CN108607776B - Vacuum pressure heat radiation drying paint dipping equipment - Google Patents

Abstract

The invention discloses vacuum pressure heat radiation drying paint dipping equipment, which comprises: the vacuum sealing cover comprises a vacuum sealing cover, a base, a vacuum suction nozzle, a vacuum suction pump, a pressure gauge, a temperature sensor, a liquid level sensor, an infrared sensor, a lifting motor, a supporting plate, a handle, a sealing door, an inlet, a rotary machine structure for cleaning and removing high-temperature object moisture, a lifting paint dipping placement seat structure, an intelligent cabinet structure and a paint dipping box, wherein a vacuum sealing cover bolt is arranged at the upper middle position of the base. The cylindrical roller bearing, the main lining seat, the auxiliary lining seat, the rotating motor, the stabilizing plate, the rotating shaft, the lamp holder, the fixed disc, the high-temperature heating lamp, the connecting seat and the heating pipe are arranged, so that the removal degree of moisture on the surface of an object is improved, and the dryness of the surface of the object is ensured; the lifting screw rod, the long nut, the conventional bearing, the lifting placing seat, the U-shaped sliding block and the linear sliding rail are arranged, so that the lifting of objects is facilitated, the operation can be facilitated, and the operation strength is reduced.

Description

Vacuum pressure heat radiation drying paint dipping equipment

Technical Field

The invention belongs to the technical field of paint dipping equipment, and particularly relates to vacuum pressure heat radiation drying paint dipping equipment.

Background

The vacuum pressure impregnation equipment is important process equipment in the production process of electrical appliances such as high-voltage motors, transformers, power capacitors, paper-insulated high-voltage power, cables and the like and electrical materials, has good insulating property, reduced temperature rise and improved efficiency after being processed by the VPI, can increase mechanical strength, solve loosening phenomenon in the operation process, prevent insulating faults such as short circuits and the like, improve the moisture-proof capacity of the device, prolong the service life of the device and improve the electric resistance of the device. The equipment is generally composed of a paint dipping tank, a paint removing coffin, a vacuum pumping system, a compressed air initial pressurizing system, an exhaust system, a paint returning system, a heating system, a refrigerating system and an electric control system.

The vacuum pressure paint dipping is utilized to insulate the electric power and electrical equipment such as a high-voltage motor, a transformer and the like, and bubbles and pinholes in an insulating layer can be greatly reduced, so that the insulating grade of the electric power and electrical equipment such as the motor, the transformer and the like is improved, and the insulating grade is greatly valued and developed in the foreign, domestic motor and electrical industry.

Since 1985, the electric power industry of China was introduced with a plurality of sets of VPI equipment of foreign companies in succession, such as 1.5mVPI equipment of Japanese vacuum Co., ltd., which is introduced by Shanghai Bao Steel electric repair works; the 3.2mVPI plant of herrach corporation, germany, introduced by motor factories, lan, is representative. Although the equipment greatly drives the technical revolution of adopting the new technology of VPI paint dipping in the electric and electrical industries of China, the high price of the equipment does not accord with the national conditions of China, and the equipment has more or less defects. However, the existing vacuum pressure heat radiation drying paint dipping equipment also has the problems of poor drying effect, inconvenience in lifting the object and incapability of treating the surface moisture of the object at high temperature.

Therefore, the vacuum pressure heat radiation drying paint dipping device is very necessary.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the vacuum pressure heat radiation drying paint dipping equipment is used for solving the problems that the existing vacuum pressure heat radiation drying paint dipping equipment has poor drying effect, is inconvenient to lift an object and cannot treat the surface moisture of the object at a high temperature.

