CN107695011B

CN107695011B - Workpiece cleaning machine

Info

Publication number: CN107695011B
Application number: CN201711100907.5A
Authority: CN
Inventors: 周杨; 陈松; 宋勇
Original assignee: CHONGQING YUJIANG DIE-CASTING CO LTD
Current assignee: Chongqing Yujiang Die Casting Co ltd
Priority date: 2017-11-09
Filing date: 2017-11-09
Publication date: 2023-08-01
Anticipated expiration: 2037-11-09
Also published as: CN107695011A

Abstract

The invention discloses a workpiece cleaning machine.A corner divider is arranged at the left part of a frame, and 6 workpiece clamping tools with the same structure are uniformly distributed on a turntable at the top of the corner divider along the circumferential direction; the left front part of the frame is sequentially provided with 6 stations in a anticlockwise direction; a compressed air nozzle is arranged on the frame at the compressed air dehydration station, and compressed air sprayed out of the compressed air nozzle blows the workpiece and realizes dehydration; a lifting vacuum hood is arranged on the frame at the vacuum drying station. The cleaning machine is characterized in that 6 workpiece clamping tools with the same structure are uniformly distributed on a turntable at the top of the angle divider along the circumferential direction, an upper workpiece station, a lower workpiece station, a high-pressure cleaning station, an immersed cleaning station, a pure water spray cleaning station, a compressed air dehydration station and a vacuum drying station are arranged on a rack, the angle divider rotates in a stepping mode, the workpieces move one station every time when rotating, and impurities such as burrs, chips and greasy dirt are removed after each workpiece runs through 6 stations.

Description

Workpiece cleaning machine

Technical Field

The present invention relates to a workpiece cleaning machine, and to a workpiece cleaning machine for cleaning impurities such as chips on the surface of a workpiece.

Background

After the workpiece is machined, impurities such as burrs, chips, oil stains and the like are often attached to the surface of the workpiece and the cavity, and the impurities influence the surface quality of the workpiece, so that the impurities such as burrs, chips, oil stains and the like on the workpiece need to be cleaned before the workpiece leaves a factory.

Disclosure of Invention

The invention aims to solve the technical problem of providing a workpiece cleaning machine, which is used for cleaning impurities such as burrs, scraps, greasy dirt and the like on a workpiece.

The technical scheme of the invention is as follows: a workpiece cleaning machine, characterized in that: the device comprises a frame (1) and a high-pressure spray gun (3), wherein the left part of the frame (1) is provided with a corner divider (2), 6 workpiece clamping tools (J) with the same structure are uniformly distributed on a turntable at the top of the corner divider along the circumferential direction, the workpiece clamping tools (J) are used for clamping workpieces, and the workpieces rotate in a stepping mode along with the workpiece clamping tools (J) on the corner divider (2); the left front part of the frame (1) is sequentially provided with an upper and lower workpiece station (G1), a high-pressure cleaning station (G2), a submerged cleaning station (G3), a pure water spray cleaning station (G4), a compressed air dehydration station (G5) and a vacuum drying station (G6) in a anticlockwise direction, the front end of the frame (1) is provided with an upper and lower workpiece station, and the front end of the frame (1) is provided with an upper and lower workpiece window corresponding to the upper and lower workpiece; the high-pressure cleaning station (G2) is provided with a robot (200), the robot is matched with the workpiece clamping tool (J) and grabs a workpiece on the workpiece clamping tool (J), the workpiece is cleaned at high pressure by the high-pressure spray gun (3) at the rear part of the frame (1), and the workpiece after the high-pressure cleaning is placed on the workpiece clamping tool (J) by the robot (200); a lifting cleaning cover (100) is arranged on the frame (1) at the immersed cleaning station (G3), a sealing ring is arranged on the bottom surface of the cleaning cover, a water inlet pipe and a water outlet pipe which are communicated with the inner cavity are connected to the cleaning cover, and the cleaning cover can cover the workpiece and the workpiece clamping tool (J) when being lowered and clean the workpiece; a spray header is arranged on a frame (1) at the pure water spray cleaning station (G4), and pure water sprayed by the spray header cleans a workpiece; a compressed air nozzle is arranged on the frame (1) at the compressed air dehydration station (G5), and compressed air sprayed out of the compressed air nozzle blows a workpiece and realizes dehydration; a lifting vacuum hood (101) is arranged on a frame (1) at the vacuum drying station (G6), and can cover a workpiece and a workpiece clamping tool (J) when the vacuum hood descends, and the workpiece is dried in vacuum through a vacuum-pumping pipeline connected to the vacuum hood.

