CN117339852A - Coating drying equipment of electrodeless lamp source double-cooling system - Google Patents

Abstract

The application relates to the technical field of drying equipment, in particular to coating drying equipment of an electrodeless lamp source double-cooling system, which comprises a case main body; the heating mechanism is arranged on the case main body and has the stepless light adjusting function, and the heating mechanism is used for drying products; the conveying mechanism is arranged on the case main body, and the heating mechanism is arranged towards the conveying mechanism; the double cooling mechanism is connected with the heating mechanism and is used for absorbing heat of the heating mechanism body. By adopting the scheme, through setting up heating mechanism and the double cooling mechanism that have stepless dimming function, can improve current UV desiccator when carrying out the drying, need use the UV lamp of more multiunit to carry out the drying, lead to the whole length of equipment longer, occupation space is bigger, and when carrying out the drying operation, the temperature of equipment is too high relatively yet, leads to the problem that equipment is difficult to long-time operation.

Description

Coating drying equipment of electrodeless lamp source double-cooling system

Technical Field

The application relates to the technical field of drying equipment, in particular to coating drying equipment of a double-cooling system of an electrodeless lamp source.

Background

A UV dryer is an apparatus for drying using ultraviolet radiation. It mainly comprises ultraviolet lamp tube, reflector, conveyor belt, etc. In a UV dryer, ultraviolet light is emitted from an ultraviolet lamp, and the ultraviolet light irradiates the surface of the object to be treated, thereby rapidly drying the object.

The working principle of the UV dryer is that the energy of ultraviolet radiation is utilized to quickly volatilize the solvent or moisture in the liquid materials such as paint, ink and the like on the surface of an object, so that the aim of quick drying is fulfilled. The ultraviolet rays have the characteristics of high energy and high activity, and can convert solvent or moisture in the liquid material into gas in a very short time, thereby realizing rapid drying.

UV dryers are widely used in many industries, such as printing, painting, electronics, plastics, and the like. The method has the advantages of high drying speed, low energy consumption, environmental protection, no pollution and the like; the use of UV dryers requires care for safety, as ultraviolet light has some harm to the human body. Protective glasses need to be worn during operation and care is taken to avoid direct exposure to ultraviolet light.

The existing UV dryer is used for drying the workpiece by sequentially heating and drying the workpiece. The lamp box heat radiation fan and the lamp set heat radiation fan can adjust the drying temperature of the workpiece to achieve the best effect, and the heat radiation filter filters the gas in the dryer and then discharges the gas outside the dryer, so that the safety and environmental protection of the dryer are ensured.

However, the existing UV dryer needs to use a plurality of groups of UV lamps to perform drying when performing drying, resulting in a longer overall length of the device, a larger occupied space, and a relatively high temperature of the device when performing drying operation, which makes it difficult to operate the device for a long time.

Disclosure of Invention

In order to improve current UV desiccator when carrying out the drying, need use the UV lamp of more multiunit to carry out the drying, lead to the whole length of equipment longer, occupation space is bigger, and when carrying out the drying operation, the temperature of equipment is also too high relatively, leads to the problem that equipment is difficult to long-time operation, this application provides an electrodeless lamp source double cooling system's coating drying equipment.

The application provides a coating drying equipment of electrodeless lamp source double cooling system, adopts following technical scheme:

a paint drying device of an electrodeless lamp source double-cooling system comprises

A case main body;

the heating mechanism is arranged on the case main body, has a stepless dimming function and is used for drying products;

the conveying mechanism is arranged on the case main body, and the heating mechanism is arranged towards the conveying mechanism;

the double cooling mechanism is connected with the heating mechanism and is used for absorbing heat of the heating mechanism body.

By adopting the technical scheme, the coated product is placed in the conveying mechanism, the conveying mechanism drives the product to approach to the heating mechanism, the coating is dried after the product is heated by the heating mechanism, meanwhile, in the working process of the heating mechanism, the service life of the heating mechanism is easy to be reduced due to overhigh heat generated by the heating mechanism, and the double-cooling mechanism takes away the self heat, so that the service life of the double-cooling mechanism is prolonged; by adopting the scheme, through setting up heating mechanism and the double cooling mechanism that have stepless dimming function, can improve current UV desiccator when carrying out the drying, need use the UV lamp of more multiunit to carry out the drying, lead to the whole length of equipment longer, occupation space is bigger, and when carrying out the drying operation, the temperature of equipment is too high relatively yet, leads to the problem that equipment is difficult to long-time operation.