In order to solve the technical problems, the invention adopts the following technical scheme: a vacuum pressure heat radiation drying paint dipping device structurally comprises: the vacuum sealing cover bolt is arranged at the middle position of the upper part of the base; the vacuum suction nozzle is in threaded connection with the left upper part of the inner side of the vacuum sealing cover; the vacuum pump bolt is arranged at the left side of the top of the vacuum sealing cover; the pressure gauge is longitudinally connected with the middle position of the top of the vacuum sealing cover through threads; the temperature sensor is connected with the middle position of the left wall of the inner side of the vacuum sealing cover through a screw; the liquid level sensor is connected with the middle position of the bottom of the inner side of the paint dipping box through screws; the infrared sensor is connected with the right end position of the bottom of the inner side of the paint dipping box through a screw; the lifting motor is arranged at the left upper end of the paint dipping box through a supporting plate bolt; the handle screw is connected to the middle position of the right side of the sealing door; the inlet is formed in the right lower part of the inner side of the vacuum sealing cover; the sealing door hinge is connected to the right side of the inlet; the high-temperature object moisture cleaning and removing rotary machine structure is arranged at the upper part of the paint dipping box; the lifting paint dipping placement seat structure is arranged in the paint dipping box; the intelligent cabinet structure is longitudinally arranged at the left lower part of the vacuum sealing cover; the rotary machine structure for cleaning and removing the moisture of the high-temperature object comprises a cylindrical roller bearing, a main lining seat, an auxiliary lining seat, a rotary motor, a stabilizing plate, a rotary shaft, a lamp holder, a fixed disk, a high-temperature heating lamp, a connecting seat and a heating pipe, wherein the cylindrical roller bearing is respectively inlaid in the middle position of the inner upper part of the main lining seat and the middle position of the inner upper part of the auxiliary lining seat; the rotary motor is arranged at the right upper part of the auxiliary lining seat through a stabilizing plate; one end of the rotating shaft penetrates through an inner ring coupler of a cylindrical roller bearing arranged in the auxiliary lining seat to be connected with an output shaft of the rotating motor, and the other end of the rotating shaft is connected with an inner ring of the cylindrical roller bearing arranged in the main lining seat; the fixed discs are respectively sleeved at the left side and the right side of the outer part of the rotating shaft; the lamp holders are respectively connected to the upper part of the inner side of the fixed disc through screws; the high-temperature heating lamp is transversely inserted between the lamp holders; the connecting seats are respectively connected to the lower part of the inner side of the fixed disc by screws; the heating pipe is connected between the connecting seats in a threaded manner.

Preferably, a rubber sealing strip is arranged at the joint of the vacuum sealing cover and the base.

Preferably, the vacuum suction nozzle and the vacuum suction pump are connected through a pipeline.

Preferably, the lifting motor is connected with the supporting plate through bolts.

Preferably, a rubber sealing strip is arranged at the joint of the sealing door and the inlet.

Preferably, the sealing door and the vacuum sealing cover are connected by a quick locker.

Preferably, the rotating motor is connected with the stabilizing plate through bolts; the stabilizing plate is connected with the auxiliary lining seat through bolts.

Preferably, the inner ring of the cylindrical roller bearing is in interference fit with the rotating shaft.

Preferably, the longitudinal bolt of the main lining seat is arranged at the left upper part of the paint dipping box; the auxiliary lining seat longitudinal bolts are arranged at the upper right part of the paint dipping box.

Preferably, the high-temperature heating lamp body adopts a ceramic heating lamp; the heating pipe is specifically a ceramic pipe with an outer surface wound with a resistance heating wire.

Preferably, the fixed disc is connected with the rotating shaft through a key.

Preferably, the lifting paint dipping seat structure comprises a lifting screw, a long nut, a conventional bearing, a lifting seat, a U-shaped sliding block, a linear sliding rail and a protection pad, wherein one longitudinal end of the lifting screw penetrates through the long nut, and the other longitudinal end of the lifting screw is inserted into the middle position of the interior of the conventional bearing; one end of the lifting placement seat is connected with the U-shaped sliding block through a bolt, and the other end of the lifting placement seat is welded with a long nut; the U-shaped sliding block is in sliding clamping connection with the left upper part of the outer side of the linear sliding rail; the protective pad is transversely glued at the middle position of the upper part of the lifting placing seat.

Preferably, the lifting screw rod is in threaded connection with the long nut; the inner ring of the conventional bearing is in interference fit with the lower end of the lifting screw.

Preferably, the protective pad adopts a rubber pad with a straight anti-skid pattern on the outer surface.

Preferably, the conventional bearing is inlaid at the left upper corner position of the inner bottom of the paint dipping box.

Preferably, the upper end coupler of the lifting screw is connected with the output shaft of the lifting motor.

Preferably, the linear slide rail longitudinal bolt is arranged at the right wall position of the inner side of the paint dipping box.

