CN216026000U

CN216026000U - Energy-efficient high temperature infrared curing device

Info

Publication number: CN216026000U
Application number: CN202122376628.XU
Authority: CN
Inventors: 杨明华
Original assignee: Dongguan Heying Automation Technology Co ltd
Current assignee: Dongguan Heying Automation Technology Co ltd
Priority date: 2021-09-29
Filing date: 2021-09-29
Publication date: 2022-03-15
Anticipated expiration: 2031-09-29

Abstract

The utility model relates to the technical field of curing devices, in particular to a high-efficiency energy-saving high-temperature infrared curing device which (1) adopts a two-layered working chamber area, can enlarge the working range and can work simultaneously or in a distributed way: (2) a heat conduction circulating mechanism is arranged between the two working chambers, so that when one working chamber is subjected to heat dissipation treatment, heat can be transferred to the other working chamber, the full utilization of energy is ensured, the loss is reduced, and the energy circulation energy-saving effect is obtained; (3) the workpiece placed in the working chamber can be subjected to rotary treatment, so that the number of infrared heating mechanisms for infrared heating and thermosetting can be reduced, and the workpiece can be sufficiently heated in the infrared heating process; (3) the heating and curing effect of the workpiece can ensure the stability of the workpiece during rotation and movement, and the curing result is better; (4) the infrared heating mode of the inner layer and the outer layer is adopted, so that the heating range of the workpiece is wider, the effect is better, and the steps of subsequent treatment are saved.

Description

Energy-efficient high temperature infrared curing device

Technical Field

The utility model relates to the technical field of curing devices, in particular to a high-efficiency energy-saving high-temperature infrared curing device.

Background

Curing refers to a production process of heating, curing and drying parts used for enhancing the stress of material combination in the electronic industry and other various industries. The container for curing is a curing oven;

most of curing methods in the prior art can only complete heating and curing of a local direction of a workpiece, and some curing devices can perform curing of another part in order to achieve multidirectional heating and curing by adopting manual methods or after curing of one part of directions is completed, so that the efficiency is low, the energy-saving effect cannot be achieved, unnecessary cost and resources are wasted, and therefore, an efficient and energy-saving high-temperature infrared curing device can be introduced for use.

SUMMERY OF THE UTILITY MODEL

The present invention aims to overcome the above-mentioned shortcomings and provide a technical solution to solve the above-mentioned problems.

The utility model provides an energy-efficient high temperature infrared curing device, includes the curing oven body, its characterized in that: the curing oven body comprises a first working chamber and a second working chamber, and the first working chamber is arranged at the upper end of the second working chamber; a heat conduction circulating mechanism is arranged between the first working chamber and the second working chamber; a first infrared heating mechanism, a first annular rotating mechanism and a first workpiece placing assembly are arranged in the first working chamber; a second infrared heating mechanism, a second annular rotating mechanism and a second workpiece placing assembly are arranged in the second working chamber; the heat conduction circulation mechanism comprises a connecting conduit which is communicated with the first working chamber and the second working chamber; a fan capable of rotating forward and backward is arranged in the connecting conduit; and a heat conduction controller electrically connected with the fan is arranged outside the curing oven body.

Further, the first infrared heating mechanism comprises a first main infrared heating group and a first auxiliary infrared heating group; the first main infrared heating group is arranged in the center of the interior of the curing oven body, and the first auxiliary infrared heating group is arranged on the side wall of the curing oven body.

Furthermore, the first annular rotating mechanism comprises a first rotating base in an annular shape, the first rotating base is installed between the first main infrared heating group and the first auxiliary infrared heating group, and a first rotating group is arranged in the first rotating base; the first workpiece placing assembly comprises a plurality of first stand columns, the first stand columns are arranged at the upper end of the first rotating group in an array mode, a first assembly part connected with each other is arranged between every two adjacent first stand columns, and a first clamping piece is arranged on the first assembly part.

Further, the second infrared heating mechanism comprises a second main infrared heating group and a second auxiliary infrared heating group; the second main infrared heating group is arranged in the center of the interior of the curing oven body, and the second auxiliary infrared heating group is arranged on the side wall of the curing oven body.

