CN114655676A

CN114655676A - Transfer device is used in flywheel production

Info

Publication number: CN114655676A
Application number: CN202210494269.4A
Authority: CN
Inventors: 石磊; 陈闯; 李健; 张忠仁; 马俊明; 吴瑞雪; 董丽云
Original assignee: Jilin Dahua Machine Manufacturing Co ltd
Current assignee: Jilin Dahua Machine Manufacturing Co ltd
Priority date: 2022-05-07
Filing date: 2022-05-07
Publication date: 2022-06-24
Anticipated expiration: 2042-05-07
Also published as: CN114655676B

Abstract

The invention discloses a transfer device for flywheel production, which comprises a spraying and hanging mechanism, a conveying mechanism, a wheel carrying mechanism and a guide mechanism, wherein the spraying and hanging mechanism comprises an annular electric rail and a hook moving annularly along the annular electric rail; the conveying mechanism comprises two linear conveying belts which are arranged in parallel and arc conveying belts arranged at two ends of the linear conveying belts; the wheel carrying mechanism comprises a wheel carrying disc which is connected to the conveying mechanism at equal intervals through a telescopic spring, the front side and the rear side of the wheel carrying disc are respectively connected with a front roller and a rear roller through rotating shafts, the surface of the rear section of the wheel carrying disc is connected with two sliding limiting rollers through an adjusting assembly, and the front section of the wheel carrying disc is provided with a yielding groove which penetrates through the wheel carrying disc up and down; the guide mechanism comprises support side plates symmetrically arranged on two sides of a linear conveying belt and guide grooves arranged on the inner side walls of the corresponding support side plates, and the front idler wheel and the rear idler wheel can slide under the guide effect of the guide grooves.

Description

Transfer device is used in flywheel production

Technical Field

The invention relates to the technical field of transfer devices, in particular to a transfer device for flywheel production.

Background

The flywheel needs to get into cleaning equipment and washs after the finish machining, or gets into paint spraying apparatus and spray paint, and the operation is all removed on the gyration gallows through hanging the flywheel, and the next door sets up cleaning equipment or paint spraying apparatus and washs or spray paint the flywheel, and the dress of hanging of flywheel all adopts the manual work to hang the flywheel on the couple of gyration equipment usually, and the flywheel is comparatively heavy, hangs the dress through the manpower, wastes time and energy very much. Therefore, the invention aims to provide a device capable of automatically transferring and hanging the flywheel.

Disclosure of Invention

Therefore, the invention provides a transfer device for flywheel production, which solves the defects in the prior art.

A transfer device for flywheel production, comprising:

the spraying and hanging mechanism comprises an annular electric rail and a hook which moves annularly along the annular electric rail;

the conveying mechanism comprises two linear conveying belts which are arranged in parallel and arc conveying belts arranged at two ends of the linear conveying belts;

the wheel carrying mechanism comprises a wheel carrying disc which is connected to the conveying mechanism at equal intervals through a telescopic spring, the front side and the rear side of the wheel carrying disc are respectively connected with a front idler wheel and a rear idler wheel through rotating shafts, the surface of the rear section of the wheel carrying disc is connected with two sliding limiting rollers through an adjusting assembly, and the front section of the wheel carrying disc is provided with a abdicating groove which penetrates through the upper part and the lower part of the wheel carrying disc;

the guide mechanism comprises a support side plate and a guide groove, wherein the support side plate is located on one side of the linear conveying belt, the support side plate is symmetrically arranged on two sides of the linear conveying belt, the guide groove corresponds to the inner side wall of the support side plate, and the front roller and the rear roller can slide under the guide effect of the guide groove.

Preferably, the guide way includes that the rail of drawing in, first guided way, second guided way, third guided way and the rail of drawing out of end to end connection in order, draw in rail, draw out rail and the equal level setting of second guided way, draw in rail and draw out the rail and lie in same horizontal plane, and draw in the rail and penetrate from the front end lateral wall that carries the rim plate, draw out the rail and wear out from the rear end lateral wall that carries the rim plate, draw in the rail and under the initial condition front roller and rear roller height setting, first guided way slope sets up, the slope of third guided way sets up down.

Preferably, the annular electric rail comprises two linear electric rails parallel to the linear conveying belt and arc-shaped electric rails connected to two ends of the linear electric rails, and the guide mechanism is located on one side corresponding to the linear electric rails.