Preferably, the intelligent cabinet structure comprises a display screen, a control cabinet, an intelligent main controller, an indicator light and a master control switch, wherein the display screen is transversely connected with the middle position of the upper part of the inner side of the control cabinet through a screw; the intelligent master controller is transversely connected with the middle position of the inner side of the control cabinet through a screw; the indicator lamp is embedded in the left lower part of the inner side of the control cabinet; the master control switch screw is connected to the right lower part of the inner side of the control cabinet.

Preferably, the control cabinet is connected with the vacuum sealing cover through bolts.

Preferably, the vacuum pump and the lifting motor are respectively connected with the output end of the intelligent main controller through wires.

Preferably, the temperature sensor, the liquid level sensor and the infrared sensor are respectively connected with the input end of the intelligent main controller through wires.

Preferably, the rotating motor, the high-temperature heating lamp and the heating pipe are respectively connected with the output end of the intelligent main controller through wires.

Preferably, the display screen wire is connected with the output end of the intelligent master controller.

Preferably, the indicator light wire is connected with the output end of the intelligent main controller.

Preferably, the master control switch wire is connected with the input end of the intelligent master controller.

Preferably, the temperature sensor is a temperature sensor with the model number of WZP-100; the liquid level sensor is a put-in liquid level sensor with the model of MIK-P260; the infrared sensor is specifically an infrared diffuse reflection type sensor with the model of E3F-DS30C4, and a rubber sleeve is sleeved outside the infrared sensor.

Preferably, the intelligent master controller specifically adopts a PLC with the model number of FX 2N-48.

Compared with the prior art, the invention has the beneficial effects that:

1. in the invention, the arrangement of the cylindrical roller bearing, the main lining seat, the auxiliary lining seat, the rotating motor, the stabilizing plate, the rotating shaft, the lamp holder, the fixing plate, the high-temperature heating lamp, the connecting seat and the heating pipe is beneficial to improving the removal degree of water on the surface of an object and ensuring the dryness of the surface of the object.

2. In the invention, the lifting screw, the long nut, the conventional bearing, the lifting placing seat, the U-shaped sliding block and the linear sliding rail are arranged, so that the lifting of objects is facilitated, the operation is convenient, and the operation strength is reduced.

3. In the invention, the arrangement of the display screen, the control cabinet, the intelligent master controller, the indicator light and the master control switch is beneficial to intelligently displaying the working state and intelligently indicating the working state.

4. According to the invention, the temperature sensor, the liquid level sensor and the infrared sensor are arranged, so that the temperature during drying and the paint surface height during paint dipping and the object height during paint dipping can be monitored in real time, the smooth progress of paint dipping work is ensured, and the operation intensity is reduced.

5. In the invention, the arrangement of the vacuum sealing cover, the base, the vacuum suction nozzle, the vacuum suction pump and the pressure gauge is beneficial to ensuring that the inside of the vacuum sealing cover is in a vacuum state and ensuring that the paint dipping work is smoothly carried out.

6. According to the invention, the protective pad is beneficial to preventing the paint dipping work from being influenced by sliding during the paint dipping of the object.

7. In the invention, the arrangement of the high-temperature heating lamp and the heating pipe is beneficial to improving the water removal capacity of the surface of the object and ensuring the smooth performance of the paint dipping work.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic structural view of a rotary machine for cleaning and removing moisture from a high temperature object according to the present invention.

Fig. 3 is a schematic structural view of a lifting paint dipping seat structure of the invention.

Fig. 4 is a schematic structural view of the intelligent cabinet structure of the present invention.

Fig. 5 is a schematic view of the electrical wiring of the present invention.

In the figure: 1. a vacuum seal cap; 2. a base; 3. a vacuum suction nozzle; 4. a vacuum pump; 5. a pressure gauge; 6. a temperature sensor; 7. a liquid level sensor; 8. an infrared sensor; 9. a lifting motor; 10. a support plate; 11. a handle; 12. sealing the door; 13. an inlet; 14. the structure of a rotating machine for cleaning and removing water from high-temperature objects; 141. cylindrical roller bearings; 142. a main lining seat; 143. an auxiliary lining seat; 144. a rotating electric machine; 145. a stabilizing plate; 146. a rotation shaft; 147. a lamp holder; 148. a fixed plate; 149. a high temperature heating lamp; 1410. a connecting seat; 1411. heating pipes; 15. lifting a paint dipping placement seat structure; 151. lifting screw rods; 152. a long nut; 153. a conventional bearing; 154. lifting the placement seat; 155. a U-shaped sliding block; 156. a linear slide rail; 157. a protective pad; 16. an intelligent cabinet structure; 161. a display screen; 162. a control cabinet; 163. an intelligent master; 164. an indicator light; 165. a master control switch; 17. paint dipping box.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