Furthermore, the second annular rotating mechanism comprises a second rotating base in an annular shape, the second rotating base is installed between the second main infrared heating group and the second auxiliary infrared heating group, and a second rotating group is arranged in the second rotating base; the second workpiece placing assembly comprises a plurality of second stand columns, a plurality of second stand column arrays are installed at the upper end of the second rotating group, a second assembly part connected with each other is arranged between every two adjacent second stand columns, and a second clamping part is arranged on the second assembly part.

Furthermore, a temperature probe is arranged in the curing oven body, a temperature controller is arranged on the curing oven body, and the temperature controller is connected with the first infrared heating mechanism and the second infrared heating mechanism.

Furthermore, a layer of heat insulation layer is arranged in each of the first working chamber and the second working chamber.

Furthermore, a display panel, a function key and a signal indicator lamp are arranged on the surface layer of the curing oven.

The utility model has the beneficial effects that: (1) the two-layered working chamber area is adopted, so that the working range can be expanded, and the working can be carried out simultaneously or in a distributed manner: (2) a heat conduction circulating mechanism is arranged between the two working chambers, so that when one working chamber is subjected to heat dissipation treatment, heat can be transferred to the other working chamber, the full utilization of energy is ensured, the loss is reduced, and the energy circulation energy-saving effect is obtained; (3) the workpiece placed in the working chamber can be subjected to rotary treatment, so that the number of infrared heating mechanisms for infrared heating and thermosetting can be reduced, and the workpiece can be sufficiently heated in the infrared heating process; (3) the heating and curing effect of the workpiece can ensure the stability of the workpiece during rotation and movement, and the curing result is better; (4) the infrared heating mode of the inner layer and the outer layer is adopted, so that the heating range of the workpiece is wider, the effect is better, and the steps of subsequent treatment are saved.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the internal structure of the present invention.

Fig. 3 is a top view of the installation positions of the first infrared heating mechanism and the first ring rotating mechanism.

The attached figures in the drawing are respectively marked as follows: a curing oven body-1, a first working chamber-11, a second working chamber-12, a heat conduction circulating mechanism-2, a first infrared heating mechanism-3, a first annular rotating mechanism 4, a first workpiece placing assembly-5, a second infrared heating mechanism-6, a second annular rotating mechanism-7, a second workpiece placing assembly-8, a connecting conduit-21, a fan-22, a heat conduction controller-23, a first main infrared heating group-31, a first auxiliary infrared heating group-32, a first rotating base-41, a first rotating group-42, a first upright post-51, a first assembly-52, a first clamping piece-53, a second main infrared heating group-61, a second auxiliary infrared heating group-62, a second rotating base-71, a second rotating group-72, A second upright column-81, a second assembly-82, a second clamping piece-83, a temperature probe-13, a temperature controller-14, a heat insulation layer-15, a display panel-16, a function key-17 and a signal indicator lamp-18.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all 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.

Referring to fig. 1 to 3, an efficient energy-saving high-temperature infrared curing device includes a curing oven body 1, and is characterized in that: the curing oven body 1 comprises a first working chamber 11 and a second working chamber 12, wherein the first working chamber 11 is arranged at the upper end of the second working chamber 12; a heat conduction circulating mechanism 2 is arranged between the first working chamber 11 and the second working chamber 12; a first infrared heating mechanism 3, a first annular rotating mechanism 4 and a first workpiece placing assembly 5 are arranged in the first working chamber 11; a second infrared heating mechanism 6, a second annular rotating mechanism 7 and a second workpiece placing assembly 8 are arranged in the second working chamber 12; wherein the heat conduction circulation mechanism 2 comprises a connecting conduit 21, and the connecting conduit 21 is communicated with the first working chamber 11 and the second working chamber 12; a fan 22 capable of rotating forward and backward is arranged in the connecting conduit 21; a heat conduction controller 23 electrically connected with a fan 22 is arranged outside the curing oven body 1, and the device adopts two layered working chamber areas of a first working chamber 11 and a second working chamber 12, so that the working range of the device can be enlarged, and the device can work simultaneously or in a distributed manner; meanwhile, under the action of the heat conduction circulating mechanism 2, when heat dissipation treatment is carried out after one working chamber is cured, heat can be transferred to the other working chamber for curing treatment, so that an energy circulation and energy saving effect is achieved, the first infrared heating mechanism 3, the first annular rotating mechanism 4 and the first workpiece placing assembly 5 in the first working chamber 11 can respectively achieve infrared heating treatment, workpieces are placed and rotate circularly, the heating and curing effects are better, the curing stability is guaranteed, the joint of the bonding material is better, and similarly, the corresponding effects can be achieved under the combined action of the second infrared heating mechanism 6, the second annular rotating mechanism 7 and the second workpiece placing assembly 8 in the second working chamber 12.