Optionally, the heating mechanism comprises

The electrodeless lamp source main body is used for bearing load;

the electrodeless lamp source is arranged in the electrodeless lamp source main body, and the electrodeless lamp source main body is slidably arranged on the case main body;

the electrodeless lamp source main body is provided with a lamp source port, the lamp source port faces the conveying mechanism, and the lamp source port is used for allowing light of the electrodeless lamp source to pass through.

By adopting the technical scheme, the electrodeless lamp source outputs heat to the product through the lamp source opening, so that the product is dried; the electrodeless lamp source has the characteristics of stepless dimming, small volume, more changeable shape of the bulb shape of the electrodeless lamp source and the like; by utilizing the characteristics, the brightness of the electrodeless lamp source can be adjusted according to the product drying requirement, the output heat is changed, the drying of the product is realized, and compared with the situation that the output heat is required to be increased by the UV lamp groups, the quantity of the lamp groups is required to be increased, so that the whole volume of the equipment is reduced.

Optionally, a lifting driving mechanism is arranged on the case main body, one end of the lifting driving mechanism is connected with the case main body, and the other end of the lifting driving mechanism is connected with the electrodeless lamp source main body; the lifting driving component is used for driving the electrodeless lamp source main body to lift.

Through adopting above-mentioned technical scheme, lift actuating mechanism drive electrodeless lamp source main part goes up and down to adjust the interval between electrodeless lamp source and the conveying mechanism, realize the regulation of drying dynamics, improve the suitability.

Optionally, the lifting driving mechanism comprises a lifting deceleration component, the lifting deceleration component is rotatably installed on the case main body, one end of the lifting deceleration component is fixedly connected with the electrodeless lamp source main body, and at least two groups of lifting deceleration components are arranged;

the lifting and decelerating component is rotatably arranged on the case main body and is used for driving the electrodeless lamp source main body to lift, and at least two groups of lifting and decelerating components are arranged;

the transmission part is rotatably arranged on the case main body, and two ends of the transmission part are respectively in transmission connection with a group of lifting speed reduction parts;

the adjusting part is in transmission connection with the lifting speed reducing part, and the adjusting part is fixedly connected with the transmission part.

By adopting the technical scheme, when the distance between the electrodeless lamp source and the conveying mechanism is required to be adjusted, the adjusting part is rotated, the adjusting part drives the lifting speed reducing part and the transmission part to rotate respectively, and the transmission part drives the other group of lifting speed reducing parts to rotate, so that the main body of the electrodeless lamp source is driven to lift, the adjustment of the height of the electrodeless lamp source is realized, the temperature of different products required to be dried is adapted, and the quality of the products is ensured.

Optionally, the dual cooling mechanism includes

A condensing part for outputting cool air;

the condensing part is provided with a condensing port; the electrodeless lamp source main body is provided with a cavity, and the condensation port is communicated with the cavity of the electrodeless lamp source main body; the electrodeless lamp source is positioned in the cavity.

By adopting the technical scheme, cold air output by the condensing part enters the cavity of the electrodeless lamp source main body through the condensing port, and the cold air entering the cavity takes away heat generated by the electrodeless lamp source, so that the body temperature of the electrodeless lamp source is kept at a lower temperature, and the service life of the electrodeless lamp source is prolonged.

Optionally, the dual cooling mechanism further comprises

A liquid cooling member mounted to one side of the cabinet body, the liquid cooling member being configured to supply a cooling liquid;

and the transmission component is respectively connected with the liquid cooling component and the condensing component and is used for transmitting cooling liquid.

By adopting the technical scheme, the characteristics of larger heat capacity, low noise, energy conservation, environmental protection and good stability of the cooling liquid are utilized, the liquid cooling component and the transmission component are arranged, the liquid cooling component supplies the cooling liquid to the transmission component, the cooling liquid takes away the heat of the condensation component, the body temperature of the condensation component is reduced, and the temperature of cold air blown out by the condensation component is lower, so that the cooling is realized, the electrodeless lamp source is cooled by combining the liquid cooling mode and the air cooling mode, the heat generated by the electrodeless lamp source is better absorbed, and the service life of the electrodeless lamp source is prolonged; the problem that the existing lamp source is single in heat dissipation, low in cooling strength and low in sealing performance can be solved.