as shown in fig. 1 to 5, the vacuum pressure heat radiation drying paint dipping equipment comprises a vacuum sealing cover 1, a base 2, a vacuum suction nozzle 3, a vacuum suction pump 4, a pressure gauge 5, a temperature sensor 6, a liquid level sensor 7, an infrared sensor 8, a lifting motor 9, a supporting plate 10, a handle 11, a sealing door 12, an inlet 13, a high-temperature object water cleaning and removing rotary machine structure 14, a lifting paint dipping seat structure 15, an intelligent cabinet structure 16 and a paint dipping box 17, wherein the vacuum sealing cover 1 is mounted at the upper middle position of the base 2 through bolts; the vacuum suction nozzle 3 is in threaded connection with the left upper part of the inner side of the vacuum sealing cover 1; the vacuum pump 4 is mounted on the left side of the top of the vacuum seal cover 1 through bolts; the pressure gauge 5 is longitudinally connected with the middle position of the top of the vacuum sealing cover 1 through threads; the temperature sensor 6 is connected with the middle position of the left wall of the inner side of the vacuum sealing cover 1 through screws; the liquid level sensor 7 is connected with the middle position of the inner bottom of the paint dipping box 17 through screws; the infrared sensor 8 is connected with the right end position of the bottom of the inner side of the paint dipping box 17 through screws; the lifting motor 9 is mounted at the left upper end of the paint dipping box 17 through a supporting plate 10 through bolts; the handle 11 is connected with the right middle position of the sealing door 12 through a screw; the inlet 13 is formed in the right lower part of the inner side of the vacuum sealing cover 1; the sealing door 12 is connected to the right side of the inlet 13 in a hinge manner; the high-temperature object moisture cleaning and removing rotary machine structure 14 is arranged at the upper part of the paint dipping box 17; the lifting paint dipping seat structure 15 is arranged in the paint dipping box 17; the intelligent cabinet structure 16 is longitudinally arranged at the left lower part of the vacuum sealing cover 1; the high-temperature object moisture cleaning and removing rotary machine structure 14 comprises a cylindrical roller bearing 141, a main lining seat 142, an auxiliary lining seat 143, a rotary motor 144, a stabilizing plate 145, a rotary shaft 146, a lamp holder 147, a fixed disc 148, a high-temperature heating lamp 149, a connecting seat 1410 and a heating pipe 1411, wherein the cylindrical roller bearing 141 is respectively embedded in the middle position of the inner upper part of the main lining seat 142 and the middle position of the inner upper part of the auxiliary lining seat 143; the rotary motor 144 is installed at the upper right part of the auxiliary seat 143 through a stabilizing plate 145; one end of the rotating shaft 146 penetrates through an inner ring coupler of the cylindrical roller bearing 141 arranged in the auxiliary lining seat 143 to be connected with an output shaft of the rotating motor 144, and the other end of the rotating shaft is connected with an inner ring of the cylindrical roller bearing 141 arranged in the main lining seat 142; the fixed discs 148 are respectively sleeved at the left side and the right side of the outer part of the rotating shaft 146; the lamp holders 147 are respectively screwed to the upper inner side of the fixed disk 148; the high-temperature heating lamp 149 is transversely inserted between the lamp holders 147; the engagement seats 1410 are respectively screwed on the lower inner side of the fixed disk 148; the heating tube 1411 is threaded between the adapter blocks 1410.

In the above embodiment, specifically, a rubber sealing strip is disposed at the connection between the vacuum sealing cover 1 and the base 2.

In the above embodiment, specifically, the vacuum nozzle 3 and the vacuum pump 4 are connected through a pipeline.

In the above embodiment, specifically, the lifting motor 9 and the supporting plate 10 are connected by bolts.

In the above embodiment, specifically, a rubber sealing strip is disposed at the connection between the sealing door 12 and the inlet 13.

