CN210012295U

CN210012295U - Continuous feeding device

Info

Publication number: CN210012295U
Application number: CN201920739722.7U
Authority: CN
Inventors: 王建中; 和军红
Original assignee: Central Plains Inner Distribution Group Axle Bearing Co Ltd
Current assignee: Central Plains Inner Distribution Group Axle Bearing Co Ltd
Priority date: 2019-05-22
Filing date: 2019-05-22
Publication date: 2020-02-04
Anticipated expiration: 2029-05-22

Abstract

The utility model discloses a continuous feeding device, include feeding conveyer belt and exit conveyor, pull tile mechanism, turn to the piece, be equipped with the feeding guide rail on the feeding conveyer belt, exit conveyor is last to be equipped with ejection of compact guide rail, be equipped with between feeding conveyer belt and the exit conveyor and accept the carousel, it accepts the guide rail to accept to be equipped with on the carousel, the one end of accepting the guide rail links up with the discharge end of feeding guide rail, and the other end links up with exit guide rail's feed end, pull tile mechanism, turn to the piece and set gradually along feeding conveyer belt's direction of transfer. The utility model discloses can realize the automatic line of carrying of axle bush between the car terminal surface chamfer equipment and the mill towards position lip equipment, need not the manual work and go up the unloading, reduce operating personnel amount of labour, improve work efficiency, for realizing that 1 people multimachine provides the condition, shorten the production preparation cycle of axle bush, reduce the cost of labor.

Description

Continuous feeding device

Technical Field

The utility model relates to an axle bush production technical field especially relates to continuous material feeding unit.

Background

The two processes of turning an end face chamfer and milling a positioning lip are needed in the production process of the bearing bush, the bearing bush opening is placed downwards during blanking after the end face chamfer is turned, and the bearing bush opening of the bearing bush is needed to face towards the side edge during milling the positioning lip. In the prior art, a bearing bush conveying connecting line is not arranged between the end face turning chamfering device and the milling and punching positioning lip device, manual feeding and discharging are needed, the carrying turnover frequency is high, the labor intensity of operators is high, and the working efficiency is low, so that the production and manufacturing period of the bearing bush is long, and the labor cost is high.

SUMMERY OF THE UTILITY MODEL

In order to solve the prior technical problem, the utility model provides a continuous feeding device.

In order to achieve the above object, the utility model provides a following technical scheme: the continuous feeding device comprises a feeding conveyor belt and a discharging conveyor belt, and further comprises a tile pulling mechanism and a steering block, wherein a feeding guide rail is arranged on the feeding conveyor belt, a discharging guide rail is arranged on the discharging conveyor belt, a bearing turntable is arranged between the feeding conveyor belt and the discharging conveyor belt, a bearing guide rail is arranged on the bearing turntable, one end of the bearing guide rail is connected with the discharging end of the feeding guide rail, the other end of the bearing guide rail is connected with the feeding end of the discharging guide rail, and the tile pulling mechanism and the steering block are sequentially arranged along the conveying direction of the feeding conveyor belt.

Preferably, the tile pulling mechanism comprises a connecting rod and a tile pulling plate; the connecting rod is transversely arranged above the feeding conveyor belt, the tile pulling plate is rotatably connected to the connecting rod, and a tile pulling bulge is arranged at the bottom of the tile pulling plate.

Preferably, the both sides of feeding conveyer belt all are equipped with the feeding baffle, form the feeding guide rail between two feeding baffles, and the discharge end of two feeding baffles inwards contracts gradually and forms the throat, and the discharge end of keeping away from the feeding baffle who accepts the carousel extends to accepting the carousel from the throat.

Preferably, two steering baffles are arranged above the receiving turntable, and an arc-shaped receiving guide rail is formed between the two steering baffles.

Preferably, two discharging baffles are arranged above the discharging conveyor belt, and a discharging guide rail is formed between the two discharging baffles.

Preferably, the feeding end of one of the turning baffles is connected with the discharging end of the feeding baffle close to the receiving turntable, and the discharging end of the turning baffle is contracted towards the other turning baffle and is connected with the discharging baffle; the feed end of another turning baffle forms the feed inlet with another feeding baffle, and its discharge end is connected with another ejection of compact baffle.

The utility model discloses a theory of operation does: and the bearing bush after being processed by the lathe end face chamfering processing equipment enters the feeding conveyor belt and moves along with the feeding conveyor belt in the feeding guide rail. When the bearing bush moves to the connecting rod, the bearing bush body is embedded above the bush pulling protrusion of the bush pulling plate and drives the bush pulling plate to rotate around the connecting rod until the bush pulling plate pulls the bearing bush down and the opening of the bearing bush faces the discharge end of the feeding conveyor belt, and the bearing bush is separated from the bush pulling plate. When the turned bearing bush passes through the steering block, one end of the bearing bush is blocked by the steering block, and the other end of the bearing bush rotates around the steering block to enable the opening of the bearing bush to be steered until the opening of the bearing bush faces one side of the feeding conveyor belt. The bearing bush after steering enters a bearing guide rail of a bearing turntable through a necking and a feeding hole. The bearing bush rotates along with the bearing turntable and enters the discharging guide rail from the discharging end of the bearing guide rail. The bearing bush mouth of the bearing bush entering the discharging guide rail faces one side, and the bearing bush mouth can be directly sent into a milling and punching positioning lip device for milling and punching.