In the technical scheme, 6 workpiece clamping tools (J) with the same structure are uniformly distributed on the turntable at the top of the angle divider along the circumferential direction, each workpiece clamping tool (J) can clamp one workpiece, and the workpieces rotate along with the angle divider; and be equipped with upper and lower work station (G1), high pressure cleaning station (G2), submergence cleaning station (G3), pure water sprays cleaning station (G4), compressed air dehydration station (G5) and vacuum drying station (G6) on frame (1), and the angle divider rotates with step-by-step mode, just moves a station once the work piece rotates, accomplishes impurity such as deburring, cleaning piece, greasy dirt after every work piece walks 6 stations, and 6 stations arrange properly, and the cleaning performance is good, and is efficient.

As an optimal design scheme of the invention, the workpiece clamping tool (J) comprises a door-shaped frame (4) and a pressing component, wherein the lower ends of two vertical edges of the door-shaped frame (4) are fixed with a turntable of the angle divider (2), and a cushion block (5) is respectively arranged on the front surfaces of the two vertical edges of the door-shaped frame; the two compression assemblies are correspondingly arranged at two vertical edges of the door-shaped frame (4), and comprise a rotary compression block (201) and an ejector rod cylinder (11), wherein the inner end of the rotary compression block (201) is a compression end, the middle part of the rotary compression block is hinged with the corresponding vertical edge of the door-shaped frame (4) through a pin shaft (6), the pin shaft is vertical to the door-shaped frame (4), a guide pin (7) is clamped in a U-shaped notch at the outer end of the rotary compression block (201), and the guide pin (7) is fixedly arranged at the middle part of the lifting rod (8); the upper part and the lower part of the lifting rod (8) are respectively in sliding fit with corresponding guide sleeves on the vertical edges of the door-shaped frame (4), the upper end of the lifting rod is sleeved with a positioning nut (9), and a reset spring (10) is sleeved on the lifting rod (8) between the positioning nut and the guide sleeve on the upper part; the ejector rod cylinder (11) is vertically arranged on a supporting frame, the supporting frame is fixedly arranged on a rotary table of the angle divider (2), and the top of the lifting rod (8) can be pressed downwards when a piston rod of the ejector rod cylinder (11) is ejected out.

By adopting the structural design, the workpiece clamping tool (J) in the scheme has the advantages of simple structure, reliable clamping, convenient and labor-saving workpiece loading and unloading.

As the preferable design, the number of the high-pressure spray guns (3) is two, the two high-pressure spray guns are fixed on the frame (1) side by side left and right, the two high-pressure spray guns (3) are respectively connected with a high-pressure pump (12) through corresponding pipelines, and the high-pressure pumps are arranged at the rear part of the frame (1); the high-pressure pump (12) is communicated with a primary washing water tank (15) through a first bag filter (13) and a high-pressure water supply pump (14), the primary washing water tank is arranged in the center of the front part of the frame (1), and a first heating pipe (16) is arranged in the primary washing water tank (15); the bottom of the frame (1) is fixedly provided with a first water receiving hopper which is communicated with the primary washing water tank (15) through a water return pipe, and a slag receiving hopper is detachably arranged at the position, close to the primary washing water tank (15), of the water return pipe.

In the invention, a water inlet pipe on the cleaning cover (100) is communicated with the primary cleaning water tank (15) through the second bag filter (17) and the immersed cleaning pump (18), a water outlet pipe on the cleaning cover (100) is communicated with the primary cleaning water tank (15), and a slag receiving hopper is detachably arranged at a position, close to the primary cleaning water tank (15), of the water outlet pipe.

In the scheme, a pipeline between the spray header and the pure water tank (19) is connected with a core filter (22) through a spray pump (20), a third bag filter (21) in sequence, and water is supplied by the pure water tank (19); the sewage sprayed by the spray header is collected by a water collecting bucket at the rear part of the frame (1), and a water return pipe of the water collecting bucket is connected with an oil-water separator (23) and then is communicated with the pure water tank (19).

Preferably, the compressed air nozzle is mounted on a lifting frame (24) which is connected with the supporting frame through a lifting cylinder, and an air pipe between the compressed air nozzle and an air storage tank (25) is connected with an air heater (26) and an air filter (27).

