CN216972718U - Refrigerator condenser electrophoresis line processingequipment - Google Patents

Abstract

The utility model discloses a refrigerator condenser electrophoresis line processing device which comprises a servo motor I, an electrophoresis cell and an air plate II, wherein an output shaft of the servo motor I is connected with a transmission shaft I through a coupler, the transmission shaft I is connected with a screw rod I through a bevel gear, the servo motor I is connected to the side surface of a base through a protective box I, the electrophoresis cell is arranged in the middle of the surface of the base, the air plate I is connected to the upper portion of the electrophoresis cell through a fixing plate I, the fixing plate I is connected to the two sides of the electrophoresis cell, the middle of the upper surface of the air plate I is connected with a blower, the blower is connected with a first vent hole through an air groove, the air plate II is connected to one end, far away from an object placing area, of the base, an air groove II is formed in the air plate II, the air groove II is communicated with an air hole II, and the air heater is respectively connected with the air plate II and the air plate III through an air pipe and a connecting pipe. This refrigerator condenser electrophoresis line processingequipment can effectively improve drying efficiency, also can retrieve partial electrophoresis liquid simultaneously to reduce corresponding cost.

Description

Refrigerator condenser electrophoresis line processingequipment

Technical Field

The utility model relates to the technical field of condensers, in particular to a processing device for an electrophoresis line of a condenser of a refrigerator.

Background

The condenser is a part of a refrigeration system of a refrigerator, heat in the pipe can be quickly transferred to air near the pipe, an electrophoresis process aims to coat a layer of primer on the surface of a metal product, and is different from processes of other modes such as spraying and the like, generally used for primer coating of products such as hardware and the like, and suitable for batch production.

Therefore, we improve the device and propose a processing device for the electrophoresis line of the condenser of the refrigerator.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an electrophoresis line processing device for a refrigerator condenser, which aims to solve the problems in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: a processing device for electrophoresis lines of a refrigerator condenser comprises a first servo motor, a first electrophoresis cell and a second air plate, wherein an output shaft of the first servo motor is connected with a first transmission shaft through a coupler, the first transmission shaft is connected with a first screw rod through a helical gear, the first servo motor is connected with the side surface of a base through a first protection box, a lower end of a movable plate is connected with a surface of a first sliding block, the first sliding block is connected into a first sliding groove through a first screw rod, a material placing area is arranged on the surface of the base close to one end of the first servo motor, the first air plate is connected above the first electrophoresis cell through a first fixing plate, the first air plate is connected with the two sides of the first electrophoresis cell through a first fixing plate, a first air blower is connected to the middle of the upper surface of the first air plate, an electric cylinder is connected with an electric cylinder through a first air vent hole, a telescopic rod of the electric cylinder is connected with a second movable plate, and a clamping plate is connected to the lower surface of the second air cylinder through a second screw rod, the screw rod two-way is connected with a servo motor two through a coupler, the air plate two is connected to one end, far away from the object placing area, of the base, an air groove two is formed in the air plate two and is communicated with an air hole two, the air heater is connected with the air plate two and the air plate three through an air conveying pipe and a connecting pipe respectively, the air groove three formed in the air plate three is communicated with the air hole three, meanwhile, liquid discharging ports are formed in two sides of the air groove two respectively, and the liquid discharging ports are connected with sealing covers.

Preferably, the object placing area and the second air plate are symmetrically arranged at two ends of the surface of the base, the object placing area, the electrophoresis cell and the second air plate are combined together to form a mesh-shaped distribution, a first transmission groove is formed in one end, close to the first servo motor, of the base, and the first transmission groove is of an I-shaped structure.

Preferably, the sliding grooves are symmetrically formed in two sides of the base, the cross section of the first sliding groove is of a square structure, the first screw rod is movably connected into the first sliding groove through a bearing, the first moving plate is slidably connected above the base through the first sliding block, the first sliding block is of a square structure, and the first moving plate is of an Jiong-shaped structure.

Preferably, the first air plate is connected above the electrophoresis cell through the first fixing plate, the first air plate and the first fixing plate are combined together to form an Jiong-shaped structure, the height of the first fixing plate is larger than that of the first moving plate, meanwhile, the first air holes are symmetrically formed in the first air plate relative to the first air groove, the first air holes on two sides of the first air plate are inclined towards the middle, and the first air holes on two sides of the first air plate are combined together to form splayed distribution.

Preferably, the second air groove is formed in the second air plate, the bottom of the second air groove is of an arc-surface structure, a plurality of groups of second air holes are formed in the surface of the second air plate in parallel and at equal intervals relative to the position of the second air groove, and the third air plate is symmetrically connected to two sides of the second air plate.