The first infrared heating mechanism 3 comprises a first main infrared heating group 31 and a first auxiliary infrared heating group 32; the first main infrared heating group 31 is arranged at the central position inside the curing oven body 1, and the first auxiliary infrared heating group 32 is arranged on the side wall of the curing oven body 1; under the combined action of the first main infrared heating group 31 and the first auxiliary infrared heating group 32, the workpieces placed in the first working chamber 11 can be heated and cured in a wide range.

The first annular rotating mechanism 4 comprises a first rotating base 41 in an annular shape, the first rotating base 41 is installed between the first main infrared heating group 31 and the first auxiliary infrared heating group 32, and a first rotating group 42 is arranged inside the first rotating base 41; the first workpiece placing assembly 5 comprises a plurality of first upright columns 51, the plurality of first upright columns 51 are arranged at the upper ends of the first rotating groups 42 in an array manner, first assembling pieces 52 connected with each other are arranged between the adjacent first upright columns 51, and first clamping pieces 53 are arranged on the first assembling pieces 52; under the combined action of the first assembly 52 and the first clamping member 53 between the adjacent first upright posts 51, the workpiece can be placed in the first working chamber 11, and the first workpiece placing assembly 5 is driven by the first rotating group 42 to rotate, so that the effect of the first workpiece placing assembly 5 in the curing process matched with the first infrared heating mechanism 3 is better.

The second infrared heating mechanism 6 comprises a second main infrared heating group 61 and a second auxiliary infrared heating group 62; the second main infrared heating group 61 is arranged at the central position in the curing oven body 1, and the second auxiliary infrared heating group 62 is arranged on the side wall of the curing oven body 1; under the combined action of the second main infrared heating group 61 and the second auxiliary infrared heating group 62, the workpieces placed in the second working chamber 12 can be heated and cured in a wide range.

The second annular rotating mechanism 7 comprises a second rotating base 71 in an annular shape, the second rotating base 71 is installed between the second main infrared heating group 61 and the second auxiliary infrared heating group 62, and a second rotating group 72 is arranged inside the second rotating base 71; the second workpiece placing assembly 8 comprises a plurality of second upright columns 81, the plurality of second upright columns 81 are arranged at the upper ends of the second rotating groups 72 in an array manner, second assembly parts 82 connected with each other are arranged between the adjacent second upright columns 81, and second clamping parts 83 are arranged on the second assembly parts 82; under the combined action of the second assembly 82 and the second clamping member 83 between the adjacent second upright columns 81, the workpiece can be placed in the second working chamber 12, and the second workpiece placing assembly 8 is driven by the second rotating group 72 to rotate, so that the effect of the second workpiece placing assembly 8 in the curing process matched with the second infrared heating mechanism 6 is better.

A temperature probe 13 is also arranged in the curing oven body 1, a temperature controller 14 is simultaneously arranged on the curing oven, and the temperature controller 14 is simultaneously connected with the first infrared heating mechanism 3 and the second infrared heating mechanism 6; the temperature in the first working chamber 11 and the second working chamber 12 can be detected under the action of the temperature probe 13, and the infrared heating intensity of the first infrared heating mechanism 3 and the second infrared heating mechanism 6 can be adjusted and controlled under the action of the temperature controller 14.