Optionally, the conveying mechanism comprises

The driving part is rotatably arranged on the case main body;

the driven part is rotatably arranged on the case main body;

the bearing component is respectively wound on the driving component and the driven component and is used for bearing products;

the bearing part has tension;

and the driving part is arranged on the case body and connected with the driving part, and the driving part is driven to rotate relative to the case body.

Through adopting above-mentioned technical scheme, drive part drive initiative part rotates, and initiative part drives the carrier part and rotates, and the carrier part drives driven part and rotates, and driven part is used for further supporting carrier part and supplementary its rotation steadily, drives the product and for the displacement of machine case main part after the carrier part rotates for the product is to heating mechanism displacement, realizes automatic stoving, improves work efficiency.

Optionally, the case main body is provided with a fine tuning seat, the fine tuning seat is fixedly installed on the case main body, and two ends of the driven component are respectively connected with one fine tuning seat;

the fine adjustment seat is provided with a fine adjustment component, the fine adjustment component sequentially penetrates through the fine adjustment seat and the driven component, and the fine adjustment component is respectively in threaded connection with the fine adjustment seat and the driven component; the fine adjustment component is used for adjusting the position of the driven component;

the fine adjustment seat is provided with a sliding part, two ends of the driven part are respectively inserted into the sliding part, and the driven part is connected with the sliding part in a sliding way.

Through adopting above-mentioned technical scheme, when needing to adjust bearing member's rate of tension, rotate the fine setting part, fine setting part is for the fine setting seat displacement, simultaneously, the fine setting part drives driven part displacement, through the position that changes driven part to adjust bearing member's rate of tension, make it keep the preferred fastening state, ensure its stability and reliability.

Optionally, an air exhausting component is arranged on the case main body, the air exhausting component is located at one side of the heating mechanism, and the air exhausting component is arranged towards the conveying mechanism; the air suction member is used for giving negative pressure to the chassis main body.

Through adopting above-mentioned technical scheme, the updraft ventilator can be through giving the chassis main part negative pressure for the heat that the lamp source main part given off is taken away, thereby reduces the temperature of electrodeless lamp source main part, prolongs its life.

Optionally, transition parts are respectively arranged at two ends of the case main body, and the transition parts are in transmission connection with the driving part through a linkage part, and/or the transition parts are in transmission connection with the driven part through a linkage part.

Through adopting above-mentioned technical scheme, when the product got into conveying mechanism, driving part and driven part drove the transition part at both ends respectively and rotate to guide the product to get into conveying mechanism and break away from conveying mechanism, reduce the product and when getting into conveying mechanism or break away from conveying mechanism, the problem that drops the ground appears.

In summary, the present application has the following beneficial effects:

1. through setting up heating mechanism and the double cooling mechanism that have stepless dimming function, can improve current UV desiccator when carrying out the drying, need use the UV lamp of more multiunit to carry out the drying, lead to the whole length of equipment longer, occupation space is bigger, and when carrying out the drying operation, the temperature of equipment is also too high relatively, leads to the problem that equipment is difficult to long-time operation.

2. The electrodeless lamp source has the characteristics of stepless dimming, small volume, more changeable shape of the bulb shape of the electrodeless lamp source and the like; by utilizing the characteristics, the brightness of the electrodeless lamp source can be adjusted according to the product drying requirement, the output heat is changed, the drying of the product is realized, and compared with the situation that the output heat is required to be increased by the UV lamp groups, the quantity of the lamp groups is required to be increased, so that the whole volume of the equipment is reduced.

3. Through setting up lift speed reduction part, drive unit and adjusting part, can drive electrodeless lamp source main part and go up and down, realize the regulation of electrodeless lamp source height, adapt to the required stoving temperature of different products, guarantee the quality of product.

4. Through setting up the condensation part, cold wind that condensation part output gets into the cavity of electrodeless lamp source main part through the condensation mouth, and the generated heat of electrodeless lamp source is taken away to cold wind that gets into the cavity to make the body temperature of electrodeless lamp source keep at lower temperature, make the life extension of electrodeless lamp source.

5. The heat capacity of the cooling liquid is larger than that of air, the noise is low, the energy is saved, the environment is protected, and the stability is good; the problem that the existing lamp source is single in heat dissipation, low in cooling strength and low in sealing performance can be solved.

