and an electric wire heating structure 33 are arranged in the baking space 19; the infrared heating structure 34 and the electric wire heating structure 33 are connected with a control system.

The infrared heating structures 34 are respectively arranged on the upper side and the lower side of the baking space 19; the infrared heating structure 34 comprises a lifting driving motor 25, a transverse mounting bracket 23 and a plurality of infrared heating pipes 24; the two lifting driving motors 25 are respectively connected with the top and the bottom of the case 26, the power output ends of the lifting driving motors 25 are connected with the transverse mounting bracket 23, and the plurality of infrared heating pipes 24 are orderly and linearly uniformly distributed along the length direction of the transverse mounting bracket 23. The number of infrared heating tubes 24 may be correspondingly set as needed for the internal heating temperature.

The electric wire heating structures 33 are respectively arranged at the left side and the right side in the baking space 19; the electrical filament heating structure 33 includes a vertical mounting bracket 20 and a plurality of electrical filaments 21; the vertical mounting bracket 20 is connected with the case 26, and the electric wires 21 are orderly and linearly and uniformly distributed along the height direction of the vertical mounting bracket 20. The number of electrical wires 21 on the vertical mounting bracket 20 may be correspondingly set as required for the internal heating temperature.

The inside wall of the baking space 19 is provided with a temperature sensor 18, and the temperature sensor 18 is connected with a control system.

The flip cover structure 32 comprises a cover plate 17 corresponding to the opening and two electric rotary mounting seats 30; the two electric rotary mounting seats 30 are respectively arranged at the bottom of the inner cavity of the chassis 26 and are in contact with the partition plate 31, and the power output ends of the two electric rotary mounting seats 30 are respectively connected with one side of the side face of the cover plate 17. When the conveyor belt cleaning structure 10 is in a working state, the two electric rotary mounting seats 30 drive the cover plate 17 to be in a horizontal placement state; when the cleaning operation is completed, the two electric rotating mounting seats 30 drive the cover plate 17 to be in an upright state.

A dust hood 29 is arranged at the upper part of the inner cavity of the purifying space 16, and a dust suction fan 27 communicated with the dust hood 29 is arranged at the position of the chassis 26 corresponding to the purifying space 16. An air filter screen layer is arranged at the inlet end of the dust hood. By providing the purification space 16, the glass with the finished surface cleaned passes through a clean space before entering the baking space 19, and is prevented from being polluted in the conveying process, thereby affecting the baking quality.

The bottom of the vertical mounting bracket 20 is provided with a second linear sliding table 22 fixedly connected with the bottom of the inner cavity of the chassis 26, and the second linear sliding table 22 is connected with the vertical mounting bracket 20 through a sliding block. When the relative distance between the two side electric wires heating structures 33 needs to be adjusted, the second linear sliding table 22 can drive the vertical mounting bracket 20 to move for adjustment, so that the adaptive position adjustment can be performed according to the required temperature.

The utility model comprises the following operation steps:

1. The conveyor belt cleaning structure 10 cleans the roller conveyor belt 28 back and forth for a predetermined number of times and then resets the roller conveyor belt to the cleaning space 16;

2. The flip cover structure 32 brings the cover 17 into a closed state;

3. Presetting the temperature of the infrared heating structure 34 and the electric wire heating structure 33 by a control system;

3. The dust suction fan 27 operates to suck dust and debris in the purifying space 16;

4. The glass with the surface cleaned passes through the purifying space 16 and enters the baking space 19 for baking;

5. After baking for a given time, the glass is output to a baking space 19 through a roller conveyor belt 28;

6. The above operation is repeated.

According to the utility model, the conveyer belt cleaning structure is arranged between the purifying space and the baking space and below the roller conveyer belt in a crossing manner, the roller conveyer belt is cleaned regularly through the conveyer belt cleaning structure, so that the roller conveyer belt can be kept in a clean state all the time, and impurities are effectively prevented from adhering to the surface of glass in the baking process; the infrared heating structure and the electric wire heating structure are arranged in the baking space, the infrared heating structure is respectively arranged on the upper side and the lower side of the baking space, the electric wire heating structure is respectively arranged on the left side and the right side in the baking space, so that heat can be provided for four sides of the baking space, the infrared heating structure and the electric wire heating structure are matched in the actual operation process, the temperature rising curve is stable and rapid, the temperature controllability is improved, and the baking quality of glass is ensured.

