CN221055516U - Curing oven with automatic power-off protection structure - Google Patents

Abstract

The utility model relates to the technical field of solidification processing, in particular to a solidification furnace with an automatic power-off protection structure, which comprises a machine case, wherein a heat dissipation mechanism, a transmission mechanism and a protection mechanism are respectively arranged in the machine case, the transmission mechanisms are connected through the protection mechanism, the heat dissipation mechanism is positioned at one side of the protection mechanism, motors are respectively fixed at the outsides of the heat dissipation mechanism and the protection mechanism, a rotating shaft and a worm are respectively arranged in the heat dissipation mechanism and the protection mechanism, the worm is respectively connected with a turbine in a meshed manner, the motors are respectively welded at two sides of the outer wall of the machine case, the improved solidification furnace realizes the internal power-off and power-on structure by utilizing a gear mechanism to drive a metal sliding block when the internal temperature is too high, meanwhile, the heat dissipation mechanism is additionally arranged to avoid the problem of short circuit caused by the too high temperature, and the problem that the direct exposure of a discharge hole to the outside is reduced by the alternate air supply of internal thermal circulation is completed through a conversion case.

Description

Curing oven with automatic power-off protection structure

Technical Field

The utility model relates to the technical field of curing processing, in particular to a curing oven with an automatic power-off protection structure.

Background

Curing is a process of curing a substance to a hard material so that the properties of the substance are altered, thereby allowing the substance to have better properties and a wider range of applications.

The curing container is a curing furnace, and is suitable for the stress of the combination of the reinforcing materials of the production process of heating, resin curing and drying of parts in the electronic industry and other various industries.

The inventors found that the following problems exist in the prior art in the process of implementing the present utility model: 1. lack of a structure of safety protection power failure, short circuit is easy to cause when the temperature is too high, the processing aging is affected, and meanwhile, hidden dangers of scalding are caused to operators; 2. the traditional curing oven is provided with a smoke outlet and a feed inlet at the top of the oven, so that cold air is easy to enter the oven body from the feed inlet, and the workpiece cannot reach the curing temperature to finish curing, so that the workpiece is easy to scrap.

Disclosure of utility model

The present utility model is directed to a curing oven with an automatic power-off protection structure, so as to solve the problems set forth in the background art. In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a curing oven with auto-power-off protective structure, includes the quick-witted case, radiating mechanism, transport mechanism and protection machanism have been seted up respectively to the inside of machine case, be connected through protection machanism between the transport mechanism, radiating mechanism is located one side of protection machanism, radiating mechanism and protection machanism's outside is fixed with the motor respectively, axis of rotation and worm have been seted up respectively to radiating mechanism and protection machanism's inside, the worm meshes respectively and is connected with the turbine, the motor welds the both sides at the quick-witted case outer wall respectively, temperature sensing equipment has been seted up to one side of machine case outer wall, the machine case is connected with the transfer box through the control box of welding at its top.

Further preferably, the protection mechanism comprises a fixed base, a driving conical gear, a driven conical gear, a connecting rod and a metal sliding block, wherein the driving conical gear forms a rotating mechanism through a rotating shaft and a motor output shaft, the driving conical gear is connected with the driven conical gear in a meshed mode, meanwhile, the driven conical gear penetrates through a worm outside the metal sliding block through the fixed connection of the rotating shaft, the worm is connected with a turbine arranged on the outer wall of the metal sliding block in a meshed mode, the turbine and the connecting rod form a movable structure, and the metal sliding block forms a sliding structure with the fixed base through the worm and the turbine.

Further preferably, the transmission mechanism comprises an output end and a receiving end, wires are arranged in the output end and the receiving end, the output end is fixedly connected to the bottom of the metal sliding block, and the receiving end is fixedly connected to the bottom of the operation box and located above the metal sliding block.

Further preferably, the heat dissipation mechanism comprises a universal joint and a fan, the tail end of the universal joint is fixedly connected with the output shaft of the motor, the universal joints are movably connected, and meanwhile, the universal joint at the top and the fan form a rotating structure through the motor.

Further preferably, the inner wall and the top of the operation box are respectively provided with a first air outlet and a first air inlet, and the inner top and the two sides of the inner wall of the operation box are respectively provided with heating plates.

Further preferably, the temperature sensing device comprises a control unit and a sensing element, and the sensing element is arranged at the bottom of the inner wall of the operation box in a penetrating manner.