Preferably, the adjusting part is including setting up on the year rim plate and being on a parallel with two sliding rails of sharp conveyer belt direction of delivery and running through two run-through grooves between the sliding rail inboard, two slidable mounting has the sliding plate between the sliding rail, be on a parallel with two of sliding rail the year rim plate at sliding rail middle part still be provided with run-through groove intercommunication's sharp spout, perpendicular with the sliding plate is provided with the top and runs through the threaded rod of sharp spout, the top of threaded rod is passed through lock nut and is locked, the vertical installation in both ends surface of sliding plate can be along corresponding the gliding guide bar of sliding rail, the installation of slip spacing roller is in corresponding the top of guide bar.

Preferably, the surface of the wheel carrying disc is made of smooth stainless steel.

Preferably, the length of the second guide rail is greater than the distance between the front roller and the rear roller.

The invention has the following advantages:

the device can enable the flywheel to have an upward inclined angle which is favorable for hooking and automatically complete centering positioning in the transferring process through the matching of the spraying and hanging mechanism, the conveying mechanism, the wheel carrying mechanism and the guide mechanism, and can horizontally lift the position of the flywheel relative to the hooking part of the hook after the hook penetrates through the central wheel hole of the flywheel, so that the device can efficiently and stably complete the transferring of the flywheel, and the transferring device is also suitable for transferring of flywheels with different diameters.

Drawings

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

FIG. 2 is a schematic view of a portion of the present invention showing the wheel carrier plate sliding to the guide mechanism;

FIG. 3 is a schematic view of a flywheel transfer process of the present invention;

FIG. 4 is a schematic structural view of the wheel-carrying mechanism of the present invention.

In the figure:

1-spraying and hanging mechanism; 2-a conveying mechanism; 3-a wheel-carrying mechanism; 4-a guiding mechanism; 5-a flywheel; 6-a feeding table;

101-linear power rail; 102-a hook; 103-arc-shaped electric rails;

201-linear conveyor belt; 202-arc conveyor belt;

301-a telescoping spring; 302-a wheel carrier disc; 303-a rotating shaft; 304-a front roller; 305-rear roller; 306-a sliding limit roller; 307-a abdicating groove; 308-a sliding rail; 309-through slot; 310-a sliding plate; 311-a guide bar; 312-a threaded rod; 313-a locking nut; 314-linear chute;

401-supporting side plates; 402-a guide groove; 403-a first guide rail; 404-a second guide rail; 405-a third guide rail; 406-a lead-in rail; 407-exit rail;

501-center wheel hole.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 4, the invention provides a transfer device for flywheel production, which comprises a spraying and hanging mechanism 1, a conveying mechanism 2, a wheel carrying mechanism 3 and a guide mechanism 4.

The spraying and hanging mechanism 1 comprises an annular electric rail and a hook 102 which moves annularly along the annular electric rail.

The conveying mechanism 2 includes two linear conveying belts 201 arranged in parallel and arc conveying belts 202 arranged at two ends of the linear conveying belts 201. And a feeding table 6 is also arranged on one side of the conveying mechanism 2.

The wheel carrying mechanism 3 comprises a wheel carrying disc 302 which is connected to the conveying mechanism 2 through an expansion spring 301 in an equal distance, and the surface of the wheel carrying disc 302 is made of smooth stainless steel.

The front side and the rear side of the wheel-carrying disc 302 are respectively connected with a front roller 304 and a rear roller 305 through a rotating shaft 303, the surface of the rear section of the wheel-carrying disc 302 is connected with two sliding limiting rollers 306 through an adjusting component, and the front section of the wheel-carrying disc 302 is provided with a yielding groove 307 penetrating through the wheel-carrying disc 302 up and down;

the guide mechanism 4 includes support side plates 401 symmetrically disposed on two sides of one linear conveyor belt 201 and guide grooves 402 disposed on inner side walls of the support side plates 401, and the front rollers 304 and the rear rollers 305 can slide under the guiding action of the guide grooves 402.

Specifically, the method comprises the following steps: the guide groove 402 includes a leading-in rail 406, a first guide rail 403, a second guide rail 404, a third guide rail 405 and a leading-out rail 407, which are sequentially connected end to end, the leading-in rail 406, the leading-out rail 407 and the second guide rail 404 are all horizontally arranged, the leading-in rail 406 and the leading-out rail 407 are located on the same horizontal plane, the leading-in rail 406 penetrates through the front end side wall of the wheel carrying disc 302, the leading-out rail 407 penetrates through the rear end side wall of the wheel carrying disc 302, the leading-in rail 406 and the front roller 304 and the rear roller 305 in the initial state are arranged at the same height, the first guide rail 403 is arranged obliquely upward, and the third guide rail 405 is arranged obliquely downward.

And the length of the second guide rail 404 is greater than the distance between the front roller 304 and the rear roller 305.