Preferably, the air heater is connected with the second air plate and the third air plate respectively through the air delivery pipe and the connecting pipe, the connecting pipe is of a cross structure, the third air groove is formed in the third air plate, the third air plate is provided with a plurality of groups of air holes in parallel and at equal intervals, and the second air plate and the third air plate are combined to form a U-shaped structure.

Preferably, a second sliding groove is formed in the second moving plate, the second screw rod is movably connected into the second sliding groove through a bearing, the second screw rod adopts a positive and negative tooth bidirectional screw rod, the clamping plates are symmetrically connected to two ends of the second screw rod, the clamping plates are of T-shaped structures, two ends of the lower surface of each clamping plate are symmetrically connected with the clamping blocks, each clamping block is of a square structure, and meanwhile, the cross section formed by the clamping plates and the clamping blocks is of an L-shaped structure.

Compared with the prior art, the utility model has the beneficial effects that: this refrigerator condenser electrophoresis line processingequipment, through movable plate two, the lead screw two, servo motor two, the cooperation of grip block and grip block, make this gripping device can effectual centre gripping condenser, and the L shape structure that grip block and grip block constitute, can be when the centre gripping became invalid, prevent that the condenser from breaking away from clamping device, and then avoid work efficiency's reduction, extra protecting effect is provided, and simultaneously, through the hair-dryer, aerofoil one, the cooperation of air pocket one and gas pocket one, can be when the condenser breaks away from the electrophoresis cell, carry out preliminary air-drying, and can blow off the remaining electrophoresis liquid in the condenser surface to the electrophoresis tank, and then realized the recycle of electrophoresis liquid, reduce the extra consumption of electrophoresis liquid, and through aerofoil two, aerofoil three and air heater's cooperation, effectively improve the drying speed and the efficiency of condenser.

Drawings

FIG. 1 is a schematic top view of the structure of the present invention;

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

FIG. 3 is a schematic cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 4 is a schematic front view of a wind plate according to the present invention;

FIG. 5 is a schematic diagram of a structure of a clamping plate according to the present invention.

In the figure: 1. a first servo motor; 2. a first transmission shaft; 3. a first screw rod; 4. moving a first plate; 5. a material placing area; 6. an electrophoresis cell; 7. a first air plate; 8. a first air hole; 9. a blower; 10. a second air plate; 11. a third air plate; 12. a first sliding chute; 13. a base; 14. a first air groove; 15. a first fixing plate; 16. a first sliding block; 17. a second air tank; 18. an electric cylinder; 19. moving a second plate; 20. a clamping plate; 21. an air heater.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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. 1-5, the present invention provides a technical solution: an electrophoresis line processing device of a refrigerator condenser comprises a first servo motor 1, an electrophoresis cell 6 and a second air plate 10, wherein an output shaft of the first servo motor 1 is connected with a first transmission shaft 2 through a coupler, the first transmission shaft 2 is connected with a first screw rod 3 through a bevel gear, the first servo motor 1 is connected to the side face of a base 13 through a first protection box, the lower end of a first moving plate 4 is connected with the surface of a first sliding block 16, the first sliding block 16 is connected into a first sliding groove 12 through the first screw rod 3 in a sliding mode, the first sliding grooves 12 are symmetrically formed in two sides of the base 13, the cross section of the first sliding groove 12 is of a square structure, the first moving plate 4 is connected above the base 13 through the first sliding block 16, the first sliding block 16 is of a square structure, and the first moving plate 4 is of an Jiong-shaped structure; the surface of one end, close to the servo motor I1, of the base 13 is provided with the object placing area 5, the electrophoresis cell 6 is arranged in the middle of the surface of the base 13, the object placing area 5 and the second air plate 10 are symmetrically arranged at two ends of the surface of the base 13, the object placing area 5, the electrophoresis cell 6 and the second air plate 10 are combined together to form a grid-shaped distribution, one end, close to the servo motor I1, of the base 13 is provided with a first transmission groove, and the first transmission groove is of an I-shaped structure; the first air plate 7 is connected above the electrophoresis cell 6 through the first fixing plate 15, the section formed by combining the first air plate 7 and the first fixing plate 15 is in an Jiong-shaped structure, the height of the first fixing plate 15 is larger than that of the first moving plate 4, meanwhile, air holes I8 are symmetrically formed in the first air plate 7 relative to the first air groove 14, the air holes I8 in two sides of the first air plate 7 are inclined towards the middle, and the air holes I8 in two sides of the first air plate 7 are combined together to form splayed distribution; the fixed plate I15 is connected to two sides of the electrophoresis cell 6, the middle part of the upper surface of the air plate I7 is connected with the blower 9, the blower 9 is communicated with the air hole I8 through the air groove I14, the middle part of the movable plate I4 is connected with the electric cylinder 18, the telescopic rod of the electric cylinder 18 is connected with the movable plate II 19, the clamping plate 20 is slidably connected to the lower surface of the movable plate II 19 through the screw rod II, the sliding groove II is formed in the movable plate II 19, the screw rod II is movably connected into the sliding groove II through a bearing, the screw rod II adopts a positive and negative tooth bidirectional screw rod, the clamping plates 20 are symmetrically connected to two ends of the screw rod II, the clamping plates 20 are in a T-shaped structure, two ends of the lower surface of the clamping plate 20 are symmetrically connected with clamping blocks, the clamping blocks are in a square structure, and meanwhile, the cross section formed by combining the clamping plates 20 and the clamping blocks is in an L-shaped structure; the screw rod II is connected with a servo motor II through a coupler, the air plate II 10 is connected to one end, far away from the material placing area 5, of the base 13, the air groove II 17 is formed in the air plate II 10, the bottom of the air groove II 17 is of an arc-surface-shaped structure, a plurality of groups of air holes II are formed in the surface of the air plate II 10 in parallel at equal intervals relative to the position of the air groove II 17, and meanwhile, the two sides of the air plate II 10 are symmetrically connected with the air plate III 11; the air groove II 17 is communicated with the air hole II, the air heater 21 is respectively connected with the air plate II 10 and the air plate III 11 through an air delivery pipe and a connecting pipe, the connecting pipe is of a cross structure, the air groove III is formed in the air plate III 11, a plurality of groups of air holes III are formed in the surface of the air plate III 11 in parallel at equal intervals, and meanwhile, the air plate II 10 and the air plate III 11 are combined together to form a U-shaped structure; and meanwhile, liquid discharge ports are formed in two sides of the second air groove 17 respectively and connected with the sealing covers.