Further preferably, a fan is welded on the bottom wall inside the conversion box, a second air inlet and a second air outlet are respectively formed in the inner wall and the top of the conversion box, and the second air inlet is connected with the first air outlet and the second air outlet is connected with the first air inlet through pipelines respectively.

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

According to the utility model, the temperature parameter is set through the control unit, one end of the control unit is connected with the motor for controlling the protection mechanism, when the sensing element detects that the temperature is too high, the control unit drives the motor, meanwhile, the motor drives the driving bevel gear to rotate so as to drive the driven bevel gear to rotate, the worm connected with the driven bevel gear through the rotating shaft rotates simultaneously, the worm rotates so as to drive the turbine to rotate, and the turbine is connected with the connecting rod on one side of the metal sliding block, so that the effect that the turbine drives the metal sliding block to slide up and down on the fixed base is achieved, when the metal sliding block slides to the bottom, the metal sliding block is disconnected from the receiving end, the process of electrifying and powering off can be realized through the metal sliding block at the output end and the receiving end, potential safety hazards caused by continuous internal temperature rise are avoided, the cooling treatment is carried out inside the device, and the motor drives a plurality of groups of universal joints to rotate so as to drive the fan to rotate, and the heat dissipation effect is achieved.

According to the utility model, the front end of the operation box is movably connected with the door of the lock core mechanism, so that the internal sealing performance can be ensured, the fan conveys internal hot air to the inside of the conversion box through the first air outlet through the second air inlet, and then returns to the inside of the operation box through the second air outlet through the first air inlet through the pipeline, so that the thermal cycle process of air draft and air supply is completed in a sealed space, and the curing effect reaches an ideal process.

Drawings

FIG. 1 is a schematic diagram of a front view structure of the present utility model;

FIG. 2 is a schematic diagram of the front view of the present utility model in full section;

FIG. 3 is a schematic view of a protecting mechanism according to the present utility model;

FIG. 4 is a schematic diagram of a heat dissipation mechanism according to the present utility model;

FIG. 5 is a schematic cross-sectional view of the operation box and the transfer box of the present utility model.

In the figure: 1. a chassis; 2. an operation box; 201. a first air outlet; 202. a heating plate; 203. a first air inlet; 3. a transfer box; 301. a blower; 302. a second air inlet; 303. a second air outlet; 4. a temperature sensing device; 401. a control unit; 402. a sensing element; 5. a motor; 6. a heat dissipation mechanism; 601. a universal joint; 602. a fan; 7. a protective mechanism; 701. a fixed base; 702. a driving bevel gear; 703. a driven bevel gear; 704. a connecting rod; 705. a metal slider; 8. a transmission mechanism; 801. an output end; 802. a receiving end; 9. a rotating shaft; 10. a worm; 11. and (3) a turbine.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which are obtained by a worker of ordinary skill in the art without creative efforts, are within the protection scope of the present utility model based on the embodiments of the present utility model.

Referring to fig. 1 to 5, the present utility model provides a technical solution: the utility model provides a curing oven with auto-power-off protective structure, including quick-witted case 1, radiating mechanism 6 has been seted up respectively to the inside of machine case 1, transport mechanism 8 and protection machanism 7, connect through protection machanism 7 between the transport mechanism 8, radiating mechanism 6 is located one side of protection machanism 7, radiating mechanism 6 and protection machanism 7's outside is fixed with motor 5 respectively, axis of rotation 9 and worm 10 have been seted up respectively to radiating mechanism 6 and protection machanism 7's inside, worm 10 meshes respectively and is connected with turbine 11, motor 5 welds the both sides at quick-witted case 1 outer wall respectively, temperature sensing equipment 4 has been seted up to one side of quick-witted case 1 outer wall, machine case 1 is connected with the transfer box 3 through the operation box 2 of welding at its top.