The annular electric rail comprises two linear electric rails 101 parallel to the linear conveying belt 201 and arc-shaped electric rails 103 connected to two ends of the linear electric rails 101, and the guide mechanism 4 is located on one side corresponding to the linear electric rails 101.

Specifically, the method comprises the following steps: the adjusting assembly comprises two sliding rails 308 arranged on the wheel carrying disc 302 and parallel to the conveying direction of the linear conveying belt 201, and a through groove 309 penetrating between the inner sides of the two sliding rails 308, a sliding plate 310 is slidably arranged between the two sliding rails 308, the wheel carrying disc 302 parallel to the middle of the two sliding rails 308 of the sliding rails 308 is further provided with a linear sliding groove 314 communicated with the through groove 309, a threaded rod 312 is vertically arranged with the sliding plate 310 and the top of the threaded rod passes through the linear sliding groove 314, the top of the threaded rod 312 is locked by a locking nut 313, guide rods 311 capable of sliding along the corresponding sliding rails 308 are vertically arranged on the surfaces of the two ends of the sliding plate 310, and the sliding limiting rollers 306 are arranged at the top ends of the corresponding guide rods 311.

The working principle of the device is as follows:

firstly, placing a flywheel:

adjusting the adjusting assembly according to the diameter of the flywheel 5, specifically:

the threaded rod 312 is moved along the linear sliding groove 314, so that the sliding plate 310 connected below the threaded rod 312 slides along the two sliding rails 308, and when the sliding limiting roller 306 connected with the guide rod 311 on the sliding plate 310 is tangent to the flywheel 5 to be placed on the wheel carrying disc 302, the central wheel hole 501 of the flywheel 5 can correspond to the abdicating groove 307 arranged on the wheel carrying disc 302.

Next, the flywheel 5 to be transferred is placed on each of the wheel carriers 302 moving with the conveyor mechanism 2 from the position of the loading table 6. When the flywheel 5 is placed, although it is not necessary to be very accurate, it is ensured that the center of the flywheel 5 is located in the horizontal area corresponding to the center between the two sliding limit rollers 306 on the wheel carrier disc 302, so that the flywheel 5 can be located between the two sliding limit rollers 306 at a later stage.

II, transferring the flywheel:

when the flywheel 5 to be transported is transported to the guide mechanism 4 along with the pulley wheel 302 on the linear conveyor belt 201 of the conveyor mechanism 2, the front rollers 304 on both sides of the pulley wheel 302 firstly enter the guide groove 402 through the leading-out rails 407 on both sides.

During further displacement of the carrier disc 302, the front roller 304 enters the first guide rail 403. When the front idler wheel 304 and the rear idler wheel 305 both operate to the first guide rail 403, the carrier wheel disc 302 is at the maximum upward inclination angle, and due to the smooth material of the surface of the carrier wheel disc 302, the flywheel 5 on the carrier wheel disc 302 slides downwards, the side wall of the flywheel 5 is tangent to two sliding limiting rollers 306, so that the centering positioning of the flywheel 5 on the carrier wheel disc 302 is realized, and the later-stage hook 102 is convenient for accurately hooking the flywheel 5.

At this time, the hook 102 on the linear electric rail 101 passes through the center wheel hole 501 on the flywheel 5 in the moving process, and since the center wheel hole 501 of the flywheel 5 is in the inclined distribution state at this time, the hook 102 has a larger hooking range.

However, at this time, the hooks 102 are only approximately distributed at the center wheel hole 501 of the flywheel 5, the diameters of the center wheel holes 501 of the flywheels 5 of different specifications are different, and the flywheels are distributed in an inclined and upward manner, and if the flywheels are lifted up at this time, the flywheels may not be hooked or slip off. In order to overcome the above difficulties.

The mode of the invention has the advantages that: after the hooks 102 are approximately distributed in the center wheel hole 501 of the flywheel 5, during the further displacement of the wheel carrier disc 302, the front roller 304 and the rear roller 305 on both sides of the wheel carrier disc will enter the second guide rail 404 which is distributed horizontally, the flywheel 5 will also move upwards, and the center wheel hole 501 will also move upwards relative to the hooking part of the hooks 102. At this time, the center wheel hole 501 can be tightly attached to the hook rod of the hook 102, and in the process of translating along with the hook 102, the center wheel hole 501 of the flywheel 5 is tightly attached to the inner side wall of the hook 102 and is hung on the hook 102, so that the flywheel 5 is stably hooked. The flywheel disc 302 of the unloaded flywheel 5 slides out of the guide mechanism 4 through the third guide rail 405 and the leading-out rail 407, and when the flywheel disc 302 runs downwards in an inclined mode, the flywheel 5 is gradually separated from the surface of the flywheel disc 302, a buffering effect is achieved on the hoisting of the flywheel 5, the phenomenon that the flywheel 5 is directly hoisted to shake violently is avoided, then the transfer of a subsequent flywheel is completed according to the mode, and the continuity of transfer operation is high.