6. Through setting up transition part, when the product got into conveying mechanism, driving part and driven part drove the transition part at both ends respectively and rotate to guide the product to get into conveying mechanism and break away from conveying mechanism, reduce the product and when getting into conveying mechanism or breaking away from conveying mechanism, the problem that drops ground appears.

Drawings

Fig. 1 is an overall view of a paint drying apparatus of a dual cooling system for an electrodeless lamp source of the present embodiment;

FIG. 2 is a cross-sectional view of a paint drying apparatus of the electrodeless lamp source dual cooling system of the present embodiment;

FIG. 3 is a partial structural view of a paint drying apparatus of a dual cooling system for an electrodeless lamp source of the present embodiment;

FIG. 4 is an enlarged view of area A of FIG. 3;

fig. 5 is a structural view of a liquid cooling member in a paint drying apparatus of a dual cooling system for an electrodeless lamp source of the present embodiment;

FIG. 6 is an enlarged view of region B of FIG. 3;

fig. 7 is a structural view of a conveying mechanism in a paint drying apparatus of an electrodeless lamp source double cooling system of the embodiment.

Reference numerals illustrate:

1. a case main body; 11. a filter screen set; 12. a heat radiation fan; 2. a heating mechanism; 21. an electrodeless lamp source main body; 210. a cavity; 211. a light source port; 22. an electrodeless lamp source; 3. a lifting driving mechanism; 31. a speed reducer base; 32. a lifting speed reducing component; 33. a transmission member; 330. lifting the rocker; 331. a first gear; 332. a second gear; 34. an adjusting member; 4. a double cooling mechanism; 41. a condensing part; 410. a condensing port; 42. a liquid cooling member; 420. a liquid cooling box; 421. a hydraulic pump; 43. a transmission member; 430. an inner water inlet; 431. an inner drain opening; 432. an outer water inlet; 433. an outer drain opening; 434. a tray; 5. a conveying mechanism; 51. an active component; 510. a driving shaft; 511. a drive gear; 52. a driven member; 53. a carrier member; 530. a chain with pins; 531. a sprocket; 532. a steel pipe; 54. a driving part; 540. a driving motor; 541. a transmission gear; 6. a fine adjustment seat; 61. a fine adjustment member; 7. a transition member; 71. a transition roller; 8. an air exhausting component; 81. an exhaust fan; 82. an air pumping barrel; 9. a linkage member; 92. and a linkage gear.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-7.

The embodiment of the application discloses coating drying equipment of an electrodeless lamp source double-cooling system, which is shown in fig. 1 and 2, and comprises a case main body 1, a heating mechanism 2, a conveying mechanism 5 and a double-cooling mechanism 4, wherein the heating mechanism 2 is arranged on the case main body 1; the conveying mechanism 5 is arranged on the case main body 1, and the heating mechanism 2 is arranged towards the conveying mechanism 5; the double cooling mechanism 4 is connected to the heating mechanism 2.

Referring to fig. 1 and 2, the heating mechanism 2 includes an electrodeless lamp source main body 21 and an electrodeless lamp source 22, the electrodeless lamp source main body 21 is slidably mounted on the case main body 1, the electrodeless lamp source main body 21 has a cavity 210, and the electrodeless lamp source 22 is mounted in the cavity 210; the electrodeless lamp source main body 21 is provided with a lamp source port 211, the lamp source port 211 is arranged towards the conveying mechanism 5, and the electrodeless lamp source 22 is arranged at the lamp source port 211.

Referring to fig. 1 and 2, in particular, the electrodeless lamp source 22 is embodied as a plurality of bulbs; a high-frequency generator and a coupler are installed in the case body 1, and the gas in the bulb is avalanche ionized by inductively coupling the electromagnetic field of the high-frequency generator into the bulb, thereby forming plasma. The plasma excited atoms radiate ultraviolet rays when returning to the ground state. The fluorescent powder on the inner wall of the bulb is excited by ultraviolet rays to generate visible light. The electrodeless lamp source 22 has the characteristics of stepless dimming, small volume, more changeable shape of the bulb shape of the electrodeless lamp source 22 and the like; by utilizing the characteristics, the brightness of the electrodeless lamp source 22 can be adjusted according to the product drying requirement, the output heat is changed, the drying of the product is realized, and compared with the case that the output heat is required to be increased by the UV lamp groups, the quantity of the lamp groups can be reduced by increasing the number of the groups, so that the whole volume of the equipment is reduced.