By adopting the technical scheme, the compressed air nozzle can move up and down, so that the water on a workpiece is removed in a 'up-down scanning' mode, and the dehydration effect is high; at the same time, the air heater (26) can preheat the compressed air, thereby improving the dewatering efficiency.

In the scheme, an air hole on the vacuum pumping cover (101) is communicated with a vacuum pump (28) through a pipeline, and the vacuum pump is arranged at the top of the frame (1).

The beneficial effects are that: the cleaning machine is characterized in that 6 workpiece clamping tools with the same structure are uniformly distributed on a turntable at the top of the angle divider along the circumferential direction, each workpiece clamping tool can clamp one workpiece, and the workpieces rotate along with the angle divider; and be equipped with upper and lower work station, high pressure cleaning station, submergence cleaning station, pure water spray cleaning station, compressed air dehydration station and vacuum drying station in the frame, and the angle divider rotates with step-by-step mode, just moves one station for every rotation work piece, accomplishes impurity such as deburring, cleaning piece, greasy dirt after every work piece walks 6 stations, and 6 work stations arrange properly, and the cleaning performance is good, efficient.

Drawings

Fig. 1 is an isometric view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a top view of fig. 2.

Fig. 4 is a schematic view of fig. 3 with the cleaning hood and other components removed.

Fig. 5 is a cross-sectional view of fig. 3.

Fig. 6 is a left side view of fig. 2.

Fig. 7 is a schematic diagram of the workpiece clamping tool in fig. 1.

Detailed Description

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

as shown in fig. 1-7, a workpiece cleaning machine comprises a frame 1 and a high-pressure spray gun 3, wherein a corner divider 2 is arranged at the left part of the frame 1, 6 workpiece clamping tools J with the same structure are uniformly distributed on a turntable at the top of the corner divider along the circumferential direction, the workpiece clamping tools J are used for clamping workpieces, and the workpieces rotate in a stepping mode along with the workpiece clamping tools J on the corner divider 2. The left front part of the frame 1 is sequentially provided with an upper and lower workpiece working position G1, a high-pressure cleaning working position G2, a submerged cleaning working position G3, a pure water spraying cleaning working position G4, a compressed air dehydration working position G5 and a vacuum drying working position G6 in a anticlockwise direction, the front end of the frame 1 is provided with an upper and lower workpiece working position, and the front end of the frame 1 is provided with an upper and lower workpiece window corresponding to the upper and lower workpiece working positions. The high-pressure cleaning station G2 is provided with an outsourcing robot 200, the manipulator of the robot 200 has the capability of grabbing the workpiece, the manipulator moves the workpiece to the rear part of the frame 1, the manipulator of the robot 200 places the workpiece on the workpiece clamping tool J after cleaning, and the operation is set by a program. The robot 200 is matched with the workpiece clamping tool J, and grabs the workpiece on the workpiece clamping tool J, the workpiece is cleaned at high pressure by the high-pressure spray gun 3 at the rear part of the frame 1, and the workpiece after the high-pressure cleaning is placed on the workpiece clamping tool J by the robot 200. The frame 1 at the immersed cleaning station G3 is provided with a lifting cleaning cover 100, the bottom surface of the cleaning cover is provided with a sealing ring, the cleaning cover is connected with a water inlet pipe and a water outlet pipe which are communicated with the inner cavity, and the cleaning cover can cover the workpiece and the workpiece clamping tool J when being lowered and clean the workpiece. A spray header is arranged on the frame 1 at the pure water spray cleaning station G4, and pure water sprayed by the spray header cleans the workpiece. The frame 1 at the compressed air dehydration station G5 is provided with a compressed air nozzle, and compressed air sprayed by the compressed air nozzle blows the workpiece and realizes dehydration. The frame 1 at the vacuum drying station G6 is provided with a lifting vacuum hood 101 which can cover the workpiece and the workpiece clamping tool J when descending and performs vacuum drying on the workpiece through a vacuum pumping pipeline connected with the vacuum hood.