In the above embodiment, specifically, the sealing door 12 and the vacuum sealing cover 1 are connected by a quick locking device.

In the above embodiment, specifically, the rotary motor 144 and the stabilizing plate 145 are connected by bolts; the fixing plate 145 and the auxiliary lining seat 143 are connected by bolts.

In the above embodiment, specifically, the inner ring of the cylindrical roller bearing 141 and the rotating shaft 146 are disposed in an interference fit.

In the above embodiment, specifically, the main lining seat 142 is longitudinally bolted to the upper left part of the paint dipping box 17; the auxiliary lining seat 143 is longitudinally mounted on the right upper part of the paint dipping box 17 through bolts.

In the above embodiment, specifically, the high temperature heating lamp 149 is a ceramic heating lamp; the heating tube 1411 is specifically a ceramic tube with an outer surface wound with a resistance heating wire.

In the above embodiment, specifically, the fixed disk 148 and the rotating shaft 146 are connected by a key.

In the above embodiment, specifically, the lifting paint dipping seat structure 15 includes a lifting screw 151, a long nut 152, a conventional bearing 153, a lifting seat 154, a u-shaped slider 155, a linear sliding rail 156 and a protection pad 157, wherein one longitudinal end of the lifting screw 151 penetrates through the long nut 152, and the other longitudinal end of the lifting screw is inserted into the middle position of the conventional bearing 153; one end of the lifting placing seat 154 is connected with the U-shaped sliding block 155 through bolts, and the other end of the lifting placing seat is welded with the long nut 152; the U-shaped sliding block 155 is slidably clamped at the left upper part of the outer side of the linear sliding rail 156; the protective pad 157 is laterally adhered to the upper middle portion of the elevating seat 154.

In the above embodiment, specifically, the lifting screw 151 and the long nut 152 are in threaded connection; the inner ring of the conventional bearing 153 is in interference fit with the lower end of the lifting screw 151.

In the above embodiment, the protection pad 157 is a rubber pad with a linear anti-skid pattern on the outer surface.

In the above embodiment, specifically, the conventional bearing 153 is embedded in the upper left corner position of the inner bottom of the paint dipping box 17.

In the above embodiment, specifically, the upper end coupling of the lifting screw 151 is connected to the output shaft of the lifting motor 9.

In the above embodiment, specifically, the linear slide 156 is longitudinally bolted to the right wall of the paint dipping box 17.

In the above embodiment, specifically, the intelligent cabinet structure 16 includes a display screen 161, a control cabinet 162, an intelligent master controller 163, an indicator lamp 164 and a master switch 165, where the display screen 161 is transversely screwed to the middle position of the upper part of the inner side of the control cabinet 162; the intelligent master controller 163 is transversely connected with the middle position inside the control cabinet 162 through a screw; the indicator lamp 164 is embedded in the left lower part of the inner side of the control cabinet 162; the master control switch 165 is connected to the right lower part of the inner side of the control cabinet 162 by screws.

In the above embodiment, specifically, the control cabinet 162 is bolted to the vacuum seal housing 1.

In the above embodiment, specifically, the vacuum pump 4 and the lifting motor 9 are respectively connected to the output end of the intelligent master controller 163 through wires.

In the above embodiment, specifically, the temperature sensor 6, the liquid level sensor 7 and the infrared sensor 8 are respectively connected to the input end of the intelligent master 163 through wires.

In the above embodiment, specifically, the rotating motor 144, the high-temperature heating lamp 149 and the heating tube 1411 are respectively connected to the output end of the intelligent master 163 through wires.

In the above embodiment, specifically, the display screen 161 is connected to the output end of the intelligent master 163 through a wire.

In the above embodiment, specifically, the indicator lamp 164 is connected to the output end of the intelligent master 163 through a wire.

In the above embodiment, specifically, the master switch 165 is wired to the input terminal of the intelligent master 163.

In the above embodiment, specifically, the temperature sensor 6 is a temperature sensor of model WZP-100; the liquid level sensor 7 is a throwing type liquid level sensor with the model of MIK-P260; the infrared sensor 8 is specifically an infrared diffuse reflection type sensor with the model of E3F-DS30C4, and a rubber sleeve is sleeved outside the infrared diffuse reflection type sensor.