Referring to fig. 2 and 3, a lifting driving mechanism 3 is arranged on the case main body 1, one end of the lifting driving mechanism 3 is connected with the case main body 1, and the other end is connected with the electrodeless lamp source main body 21; the lifting driving mechanism 3 drives the electrodeless lamp source main body 21 to lift, so that the distance between the electrodeless lamp source 22 and the conveying mechanism 5 is adjusted, the drying force is adjusted, and the applicability is improved.

Referring to fig. 3 and 4, specifically, the elevation drive mechanism 3 includes a speed reducer base 31, an elevation deceleration part 32, a transmission part 33, and an adjustment part 34, the speed reducer base 31 being fixedly mounted on the casing main body 1; the lifting and decelerating component 32 is rotatably installed on the case body 1, and one end of the lifting and decelerating component 32 is fixedly connected with the electrodeless lamp source body 21 and is used for driving the electrodeless lamp source body 21 to lift; at least two groups of lifting and decelerating members 32 are provided; the transmission part 33 is rotatably arranged on the case main body 1, and two ends of the transmission part 33 are respectively connected with a group of lifting speed reduction parts 32 in a transmission way; the adjusting part 34 is rotatably installed on the case body 1, the adjusting part 34 is in transmission connection with a group of lifting and decelerating parts 32, the adjusting part 34 is fixedly connected with the transmission part 33, and the adjusting part 34 is used for driving the lifting and decelerating parts 32 to rotate and lift and driving the transmission part 33 to rotate.

Referring to fig. 3 and 4, specifically, the lifting and decelerating component 32 includes a lifting and decelerating machine, the lifting and decelerating machine is fixedly installed on the decelerating machine seat 31, the lifting and decelerating machine is mainly composed of a lifting screw, a worm wheel and a worm, the lifting screw is arranged on the lifting and decelerating machine body in a penetrating manner, the lifting screw is rotationally connected with the lifting and decelerating machine body, and one end of the lifting screw is fixedly connected with the electrodeless lamp source body 21; the worm wheel is fixedly sleeved on the lifting screw rod, the worm is rotatably arranged on the lifting speed reducer body, and the worm is meshed with the worm wheel; the adjustment member 34 is fixedly connected to the worm.

Referring to fig. 3 and 4, the transmission part 33 includes a lifting rocker 330, a first gear 331 and a second gear 332, the lifting rocker 330 is rotatably connected with the chassis body 1 through a bearing seat, two ends of the lifting rocker 330 are respectively fixedly sleeved with the first gear 331, and the second gear 332 is fixedly sleeved on the worm. The adjustment member 34 includes a hand wheel fixedly connected to the worm.

Referring to fig. 2 and 5, the dual cooling mechanism 4 includes a condensing part 41, a liquid cooling part 42, and a transferring part 43, the condensing part 41 having a condensing port 410, the condensing port 410 communicating with the cavity 210 of the electrodeless lamp source main body 21; the condensing unit 41 includes a condenser fixedly installed on the case body 1, and the condensing port 410 is disposed on the condenser, and an inner space of the condenser is communicated with the cavity 210 of the electrodeless lamp body through the condensing port 410, so that cold air enters the cavity 210 of the electrodeless lamp source 22 to take away heat emitted by the bulb.

Referring to fig. 2 and 5, a liquid cooling member 42 is attached to one side of the chassis main body 1, and a transmission member 43 is connected to the liquid cooling member 42; the transfer member 43 is disposed around the electrodeless lamp source main body 21.

Referring to fig. 2 and 5, specifically, the liquid cooling part 42 includes a liquid cooling tank 420 and a hydraulic pump 421, the liquid cooling tank 420 is installed on a horizontal ground surface of one side of the cabinet body 1, the liquid cooling tank 420 is used for storing cooling liquid, and the hydraulic pump 421 is used for pumping cold water in the liquid cooling tank 420; in this embodiment, the cooling liquid is specifically cold water.

Referring to fig. 2 and 5, the transfer part 43 includes an inner water inlet 430, an inner water outlet 431, an outer water inlet 432, an outer water outlet 433 and a tray 434, the tray 434 is fixedly installed on the cabinet body 1, the condenser is disposed in the tray 434, the inner water inlet 430 and the inner water outlet 431 are respectively disposed on the condenser, and the outer water inlet 432 and the outer water outlet 433 are respectively disposed on both ends of the tray 434; the hydraulic pump 421 pumps cold water from the liquid cooling tank 420 into the condenser from the inner water inlet 430 and into the tray 434 from the outer water inlet 432; cold water passes through the inner space of the condenser and the outer surface, and the cold water is discharged from the inner and outer discharge ports 431 and 433, so that the cold air blown out of the condenser is at a lower temperature, and the operating environment temperature of the bulb is maintained at a lower level, thereby prolonging the service life thereof.