As shown in fig. 1, 3 and 5, the second moving plate 19, the second screw rod, the second servo motor, the second clamping plate 20 and the clamping block are matched, so that the clamping device can effectively clamp the condenser, and the L-shaped structure formed by the second clamping plate 20 and the clamping block can prevent the condenser from being separated from the clamping device when clamping fails, thereby avoiding the reduction of the working efficiency and providing an additional protection effect.

As shown in fig. 1, 2 and 4, through the cooperation of blower 9, first aerofoil 7, first air groove 14 and first air hole 8, can carry out preliminary air-drying when the condenser breaks away from electrophoresis cell 6 to can blow the remaining electrophoresis liquid in the condenser surface to in the electrophoresis cell 6, and then realized the recycle of electrophoresis liquid, reduce the extra consumption of electrophoresis liquid, moreover through the cooperation of second aerofoil 10, third aerofoil 11 and air heater 21, effectively improve the drying speed and the efficiency of condenser.

The working principle is as follows: when the electrophoresis line processing device of the refrigerator condenser is used, a condenser is placed in the storage area 5, then the electric cylinder 18 is started, the electric cylinder 18 descends the second moving plate 19 and the second clamping plate 20 to a proper height through the telescopic rod, then the second servo motor is started, the second servo motor drives the second screw rod through the coupler, then the second clamping plate 20 moves relatively, after the second clamping plate 20 and the clamping block fix the condenser, the electric cylinder 18 is started again, the condenser ascends along with the second moving plate 19, then the first servo motor 1 is started, the first servo motor 1 drives the first transmission shaft 2 through the coupler, the first transmission shaft 2 drives the first screw rod 3 to rotate through the bevel gear, then the first slider 16 drives the second moving plate 19 to move above the electrophoresis tank 6, the electric cylinder 18 is started, the condenser enters the electrophoresis tank 6 to carry out corresponding electrophoresis treatment, and after the electrophoresis treatment, the electric cylinder 18 is started to move upwards, simultaneously, a blower 9 is started, the blower 9 preliminarily dries the surface of the condenser through a first air plate 7, a first air groove 14 and a first air hole 8, electrophoresis liquid remaining on the surface of the condenser is blown down into the electrophoresis cell 6, then a second moving plate 19 drives the condenser to move to positions of a second air plate 10 and a third air plate 11, a hot air blower 21 is started, the hot air blower 21 thoroughly dries the condenser through the matching of an air conveying pipe, a connecting pipe, the second air plate 10 and the third air plate 11, and when liquid accidentally enters a second air groove 17, the liquid can be quickly discharged by opening a sealing cover of a liquid outlet; this is the whole process of the refrigerator condenser electrophoresis line processing device.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a refrigerator condenser electrophoresis line processingequipment, includes servo motor (1), electrophoresis cell (6) and two (10) of aerofoil, its characterized in that: an output shaft of the servo motor I (1) is connected with a transmission shaft I (2) through a coupler, the transmission shaft I (2) is connected with a screw rod I (3) through a helical gear, the servo motor I (1) is connected with the side surface of a base (13) through a protection box I, a first movable plate (4) and a lower end of a first movable plate are connected with the surface of a first sliding block (16), the first sliding block (16) is connected into a first sliding groove (12) through the screw rod I (3), a material placing area (5) is arranged on the surface of one end, close to the servo motor I (1), of the base (13), the swimming pool (6) is arranged in the middle of the surface of the base (13), a first air plate (7) is connected above the swimming pool (6) through a first fixing plate (15), the first fixing plate (15) is connected with the two sides of the swimming pool (6), a first air blower (7) is connected with the middle of the upper surface of the first air plate (7) through a blower (9), and the blower (9) is communicated with a first air hole (8) through a first air groove (14), the middle of the first movable plate (4) is connected with the electric cylinder (18), the telescopic rod of the electric cylinder (18) is connected with the second movable plate (19), the clamping plate (20) is connected to the lower surface of the second movable plate (19) in a sliding mode through the second screw rod, the second screw rod is connected with the second servo motor through the coupler, the second air plate (10) is connected to one end, away from the object placing area (5), of the base (13), the second air groove (17) is formed in the second air plate (10), the second air groove (17) is communicated with the second air hole, the air heater (21) is connected with the second air plate (10) and the third air plate (11) through the air conveying pipe and the connecting pipe respectively, the third air groove formed in the third air hole (11) is communicated with the third air hole, meanwhile, liquid discharge ports are formed in two sides of the second air groove (17) respectively, and the liquid discharge ports are connected with the sealing covers.