In the above embodiment, specifically, the intelligent master 163 uses a PLC model FX 2N-48.

Principle of operation

In the invention, when paint is immersed, firstly, the sealing door 12 is opened, the paint enters the vacuum sealing cover 1 through the inlet 13, an object to be immersed is placed on the upper part of the protective pad 157 on the upper surface of the lifting placing seat 154, and the sealing door 12 and the inlet 13 are fastened again, so that the vacuum sealing cover can be fixedly connected through a quick locker arranged outside; the master control switch 165 is started immediately so that the intelligent master controller 163 controls the vacuum suction pump 4 to act, the air in the vacuum sealing cover 1 is sucked out through the vacuum suction nozzle 3 until the vacuum is formed, the pressure value displayed by the pressure gauge 5 is observed, the high-temperature heating lamp 149 and the heating pipe 1411 are controlled to perform heating action through the intelligent master controller 163, meanwhile, the rotating motor 144 drives the rotating shaft 146 to rotate, the fixed disc 148 also starts to rotate immediately, the rotating positions of the high-temperature heating lamp 149 and the heating pipe 1411 are continuously changed, moisture on the surface of an object to be immersed is processed, smooth operation of immersing paint is ensured, the lifting motor 9 is controlled to operate through the intelligent master controller 163, the lifting screw 151 rotates in the long nut 152, at this time, the lifting seat 154 moves downwards in the linear sliding rail 156 through the U-shaped sliding block 155, the descending position of the lifting seat 154 is continuously detected through the infrared sensor 8, smooth operation of the immersing paint operation is ensured, the object to be immersed through the lifting seat 154 after the completion of the immersing paint operation is confirmed through the display screen 161 in real time, and the immersing paint operation is finished, the object is immersed through the lifting seat 154 again, and the heating operation is completed through the high-temperature heating lamp 149 and the heating pipe 1411.

By using the technical scheme of the invention or under the inspired by the technical scheme of the invention, a similar technical scheme is designed by a person skilled in the art, so that the technical effects are achieved, and the technical effects fall into the protection scope of the invention.

Claims (8)