Referring to fig. 2 and 6, a fine tuning seat 6 is provided on the chassis main body 1, the fine tuning seat 6 is fixedly installed on the chassis main body 1, and two ends of a driven shaft are respectively connected with one fine tuning seat 6; the fine adjustment seat 6 is provided with a sliding part, two ends of the driven shaft are respectively inserted into the sliding part, and the driven shaft is connected with the sliding part in a sliding way; the fine tuning seat is provided with a fine tuning component 61, the fine tuning component 61 is sequentially arranged on the fine tuning seat 6 and the driven shaft in a penetrating mode, and the fine tuning component 61 is respectively in threaded connection with the fine tuning seat 6 and the driven shaft.

Referring to fig. 6, specifically, the fine adjustment member 61 includes a tensioning screw, which is screwed with the fine adjustment seat 6 and the driven shaft, respectively; the sliding part is specifically a chute; by rotating the tensioning screw, the tensioning screw drives the driven shaft to slide, so that the tension of the pin chain 530 is adjusted, and the pin chain 530 cannot deviate or jump in the working process.

Referring to fig. 2 and 7, the conveying mechanism 5 includes a driving member 51, a driven member 52, a bearing member 53, and a driving member 54, the driving member 51, the driven member 52, and the bearing member 53 are rotatably mounted on the chassis main body 1, respectively, and the bearing member 53 is connected to the driving member 51 and the driven member 52, respectively; the driving member 54 is attached to the casing body 1, and the driving member 51 is connected to the driving member 54.

Referring to fig. 2 and 7, specifically, the driving part 51 includes a driving shaft 510 and a driving gear 511, both ends of the driving shaft 510 are rotatably connected with the case body 1 through bearing seats, respectively, and the driving gear 511 is sleeved on one end of the driving shaft 510. The driven member 52 includes a driven shaft, and both ends of the driven shaft are rotatably connected to the casing main body 1 through bearing blocks, respectively.

Referring to fig. 2 and 7, the driving part 54 includes a driving motor 540, a driving gear 541 and a synchronizing chain, the driving motor 540 is fixedly installed in the cabinet body 1, the driving gear 541 is fixedly connected with an output spindle of the driving motor 540, and the synchronizing chain is respectively engaged with the driving gear 541 and the driving gear 511.

Referring to fig. 2 and 7, the bearing part 53 includes a pin chain 530, a sprocket 531 and a plurality of steel pipes 532, the sprocket 531 is provided with at least four, and the chain is provided with at least two; in the embodiment, four sprockets 531 are arranged, two pin chains 530 are arranged, two sprockets 531 are respectively sleeved on the driving shaft 510 and the driven shaft, and each pin chain 530 is respectively meshed with the two sprockets 531; two ends of the steel pipes 532 are fixedly connected with the pin chains 530 respectively; the driving motor 540 drives the transmission gear 541 to rotate, the transmission gear 541 drives the driving gear 511 to rotate through the synchronous chain, the driving gear 511 drives the driving shaft 510 to rotate, the driving shaft 510 drives the sprocket 531 to rotate, the sprocket 531 drives the pin chain 530 to rotate, and the driven shaft also rotates along with the pin chain 530, so that a plurality of steel pipes 532 are driven to rotate, and conveying of products is achieved.

Referring to the body 3 and fig. 6, transition parts 7 are respectively arranged at two ends of the case body 1, and the transition parts 7 are in transmission connection with the driving shaft 510 through a linkage part 9, and/or the transition parts 7 are in transmission connection with the driven part 52 through the linkage part 9.

Referring to fig. 6, specifically, the transition member 7 includes a transition roller 71, and both ends of the transition roller 71 are respectively rotatably connected with the chassis main body 1 through bearing seats; the linkage part 9 comprises linkage gears, and the linkage gears are at least provided with four; in the embodiment, four linkage gears are provided, two transition rollers 71 are provided, one linkage gear is respectively sleeved on each of the transition rollers 71, the driving shaft 510 and the driven shaft, and the transition rollers 71 are respectively connected with the linkage gears on the driving shaft 510 and the linkage gears on the driven shaft through linkage chains; the driving motor 540 works, and the driving shaft 510 rotates, so that the transition roller 71 and the driven shaft are sequentially driven to rotate, the transition of products is realized, and the quantity of products falling to the ground is reduced.