The device can enable the flywheel to have an upward inclined angle which is favorable for hooking and automatically complete centering positioning in the transferring process through the matching among the spraying and hanging mechanism 1, the conveying mechanism 2, the wheel carrying mechanism 3 and the guide mechanism 4, and can enable the position of the hooking part of the flywheel relative to the hook 102 to be horizontally lifted after the hook 102 passes through the central wheel hole 501 of the flywheel, so that the device can efficiently and stably complete the transferring of the flywheel, and the transferring device is also suitable for transferring the flywheels with different diameters.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, it is intended that all such modifications and alterations be included within the scope of this invention as defined in the appended claims.

Claims

1. The utility model provides a transfer device is used in flywheel production which characterized in that: comprises that

The spraying and hanging mechanism (1) comprises an annular electric rail and a hook (102) which moves annularly along the annular electric rail;

the conveying mechanism (2) comprises two linear conveying belts (201) arranged in parallel and arc conveying belts (202) arranged at two ends of the linear conveying belts (201);

the wheel carrying mechanism (3) comprises a wheel carrying disc (302) which is connected to the conveying mechanism (2) at equal intervals through a telescopic spring (301), the front side and the rear side of the wheel carrying disc (302) are respectively connected with a front roller (304) and a rear roller (305) through rotating shafts (303), the rear section surface of the wheel carrying disc (302) is connected with two sliding limiting rollers (306) through adjusting components, and the front section of the wheel carrying disc (302) is provided with a yielding groove (307) which penetrates through the wheel carrying disc (302) up and down;

the guide mechanism (4) comprises a support side plate (401) and a guide groove (402), wherein the support side plate (401) is located on one linear conveying belt (201) and is symmetrically arranged on two sides of the linear conveying belt, the guide groove (402) corresponds to the inner side wall of the support side plate (401), and both the front roller (304) and the rear roller (305) can slide under the guide effect of the guide groove (402).

2. The transfer device for flywheel production according to claim 1, wherein: the guide groove (402) comprises a leading-in rail (406), a first guide rail (403), a second guide rail (404), a third guide rail (405) and a leading-out rail (407), which are sequentially connected end to end, wherein the leading-in rail (406), the leading-out rail (407) and the second guide rail (404) are all horizontally arranged, the leading-in rail (406) and the leading-out rail (407) are located on the same horizontal plane, the leading-in rail (406) penetrates through the side wall of the front end of the carrier wheel disc (302), the leading-out rail (407) penetrates through the side wall of the rear end of the carrier wheel disc (302), the leading-in rail (406) and the front roller (304) and the rear roller (305) are arranged at the same height in an initial state, the first guide rail (403) is arranged obliquely upwards, and the third guide rail (405) is arranged obliquely downwards.

3. The transfer device for flywheel production according to claim 1, wherein: the annular electric rail comprises two linear electric rails (101) parallel to the linear conveying belt (201) and arc-shaped electric rails (103) connected to two ends of each linear electric rail (101), and the guide mechanism (4) is located on one side of the corresponding linear electric rail (101).

4. The transfer device for flywheel production according to claim 1, wherein: the adjusting component comprises two sliding rails (308) which are arranged on the wheel carrying disc (302) and are parallel to the conveying direction of the linear conveying belt (201), and a through groove (309) which penetrates through the inner sides of the two sliding rails (308), a sliding plate (310) is installed between the two sliding rails (308) in a sliding manner, the wheel carrying disc (302) which is parallel to the middle parts of the two sliding rails (308) of the sliding rails (308) is also provided with a linear sliding groove (314) communicated with the through groove (309), and a threaded rod (312) the top of which penetrates through the linear sliding groove (314) is vertically arranged on the sliding plate (310), the top of the threaded rod (312) is locked by a locking nut (313), guide rods (311) which can slide along the corresponding sliding rails (308) are vertically arranged on the two end surfaces of the sliding plate (310), the sliding limiting roller (306) is installed at the top end corresponding to the guide rod (311).

5. The transfer device for flywheel production according to claim 1, wherein: the surface of the wheel carrying disc (302) is made of smooth stainless steel.

6. The transfer device for flywheel production according to claim 1, wherein: the length of the second guide rail (404) is greater than the distance between the front roller (304) and the rear roller (305).