1. The vacuum pressure heat radiation drying paint dipping equipment is characterized by comprising a vacuum sealing cover (1), a base (2), a vacuum suction nozzle (3), a vacuum suction pump (4), a pressure gauge (5), a temperature sensor (6), a liquid level sensor (7), an infrared sensor (8), a lifting motor (9), a supporting plate (10), a handle (11), a sealing door (12), an inlet (13), a high-temperature object moisture cleaning and removing rotary machine structure (14), a lifting paint dipping placement seat structure (15), an intelligent cabinet structure (16) and a paint dipping box (17), wherein the vacuum sealing cover (1) is mounted at the middle position of the upper part of the base (2) through bolts; the vacuum suction nozzle (3) is in threaded connection with the left upper part of the inner side of the vacuum sealing cover (1); the vacuum pump (4) is mounted on the left side of the top of the vacuum sealing cover (1) through bolts; the pressure gauge (5) is longitudinally connected with the middle position of the top of the vacuum sealing cover (1) in a threaded manner; the temperature sensor (6) is connected with the middle position of the left wall of the inner side of the vacuum sealing cover (1) through screws; the liquid level sensor (7) is connected with the middle position of the inner bottom of the paint dipping box (17) through screws; the infrared sensor (8) is connected with the right end position of the bottom of the inner side of the paint dipping box (17) through screws; the lifting motor (9) is mounted at the left upper end of the paint dipping box (17) through a supporting plate (10) bolt; the handle (11) is connected with the right middle position of the sealing door (12) through a screw; the inlet (13) is arranged at the right lower part of the inner side of the vacuum sealing cover (1); the sealing door (12) is connected to the right side of the inlet (13) in a hinge manner; the high-temperature object moisture cleaning and removing rotary machine structure (14) is arranged at the upper part of the paint dipping box (17); the lifting paint dipping seat structure (15) is arranged in the paint dipping box (17); the intelligent cabinet structure (16) is longitudinally arranged at the left lower part of the vacuum sealing cover (1); the high-temperature object moisture cleaning and removing rotary machine structure (14) comprises a cylindrical roller bearing (141), a main lining seat (142), an auxiliary lining seat (143), a rotary motor (144), a stabilizing plate (145), a rotary shaft (146), a lamp holder (147), a fixed disc (148), a high-temperature heating lamp (149), a connecting seat (1410) and a heating pipe (1411), wherein the cylindrical roller bearing (141) is respectively inlaid at the middle position of the inner upper part of the main lining seat (142) and the middle position of the inner upper part of the auxiliary lining seat (143); the rotary motor (144) is arranged at the upper right part of the auxiliary lining seat (143) through a stabilizing plate (145); one end of the rotating shaft (146) penetrates through an inner ring coupler of a cylindrical roller bearing (141) arranged in the auxiliary lining seat (143) to be connected with an output shaft of the rotating motor (144), and the other end of the rotating shaft is connected with an inner ring of the cylindrical roller bearing (141) arranged in the main lining seat (142); the fixed discs (148) are respectively sleeved at the left side and the right side of the outer part of the rotating shaft (146); the lamp holders (147) are respectively connected to the upper part of the inner side of the fixed disc (148) through screws; the high-temperature heating lamp (149) is transversely inserted between the lamp holders (147); the connecting seats (1410) are respectively connected to the lower part of the inner side of the fixed disc (148) through screws; the heating pipe (1411) is connected between the connecting seats (1410) in a threaded manner; the lifting paint dipping seat structure (15) comprises a lifting screw rod (151), a long nut (152), a conventional bearing (153), a lifting seat (154), a U-shaped sliding block (155), a linear sliding rail (156) and a protection pad (157), wherein one longitudinal end of the lifting screw rod (151) penetrates through the long nut (152), and the other longitudinal end of the lifting screw rod is inserted into the middle position of the interior of the conventional bearing (153); one end of the lifting placing seat (154) is connected with the U-shaped sliding block (155) through bolts, and the other end of the lifting placing seat is welded with the long nut (152); the U-shaped sliding block (155) is in sliding clamping connection with the left upper part of the outer side of the linear sliding rail (156); the protective pad (157) is transversely glued at the middle position of the upper part of the lifting placing seat (154); the intelligent cabinet structure (16) comprises a display screen (161), a control cabinet (162), an intelligent main controller (163), an indicator lamp (164) and a master control switch (165), wherein the display screen (161) is transversely connected to the middle position of the upper part of the inner side of the control cabinet (162) through a screw; the intelligent master controller (163) is transversely connected with the middle position inside the control cabinet (162) through a screw; the indicator lamp (164) is embedded in the left lower part of the inner side of the control cabinet (162); the master control switch (165) is connected to the right lower part of the inner side of the control cabinet (162) through screws.

2. Vacuum pressure heat radiation drying paint dipping equipment as claimed in claim 1, wherein a rubber sealing strip is arranged at the joint of the vacuum sealing cover (1) and the base (2).

3. Vacuum pressure heat radiation drying paint dipping equipment as in claim 1, characterized in that a rubber sealing strip is arranged at the connection of the sealing door (12) and the inlet (13); the sealing door (12) and the vacuum sealing cover (1) are connected by a quick locker.

4. Vacuum pressure heat radiation drying paint dipping apparatus as in claim 1, wherein said rotary motor (144) and stabilizing plate (145) are bolted together; the stabilizing plate (145) and the auxiliary lining seat (143) are connected through bolts.

5. Vacuum pressure heat radiation drying paint dipping apparatus as in claim 1 wherein said main bushing (142) longitudinal bolts are mounted at the upper left portion of the paint dipping box (17); the auxiliary lining seat (143) is longitudinally arranged at the right upper part of the paint dipping box (17) through bolts.

6. The vacuum pressure heat radiation drying paint dipping apparatus as claimed in claim 1, wherein the high temperature heating lamp (149) is a ceramic heating lamp; the heating pipe (1411) is specifically a ceramic pipe with an outer surface wound with a resistance heating wire.

7. Vacuum pressure heat radiation drying paint dipping equipment as claimed in claim 1, wherein the lifting screw (151) and the long nut (152) are in threaded connection; the inner ring of the conventional bearing (153) is in interference fit with the lower end of the lifting screw (151).

8. The vacuum pressure heat radiation drying paint dipping apparatus as claimed in claim 1, wherein the protective pad (157) is a rubber pad with a straight anti-slip pattern on an outer surface.