A layer of heat insulation layer 15 is arranged in each of the first working chamber 11 and the second working chamber 12, and under the action of the heat insulation layer 15, isolation of energy can be guaranteed, so that the energy is fully utilized.

The surface layer of the curing oven is provided with a display panel 16, a function key 17 and a signal indicator light 18; data observation and function operation can be realized through the control panel and the function keys 17, and the signal indicator lamp 18 can send out corresponding indication signals.

Under the action of the heat conduction controller 23, the fan 22 can rotate forward and backward, so that the heat in the first working chamber 11 and the second working chamber 12 can be correspondingly switched between the heat dissipation effect and the heat conduction effect, and the energy utilization effect is achieved.

Although the present invention has been described with reference to the above preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. The utility model provides an energy-efficient high temperature infrared curing device, includes the curing oven body, its characterized in that: the curing oven body comprises a first working chamber and a second working chamber, and the first working chamber is arranged at the upper end of the second working chamber; a heat conduction circulating mechanism is arranged between the first working chamber and the second working chamber;

a first infrared heating mechanism, a first annular rotating mechanism and a first workpiece placing assembly are arranged in the first working chamber; a second infrared heating mechanism, a second annular rotating mechanism and a second workpiece placing assembly are arranged in the second working chamber;

the heat conduction circulation mechanism comprises a connecting conduit which is communicated with the first working chamber and the second working chamber; a fan capable of rotating forward and backward is arranged in the connecting conduit; and a heat conduction controller electrically connected with the fan is arranged outside the curing oven body.

2. An energy-efficient high-temperature infrared curing apparatus as set forth in claim 1, wherein: the first infrared heating mechanism comprises a first main infrared heating group and a first auxiliary infrared heating group; the first main infrared heating group is arranged in the center of the interior of the curing oven body, and the first auxiliary infrared heating group is arranged on the side wall of the curing oven body.

3. An energy-efficient high-temperature infrared curing device as set forth in claim 2, wherein: the first annular rotating mechanism comprises a first rotating base in an annular shape, the first rotating base is installed between the first main infrared heating group and the first auxiliary infrared heating group, and a first rotating group is arranged in the first rotating base;

the first workpiece placing assembly comprises a plurality of first stand columns, the first stand columns are arranged at the upper end of the first rotating group in an array mode, a first assembly part connected with each other is arranged between every two adjacent first stand columns, and a first clamping piece is arranged on the first assembly part.

4. An energy-efficient high-temperature infrared curing apparatus as set forth in claim 1, wherein: the second infrared heating mechanism comprises a second main infrared heating group and a second auxiliary infrared heating group; the second main infrared heating group is arranged in the center of the interior of the curing oven body, and the second auxiliary infrared heating group is arranged on the side wall of the curing oven body.

5. The high-efficiency energy-saving high-temperature infrared curing device as claimed in claim 4, wherein: the second annular rotating mechanism comprises a second rotating base in an annular shape, the second rotating base is installed between the second main infrared heating group and the second auxiliary infrared heating group, and a second rotating group is arranged in the second rotating base;

the second workpiece placing assembly comprises a plurality of second stand columns, a plurality of second stand column arrays are installed at the upper end of the second rotating group, a second assembly part connected with each other is arranged between every two adjacent second stand columns, and a second clamping part is arranged on the second assembly part.

6. An energy-efficient high-temperature infrared curing apparatus as set forth in claim 1, wherein: the curing oven is characterized in that a temperature probe is further arranged inside the curing oven body, a temperature controller is arranged on the curing oven body, and the temperature controller is connected with the first infrared heating mechanism and the second infrared heating mechanism at the same time.

7. An energy-efficient high-temperature infrared curing apparatus as set forth in claim 1, wherein: and the first working chamber and the second working chamber are internally provided with a layer of heat insulation layer.

8. An energy-efficient high-temperature infrared curing apparatus as set forth in claim 1, wherein: the surface layer of the curing oven is provided with a display panel, a function key and a signal indicator light.