The above examples illustrate only one embodiment of the utility model, which is described in more detail and is not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims

1. Glass toasting apparatus comprising a housing (26) and a control system, characterized in that: the case (26) is divided into a purifying space (16) and a baking space (19) by a partition plate (31);

A roller type conveying belt (28) is arranged between the purifying space (16) and the baking space (19) in a crossing manner, and the roller type conveying belt (28) is driven to run by a driving motor; a conveyor belt cleaning structure (10) is arranged between the cleaning space (16) and the baking space (19) and below the roller conveyor belt (28) in a crossing manner;

The conveyor belt cleaning structure (10) comprises a first linear sliding table (15), a first rotary driving motor (14), a cross mounting seat (13), four second rotary driving motors (12) and four cleaning rollers (11); the first linear sliding table (15) is connected with the first rotary driving motor (14) through a sliding block, the power output end of the first rotary driving motor (14) is coaxially connected with the cross mounting seat (13), the second rotary driving motors (12) are respectively mounted at four free ends of the cross mounting seat (13), and the power output end of each second rotary driving motor (12) is connected with the cleaning roller (11); the length of each cleaning roller (11) is larger than the width of the roller conveyor belt (28); the conveyor belt cleaning structure (10) is connected with the control system;

The baffle plate (31) is provided with an opening for the conveying belt cleaning structure (10) to enter and exit, and a flip structure (32) is arranged at the opening; the flip cover structure (32) is connected with the control system;

An infrared heating structure (34) and an electric wire heating structure (33) are arranged in the baking space (19); the infrared heating structure (34) and the electric wire heating structure (33) are connected with the control system;

The infrared heating structures (34) are respectively arranged on the upper side and the lower side of the baking space (19); the infrared heating structure (34) comprises a lifting driving motor (25), a transverse mounting bracket (23) and a plurality of infrared heating pipes (24); the two lifting driving motors (25) are respectively connected with the top and the bottom of the chassis (26), the power output ends of the lifting driving motors (25) are connected with the transverse mounting bracket (23), and a plurality of infrared heating pipes (24) are orderly and linearly and uniformly distributed along the length direction of the transverse mounting bracket (23);

The electric wire heating structures (33) are respectively arranged at the left side and the right side in the baking space (19); the electric wire heating structure (33) comprises a vertical mounting bracket (20) and a plurality of electric wires (21); the vertical mounting brackets (20) are connected with the chassis (26), and the electric wires (21) are orderly and linearly and uniformly distributed along the height direction of the vertical mounting brackets (20);

The inside wall of toasting space (19) is provided with temperature-sensing ware (18), temperature-sensing ware (18) with control system connects.

2. A glass baking apparatus according to claim 1, wherein: the flip structure (32) comprises a cover plate (17) corresponding to the opening and two electric rotary mounting seats (30); the two electric rotating mounting seats (30) are respectively arranged at the bottom of the inner cavity of the case (26) and are in contact with the partition plate (31), and the power output ends of the two electric rotating mounting seats (30) are respectively connected with one side of the side face of the cover plate (17).

3. A glass baking apparatus according to claim 1, wherein: the upper part of the inner cavity of the purifying space (16) is provided with a dust hood (29), and a dust suction fan (27) communicated with the dust hood (29) is arranged at the position of the machine case (26) corresponding to the purifying space (16).

4. A glass baking apparatus according to claim 1, wherein: the bottom of the vertical mounting bracket (20) is provided with a second linear sliding table (22) fixedly connected with the bottom of the inner cavity of the chassis (26), and the second linear sliding table (22) is connected with the vertical mounting bracket (20) through a sliding block.

5. A glass baking apparatus according to claim 3, wherein: an air filter screen layer is arranged at the inlet end of the dust hood.