Referring to fig. 6, the case body 1 is provided with an air extracting member 8, the air extracting member 8 is located at one side of the heating mechanism 2, and the air extracting member 8 is disposed toward the conveying mechanism 5; the air suction member 8 is used to apply negative pressure to the casing main body 1.

Referring to fig. 2 and 3, specifically, the air extracting member 8 includes an air extracting fan 81 and an air extracting drum 82, the air extracting fan 81 and the air extracting drum 82 are fixedly installed on the case body 1, the air extracting drum 82 is connected with an input end of the air extracting fan 81, the air extracting drum 82 has an opening, and the opening of the air extracting drum 82 is arranged towards a plurality of steel pipes 532; the exhaust fan 81 works, and heat generated by the electrodeless lamp source 22 and heat attached to the product by the electrodeless lamp source 22 are taken away, so that cooling is realized.

Referring to fig. 1 and 2, a filter screen group 11 and a radiator fan 12 are arranged on the side wall of a case body 1, the filter screen group 11 and the radiator fan 12 are sequentially and fixedly arranged on the case body 1, and the radiator fan 12 is positioned at one side of the inside of the case body 1; the filter screen group 11 serves to filter dust, reducing the amount of dust adhering to the cooling fan 12.

The working principle of the coating drying equipment of the electrodeless lamp source double-cooling system is as follows:

the coated product is placed in the conveying mechanism 5, the driving part 54 works, the driving motor 540 drives the transmission gear 541 to rotate, the transmission gear 541 drives the driving gear 511 to rotate through the synchronous chain, the driving gear 511 drives the driving shaft 510 to rotate, the driving shaft 510 drives the chain wheel 531 to rotate, the chain wheel 531 drives the pin chain 530 to rotate, and the driven shaft also rotates along with the chain wheel 531, so that a plurality of steel pipes 532 are driven to rotate, and the product is driven to approach the heating mechanism 2.

The electrodeless lamp source 22 works, light and heat generated by the bulb are emitted from the lamp source port 211, and the product is heated by the heating mechanism 2, and then the coating is dried.

Meanwhile, in the working process of the heating mechanism 2, the condensing part 41 and the liquid cooling part 42 work synchronously, cold air generated by the condenser enters the cavity 210 of the electrodeless lamp source 22 from the condensing port 410 to drive heat generated by the electrodeless lamp source 22; the hydraulic pump 421 pumps cold water from the liquid cooling tank 420 into the condenser from the inner water inlet 430 and into the tray 434 from the outer water inlet 432; cold water passes through the inner space of the condenser and the outer surface, and cold water is discharged from the inner and outer discharge ports 431 and 433, so that the cold air blown out of the condenser is at a lower temperature.

In addition, the exhaust part 8 works, the exhaust fan 81 endows the exhaust duct 82 with negative pressure, and heat generated by the electrodeless lamp source 22 and heat attached to the product by the electrodeless lamp source 22 are taken away, so that cooling is realized.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention, and are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a coating drying equipment of electrodeless lamp source double cooling system which characterized in that: comprising

A case body (1);

the heating mechanism (2) is arranged on the case main body (1), the heating mechanism (2) has a stepless dimming function, and the heating mechanism (2) is used for drying products;

the conveying mechanism (5), the conveying mechanism (5) is arranged on the case main body (1), and the heating mechanism (2) is arranged towards the conveying mechanism (5);

the double cooling mechanism (4), the double cooling mechanism (4) is connected with the heating mechanism (2), and the double cooling mechanism (4) is used for absorbing heat of the heating mechanism (2) body.

2. The paint drying apparatus of an electrodeless lamp source double cooling system as claimed in claim 1, wherein: the heating mechanism (2) comprises

An electrodeless lamp source main body (21), wherein the electrodeless lamp source main body (21) is used for bearing load;

the electrodeless lamp source (22) is arranged in the electrodeless lamp source main body (21), and the electrodeless lamp source main body (21) is slidably arranged on the case main body (1);

the electrodeless lamp source main body (21) is provided with a lamp source opening (211), the lamp source opening (211) faces the conveying mechanism (5), and the lamp source opening (211) is used for allowing light of the electrodeless lamp source (22) to pass through.