2. The refrigerator condenser electrophoresis line processing device of claim 1, wherein: base (13) surface both ends symmetry sets up puts thing district (5) and two (10) of aerofoil, and base (13), put thing district (5), swimming pool (6) and two (10) combinations of aerofoil constitute the mesh font and distribute, and base (13) are close to the one end of servo motor (1) and set up drive groove one, and drive groove one is the I-shaped structure.

3. The refrigerator condenser electrophoresis line processing device of claim 1, wherein: the first sliding grooves (12) are symmetrically arranged on two sides of the base (13), the cross sections of the first sliding grooves (12) are of square structures, the first screw rods (3) are movably connected into the first sliding grooves (12) through bearings, the first moving plate (4) is slidably connected above the base (13) through the first sliding blocks (16), the first sliding blocks (16) are of square structures, and the first moving plate (4) is of Jiong-shaped structures.

4. The refrigerator condenser electrophoresis line processing device of claim 1, wherein: the top in electrophoresis cell (6) is connected through fixed plate (15) in aerofoil (7), and the cross-section that aerofoil (7) and fixed plate (15) combination constitute together is Jiong shape structure, and the height that highly is greater than movable plate (4) of fixed plate (15), and simultaneously the position symmetry of relative air duct (14) of aerofoil (7) offers gas pocket (8), and gas pocket (8) of aerofoil (7) both sides all incline to the centre, and gas pocket (8) of aerofoil (7) both sides are combined together and are constituted the splayed and distribute.

5. The refrigerator condenser electrophoresis line processing device of claim 1, wherein: the air groove II (17) is formed in the air plate II (10), the bottom of the air groove II (17) is of an arc-surface structure, a plurality of groups of air holes II are formed in the surface of the air plate II (10) in parallel and at equal intervals relative to the position of the air groove II (17), and meanwhile, the two sides of the air plate II (10) are symmetrically connected with the air plate III (11).

6. The refrigerator condenser electrophoresis line processing device of claim 1, wherein: air heater (21) are connected aerofoil two (10) and aerofoil three (11) respectively through gas-supply pipe and connecting pipe, and the connecting pipe is the cruciform structure, and sets up air groove three in aerofoil three (11), and aerofoil three (11) surface parallel equidistant seting up multiunit gas pocket three, and aerofoil two (10) and aerofoil three (11) are combined together and are constituted the U-shaped structure simultaneously.

7. The refrigerator condenser electrophoresis line processing device of claim 1, wherein: a second sliding groove is formed in the second moving plate (19), the second screw rod is movably connected into the second sliding groove through a bearing, the second screw rod adopts a positive and negative tooth two-way screw rod, the clamping plates (20) are symmetrically connected to two ends of the second screw rod, the clamping plates (20) are of T-shaped structures, two ends of the lower surface of each clamping plate (20) are symmetrically connected with clamping blocks, each clamping block is of a square structure, and meanwhile the cross section formed by the clamping plates (20) and the clamping blocks is of an L-shaped structure.

Images