As shown in fig. 1-6, the workpiece clamping tool J comprises a door-shaped frame 4 and a pressing assembly, wherein the lower ends of two vertical edges of the door-shaped frame 4 are fixed with a turntable of the angle divider 2, and a cushion block 5 is respectively arranged on the front surfaces of the two vertical edges of the door-shaped frame. The two compression assemblies are correspondingly arranged at two vertical edges of the door-shaped frame 4 and comprise a rotation compression block 201 and an ejector rod cylinder 11, wherein the inner end of the rotation compression block 201 is a compression end, the middle part of the rotation compression block is hinged with the corresponding vertical edge of the door-shaped frame 4 through a pin shaft 6, the pin shaft is vertical to the door-shaped frame 4, a guide pin 7 is clamped in a U-shaped notch at the outer end of the rotation compression block 201, and the guide pin 7 is fixedly arranged in the middle part of a lifting rod 8. The upper part and the lower part of the lifting rod 8 are respectively in sliding fit with the corresponding guide sleeves on the vertical edges of the door-shaped frame 4, the upper end of the lifting rod is sleeved with a positioning nut 9, and a reset spring 10 is sleeved on the lifting rod 8 between the positioning nut and the guide sleeve on the upper part. The ejector rod cylinder 11 is vertically arranged on a supporting frame, the supporting frame is fixedly arranged on a rotary table of the angle divider 2, and the top of the lifting rod 8 can be pressed downwards when a piston rod of the ejector rod cylinder 11 is ejected out.

As shown in fig. 1 to 6, the number of the high-pressure spray guns 3 is two, and the high-pressure spray guns 3 are fixed on the frame 1 side by side left and right, and the two high-pressure spray guns 3 are respectively connected with a high-pressure pump 12 through corresponding pipelines, and the high-pressure pump is arranged at the rear part of the frame 1. The high pressure pump 12 communicates with a primary washing water tank 15 installed at the center of the front of the frame 1 through a first bag filter 13 and a high pressure water supply pump 14, and a first heating pipe 16 is provided in the primary washing water tank 15. The bottom of the frame 1 is fixedly provided with a first water receiving hopper which is communicated with the primary cleaning water tank 15 through a return pipe, and a slag receiving hopper is detachably arranged at the position of the return pipe, which is close to the primary cleaning water tank 15.

The water inlet pipe on the cleaning cover 100 is communicated with the primary cleaning water tank 15 through the second bag filter 17 and the immersed cleaning pump 18, the water outlet pipe on the cleaning cover 100 is communicated with the primary cleaning water tank 15, and the position of the water outlet pipe, which is close to the primary cleaning water tank 15, is provided with a slag receiving hopper in a detachable mode.

As shown in fig. 1 to 6, the pipe between the shower head and the pure water tank 19 is connected in sequence through a shower pump 20, a third bag filter 21 and a core filter 22, and is supplied with water from the pure water tank 19. The sewage sprayed by the spray header is collected by a water collecting bucket at the rear part of the frame 1, and a water return pipe of the water collecting bucket is connected with the oil-water separator 23 and then is communicated with the pure water tank 19. The compressed air nozzle is mounted on a lifting frame 24 which is connected to the support frame by means of a lifting cylinder, and an air pipe between the compressed air nozzle and an air reservoir 25 is connected to an air heater 26 and an air filter 27. The air holes on the vacuum pumping hood 101 are communicated with a vacuum pump 28 through a pipeline, and the vacuum pump is arranged at the top of the frame 1.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims

1. A workpiece cleaning machine, characterized in that: the device comprises a frame (1) and a high-pressure spray gun (3), wherein the left part of the frame (1) is provided with a corner divider (2), 6 workpiece clamping tools (J) with the same structure are uniformly distributed on a turntable at the top of the corner divider along the circumferential direction, the workpiece clamping tools (J) are used for clamping workpieces, and the workpieces rotate in a stepping mode along with the workpiece clamping tools (J) on the corner divider (2); the left front part of the frame (1) is sequentially provided with an upper and lower workpiece station (G1), a high-pressure cleaning station (G2), a submerged cleaning station (G3), a pure water spray cleaning station (G4), a compressed air dehydration station (G5) and a vacuum drying station (G6) in a anticlockwise direction, the front end of the frame (1) is provided with an upper and lower workpiece station, and the front end of the frame (1) is provided with an upper and lower workpiece window corresponding to the upper and lower workpiece; the high-pressure cleaning station (G2) is provided with a robot (200), the robot is matched with the workpiece clamping tool (J) and grabs a workpiece on the workpiece clamping tool (J), the workpiece is cleaned at high pressure by the high-pressure spray gun (3) at the rear part of the frame (1), and the workpiece after the high-pressure cleaning is placed on the workpiece clamping tool (J) by the robot (200); a lifting cleaning cover (100) is arranged on the frame (1) at the immersed cleaning station (G3), a sealing ring is arranged on the bottom surface of the cleaning cover, a water inlet pipe and a water outlet pipe which are communicated with the inner cavity are connected to the cleaning cover, and the cleaning cover can cover the workpiece and the workpiece clamping tool (J) when being lowered and clean the workpiece; a spray header is arranged on a frame (1) at the pure water spray cleaning station (G4), and pure water sprayed by the spray header cleans a workpiece; a compressed air nozzle is arranged on the frame (1) at the compressed air dehydration station (G5), and compressed air sprayed out of the compressed air nozzle blows a workpiece and realizes dehydration; a lifting vacuum hood (101) is arranged on the frame (1) at the vacuum drying station (G6), and can cover the workpiece and the workpiece clamping tool (J) when the vacuum hood descends, and the workpiece is dried in vacuum through a vacuum-pumping pipeline connected with the vacuum hood; the workpiece clamping tool (J) comprises a door-shaped frame (4) and a pressing assembly, wherein the lower ends of two vertical edges of the door-shaped frame (4) are fixed with a turntable of the angle divider (2), and a cushion block (5) is respectively arranged on the upper parts of the front surfaces of the two vertical edges of the door-shaped frame; the two compression assemblies are correspondingly arranged at two vertical edges of the door-shaped frame (4), and comprise a rotary compression block (201) and an ejector rod cylinder (11), wherein the inner end of the rotary compression block (201) is a compression end, the middle part of the rotary compression block is hinged with the corresponding vertical edge of the door-shaped frame (4) through a pin shaft (6), the pin shaft is vertical to the door-shaped frame (4), a guide pin (7) is clamped in a U-shaped notch at the outer end of the rotary compression block (201), and the guide pin (7) is fixedly arranged at the middle part of the lifting rod (8); the upper part and the lower part of the lifting rod (8) are respectively in sliding fit with corresponding guide sleeves on the vertical edges of the door-shaped frame (4), the upper end of the lifting rod is sleeved with a positioning nut (9), and a reset spring (10) is sleeved on the lifting rod (8) between the positioning nut and the guide sleeve on the upper part; the ejector rod cylinder (11) is vertically arranged on a supporting frame, the supporting frame is fixedly arranged on a turntable of the angle divider (2), and the top of the lifting rod (8) can be pressed downwards when a piston rod of the ejector rod cylinder (11) is ejected out; the number of the high-pressure spray guns (3) is two, the two high-pressure spray guns (3) are fixed on the frame (1) side by side left and right, the two high-pressure spray guns (3) are respectively connected with a high-pressure pump (12) through corresponding pipelines, and the high-pressure pumps are arranged at the rear part of the frame (1); the high-pressure pump (12) is communicated with a primary washing water tank (15) through a first bag filter (13) and a high-pressure water supply pump (14), the primary washing water tank is arranged in the center of the front part of the frame (1), and a first heating pipe (16) is arranged in the primary washing water tank (15); the bottom of the frame (1) is fixedly provided with a first water receiving hopper which is communicated with the primary washing water tank (15) through a water return pipe, and a slag receiving hopper is detachably arranged at the position, close to the primary washing water tank (15), of the water return pipe.

2. The workpiece cleaner of claim 1, wherein: the water inlet pipe on the cleaning cover (100) is communicated with the primary cleaning water tank (15) through the second bag filter (17) and the immersed cleaning pump (18), the water outlet pipe on the cleaning cover (100) is communicated with the primary cleaning water tank (15), and the position, close to the primary cleaning water tank (15), of the water outlet pipe is provided with a slag receiving hopper in a detachable mode.

3. The workpiece cleaner of claim 1, wherein: the pipeline between the spray header and the pure water tank (19) is connected with the core filter (22) through the spray pump (20), the third bag filter (21) in sequence, and water is supplied by the pure water tank (19); the sewage sprayed by the spray header is collected by a water collecting bucket at the rear part of the frame (1), and a water return pipe of the water collecting bucket is connected with an oil-water separator (23) and then is communicated with the pure water tank (19).

4. The workpiece cleaner of claim 1, wherein: the compressed air nozzle is arranged on a lifting frame (24), the lifting frame is connected with the supporting frame through a lifting cylinder, and an air pipe between the compressed air nozzle and an air storage tank (25) is connected with an air heater (26) and an air filter (27).

5. The workpiece cleaner of claim 1, wherein: the air hole on the vacuum pumping cover (101) is communicated with a vacuum pump (28) through a pipeline, and the vacuum pump is arranged at the top of the frame (1).