In this embodiment, as shown in fig. 5, the protection mechanism 7 includes a fixed base 701, a driving bevel gear 702, a driven bevel gear 703, a connecting rod 704 and a metal slide block 705, the driving bevel gear 702 forms a rotation mechanism through a rotation shaft 9 and an output shaft of the motor 5, and the driving bevel gear 702 is in meshing connection with the driven bevel gear 703, and meanwhile, the driven bevel gear 703 is fixedly connected with a worm 10 penetrating through the metal slide block 705 through the rotation shaft 9, the worm 10 is in meshing connection with a turbine 11 formed on the outer wall of the metal slide block 705, the turbine 11 and the connecting rod 704 form a movable structure, and the metal slide block 705 forms a sliding structure with the fixed base 701 through the worm 10 and the turbine 11, the motor 5 drives the driving bevel gear 702 to rotate so as to drive the driven bevel gear 703 to rotate, and the worm 10 connected with the driven bevel gear 703 simultaneously rotates through the rotation shaft 9, and meanwhile, because the worm 11 is connected with the connecting rod 704 on one side of the metal slide block, the turbine 11 drives the metal slide block 705 to slide up and down at the fixed base, and when the metal slide block 705 slides to the bottom, the metal slide block 705 is disconnected from the receiving end 802, and the power-off effect is achieved.

In this embodiment, as shown in fig. 5, the transmission mechanism 8 includes an output end 801 and a receiving end 802, wires are disposed inside the output end 801 and the receiving end 802, the output end 801 is fixedly connected to the bottom of the metal slide 705, and the receiving end 802 is fixedly connected to the bottom of the operation box 2 and located above the metal slide 705, so that the output end 801 and the receiving end 802 can implement the power-on and power-off process through the metal slide 705.

In this embodiment, as shown in fig. 4, the heat dissipation mechanism 6 includes a universal joint 601 and a fan 602, and the tail end of the universal joint 601 is fixedly connected with the output shaft of the motor 5, and the universal joint 601 is movably connected with each other, meanwhile, the universal joint 601 at the top and the fan 602 form a rotating structure through the motor 5, after the protection mechanism 7 is opened, in order to ensure that the device can be rapidly put into use, the heat dissipation mechanism 6 is utilized to cool the interior of the device, and the motor 5 drives the plurality of groups of universal joints 601 to rotate so as to drive the fan 602 to rotate, thereby achieving the heat dissipation effect.

In this embodiment, as shown in fig. 5, the inner wall and the top of the operation box 2 are respectively provided with the first air outlet 201 and the first air inlet 203, and the inner top and the two sides of the inner wall of the operation box 2 are respectively provided with the heating plates 202, the front end of the operation box 2 is movably connected with a door of a lock core mechanism, so that the sealing performance of the inside can be ensured, and the heat cycle exchange is performed through the first air outlet 201 and the first air inlet 203, so that the curing effect reaches the ideal process.

In this embodiment, as shown in fig. 1 and 2, the temperature sensing device 4 includes a control unit 401 and a sensing element 402, where the sensing element 402 is disposed at the bottom of the inner wall of the operation box 2 in a penetrating manner, a temperature parameter is set by the control unit 401, one end of the control unit 401 is connected with a motor 5 for controlling the protection mechanism 7, when the sensing element 402 detects that the temperature is too high, information is transmitted to the control unit 401, and the control unit 401 drives the motor 5 to start the protection mechanism 7 to avoid potential safety hazards caused by continuous internal temperature rise.

In this embodiment, as shown in fig. 5, a fan 301 is welded to the bottom wall inside the conversion box 3, a second air inlet 302 and a second air outlet 303 are respectively provided on the inner wall and the top of the conversion box 3, and the second air inlet 302 and the first air outlet 201 and the second air outlet 303 and the first air inlet 203 are respectively connected through pipes, the fan 301 conveys internal hot air to the inside of the conversion box 3 through the first air outlet 201 and the second air inlet 302 by pipes, and then returns to the operation box 2 through the first air inlet 203 by pipes from the second air outlet 303, thereby completing the thermal cycle process of air draft and air supply in a closed space.

The application method and the advantages of the utility model are as follows: this curing oven with auto-power-off protective structure, when using, the working process is as follows:

As shown in fig. 1 to 5, firstly, the process of feeding and taking materials is realized by opening the handle at the front end of the operation box 2, the heating plate 202 heats and solidifies the internal raw materials, the fan 301 conveys the internal hot air to the inside of the conversion box 3 through the first air outlet 201 and the second air inlet 302 by pipelines, after the second air outlet 303 returns to the inside of the operation box 2 through the first air inlet 203 by pipelines, the thermal circulation process of air suction and air supply is completed in the closed space, when the sensing element 402 detects that the temperature is too high, the information is conveyed to the control unit 401, the control unit 401 drives the motor 5 to start the protection mechanism 7, the driving bevel gear 702 is driven by the motor 5 to rotate to drive the driven bevel gear 703 to rotate, the worm 10 connected with the driven bevel gear 703 simultaneously rotates through the rotation shaft 9, and simultaneously the rotation of the worm 10 drives the turbine 11, meanwhile, because the turbine 11 is connected with the connecting rod 704 on one side of the metal slide 705, the turbine 11 drives the metal slide 705 to slide on the fixed base, when the metal slide 705 slides to the bottom, the high temperature sensing element 402 detects that the temperature is too high, the temperature sensing element 402 conveys information to the control unit 401, the control unit 401 drives the temperature sensing element 5 to rotate to the temperature sensing element 6, the temperature sensing element is continuously, the temperature sensing element is driven by the temperature sensing element 401 is continuously, the temperature sensing element is continuously, the temperature sensing the temperature is continuously, the temperature sensing element is continuously detected, the temperature is lowered, the temperature is detected, the temperature is high, and the temperature is detected, and the temperature is high, and the temperature is stable.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present utility model, and are not intended to limit the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. Curing oven with auto-power-off protective structure, including quick-witted case (1), its characterized in that: the utility model discloses a temperature sensor device, including quick-witted case (1), including transmission mechanism (8), motor (5), heat dissipation mechanism (6), protection mechanism (7) have been seted up respectively to the inside of machine case (1), transmission mechanism (8) and protection mechanism (7), be connected through protection mechanism (7) between transmission mechanism (8), heat dissipation mechanism (6) are located one side of protection mechanism (7), the outside of heat dissipation mechanism (6) and protection mechanism (7) is fixed with motor (5) respectively, axis of rotation (9) and worm (10) have been seted up respectively to the inside of heat dissipation mechanism (6) and protection mechanism (7), worm (10) meshing respectively is connected with turbine (11), both sides at machine case (1) outer wall are welded respectively to motor (5), temperature sensor device (4) have been seted up to one side of machine case (1) outer wall, machine case (1) are connected with transfer box (3) through operation box (2) of welding at its top.

2. The curing oven with automatic power-off protection structure according to claim 1, wherein: the protection mechanism (7) comprises a fixed base (701), a driving conical gear (702), a driven conical gear (703), a connecting rod (704) and a metal sliding block (705), wherein the driving conical gear (702) forms a rotating mechanism through a rotating shaft (9) and an output shaft of a motor (5), the driving conical gear (702) is meshed and connected with the driven conical gear (703), meanwhile, the driven conical gear (703) penetrates through a worm (10) outside the metal sliding block (705) through the rotating shaft (9) in a fixed mode, the worm (10) is meshed and connected with a turbine (11) arranged on the outer wall of the metal sliding block (705), the turbine (11) and the connecting rod (704) form a movable structure, and the metal sliding block (705) forms a sliding structure with the fixed base (701) through the worm (10) and the turbine (11).

3. The curing oven with automatic power-off protection structure according to claim 1, wherein: the transmission mechanism (8) comprises an output end (801) and a receiving end (802), wires are arranged in the output end (801) and the receiving end (802), the output end (801) is fixedly connected to the bottom of the metal sliding block (705), and the receiving end (802) is fixedly connected to the bottom of the operation box (2) and located above the metal sliding block (705).

4. The curing oven with automatic power-off protection structure according to claim 1, wherein: the heat dissipation mechanism (6) comprises a universal joint (601) and a fan (602), the tail end of the universal joint (601) is fixedly connected with the output shaft of the motor (5), the universal joint (601) is movably connected, and meanwhile, the universal joint (601) at the top and the fan (602) form a rotating structure through the motor (5).

5. The curing oven with automatic power-off protection structure according to claim 1, wherein: the inner wall and the top of the operation box (2) are respectively provided with a first air outlet (201) and a first air inlet (203), and the inner top and the two sides of the inner wall of the operation box (2) are respectively provided with heating plates (202).

6. The curing oven with automatic power-off protection structure according to claim 1, wherein: the temperature sensing device (4) comprises a control unit (401) and a sensing element (402), and the sensing element (402) is arranged at the bottom of the inner wall of the operation box (2) in a penetrating mode.

7. The curing oven with automatic power-off protection structure according to claim 1, wherein: the fan (301) is welded on the bottom wall inside the conversion box (3), the second air inlet (302) and the second air outlet (303) are respectively formed in the inner wall and the top of the conversion box (3), and the second air inlet (302) is connected with the first air outlet (201) and the second air outlet (303) is connected with the first air inlet (203) through pipelines respectively.