3. The paint drying apparatus of an electrodeless lamp source double cooling system as claimed in claim 2, wherein: a lifting driving mechanism (3) is arranged on the case main body (1), one end of the lifting driving mechanism (3) is connected with the case main body (1), and the other end of the lifting driving mechanism is connected with the electrodeless lamp source main body (21); the lifting driving component (54) is used for driving the electrodeless lamp source main body (21) to lift.

4. The paint drying apparatus of an electrodeless lamp source double cooling system as claimed in claim 3, wherein: the lifting driving mechanism (3) comprises

The lifting and decelerating component (32) is rotatably arranged on the case main body (1), the lifting and decelerating component (32) is used for driving the electrodeless lamp source main body (21) to lift, and at least two groups of lifting and decelerating components (32) are arranged;

the transmission component (33) is rotatably arranged on the case main body (1), and two ends of the transmission component (33) are respectively in transmission connection with a group of lifting speed reduction components (32);

the adjusting component (34) is rotatably arranged on the case body (1), the adjusting component (34) is in transmission connection with a group of lifting speed reducing components (32), and the adjusting component (34) is fixedly connected with the transmission component (33).

5. The paint drying apparatus of an electrodeless lamp source double cooling system as claimed in claim 2, wherein: the double cooling mechanism (4) comprises

A condensing part (41), wherein the condensing part (41) is used for outputting cold air;

the condensing part (41) is provided with a condensing port (410); the electrodeless lamp source main body (21) is provided with a cavity (210), and the condensation port (410) is communicated with the cavity (210) of the electrodeless lamp source main body (21); the electrodeless lamp source (22) is positioned in the cavity (210).

6. The paint drying apparatus of the electrodeless lamp source double cooling system of claim 5, wherein: the double cooling mechanism (4) further comprises

A liquid cooling member (42), wherein the liquid cooling member (42) is mounted on one side of the chassis main body (1), and the liquid cooling member (42) is used for supplying cooling liquid;

and a transmission member (43), wherein the transmission member (43) is connected to the liquid cooling member (42) and the condensing member (41), respectively, and the transmission member (43) is used for transmitting the cooling liquid.

7. The paint drying apparatus of an electrodeless lamp source double cooling system as claimed in claim 2, wherein: the conveying mechanism (5) comprises

A driving component (51), wherein the driving component (51) is rotatably installed on the case main body (1);

a driven member (52), wherein the driven member (52) is rotatably mounted on the chassis main body (1);

the bearing component (53) is respectively wound on the driving component (51) and the driven component (52), and the bearing component (53) is used for bearing products;

the bearing part (53) has a tension;

and the driving component (54) is arranged on the case main body (1), the driving component (54) is connected with the driving component (51), and the driving component (54) drives the driving component (51) to rotate relative to the case main body (1).

8. The paint drying apparatus of an electrodeless lamp source double cooling system as claimed in claim 7, wherein: the case body (1) is provided with a fine tuning seat (6), the fine tuning seat (6) is fixedly arranged on the case body (1), and two ends of the driven part (52) are respectively connected with one fine tuning seat (6);

the fine adjustment seat (6) is provided with a fine adjustment component (61), the fine adjustment component (61) is sequentially arranged on the fine adjustment seat (6) and the driven component (52) in a penetrating mode, and the fine adjustment component (61) is respectively in threaded connection with the fine adjustment seat (6) and the driven component (52); the fine adjustment component (61) is used for adjusting the position of the driven component (52);

the fine adjustment seat (6) is provided with a sliding part, two ends of the driven part (52) are respectively inserted into the sliding part, and the driven part (52) is connected with the sliding part in a sliding way.

9. The paint drying apparatus of an electrodeless lamp source double cooling system as claimed in claim 1, wherein: an air exhausting component (8) is arranged on the case main body (1), the air exhausting component (8) is positioned on one side of the heating mechanism (2), and the air exhausting component (8) is arranged towards the conveying mechanism (5); the air suction member (8) is used for giving negative pressure to the case body (1).

10. The paint drying apparatus of an electrodeless lamp source double cooling system as claimed in claim 1, wherein: transition parts (7) are respectively arranged at two ends of the case main body (1), and the transition parts (7) are in transmission connection with the driving parts (51) through linkage parts (9);

and/or the transition part (7) is in transmission connection with the driven part (52) through the linkage part (9).