The utility model discloses can realize the automatic line of carrying of axle bush between the car terminal surface chamfer equipment and the mill towards position lip equipment, need not the manual work and go up the unloading, reduce operating personnel amount of labour, improve work efficiency, for realizing that 1 people multimachine provides the condition, shorten the production preparation cycle of axle bush, reduce the cost of labor.

Drawings

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

In the figure: the automatic feeding device comprises a feeding conveyor belt 1, a discharging conveyor belt 2, a receiving turntable 3, a feeding rack 4, a feeding driving motor 5, a discharging rack 6, a discharging driving motor 7, a bearing bush 8, a feeding baffle 9, a feeding guide rail 10, a necking 11, a connecting rod 12, a turning block 13, a tile plate 14, a tile plate 15, a tile projection 16, a support 16, a feeding hole 17, a turning baffle 18, a receiving guide rail 19, a discharging baffle 20 and a discharging guide rail 21.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1, the continuous feeding device comprises a feeding conveyor belt 1, a discharging conveyor belt 2, a receiving turntable 3, a tile pulling mechanism and a turning block 13. The conveying directions of the feeding conveying belt 1 and the discharging conveying belt 2 are parallel and consistent, the feeding conveying belt 1 is fixed on the feeding rack 4 and connected with the feeding driving motor 5, and the discharging conveying belt 2 is fixed on the discharging rack 6 and connected with the discharging driving motor 7. Accept carousel 3 and locate between feeding conveyer belt 1 and exit conveyor 2 and cut mutually with feeding conveyer belt 1, exit conveyor 2, accept carousel 3 and be connected with the carousel motor.

Feeding baffle 9 all is equipped with along direction of transfer in the both sides of feeding conveyer belt 1, forms feeding guide rail 10 between two feeding baffles 9, and the discharge end of two feeding baffles 9 inwards contracts gradually and forms throat 11, keeps away from the discharge end of the feeding baffle 9 who accepts carousel 3 and extends to accepting carousel 3 from throat 11.

Two discharging baffle plates 20 are arranged above the discharging conveyor belt 2 along the conveying direction, and a discharging guide rail 21 is formed between the two discharging baffle plates 20.

Two steering baffles 18 are arranged above the receiving turntable 3, and an arc-shaped receiving guide rail 19 is formed between the two steering baffles 18. One end of the receiving guide rail 19 is communicated with the necking 11 and is connected with the discharge end of the feeding guide rail 10, and the other end of the receiving guide rail 19 is connected with the feed end of the discharging guide rail 21. The feeding end of one of the turning baffles 18 is connected with the discharging end of the feeding baffle 9 close to the receiving turntable 3, and the discharging end of the turning baffle 18 is contracted towards the other turning baffle 18 and is connected with the discharging baffle 20; the feed end of the other deflection baffle 18 forms a feed opening 17 with the other feed baffle 9 and the discharge end thereof is connected to the other discharge baffle 17.

The tile pulling mechanism and the turning block 13 are sequentially arranged along the conveying direction of the feeding conveyor belt 1. The tile pulling mechanism comprises a connecting rod 12 and a tile pulling plate 14. The connecting rod 12 is fixed on the feeding rack 4 through a support 16 and is transversely arranged above the feeding conveyor belt 1, the tile pulling plate 14 is rotatably connected on the connecting rod 12, and a tile pulling bulge 15 is arranged at the bottom of the tile pulling plate 14. The turning block 13 is arranged inside one of the feed baffles 9.

The bearing bush 8 after being processed by the vehicle end face chamfering processing equipment enters the feeding conveyor belt 1 and moves along with the feeding conveyor belt 1 in the feeding guide rail 10. When the bearing bush 8 moves to the connecting rod 12, the bearing bush 8 bush body is embedded above the bush pulling protrusion 15 of the bush pulling plate 14 and drives the bush pulling plate 14 to rotate around the connecting rod 12 until the bush pulling plate 14 pulls the bearing bush 8 down and the opening of the bearing bush faces the discharge end of the feeding conveyor belt 1, and the bearing bush 8 is separated from the bush pulling plate 14. When the turned bearing bush 8 passes through the turning block 13, one end of the bearing bush 8 is blocked by the turning block 13, and the other end of the bearing bush 8 rotates around the turning block 13 to turn the opening of the bearing bush until the opening of the bearing bush faces one side of the feeding conveyor belt 1. The bearing bush 8 after turning enters a bearing guide rail 19 of the bearing turntable 3 through the necking 11 and the feed inlet 17. The bearing bush 8 rotates with the receiving turntable 3 and enters the discharge guide rail 21 from the discharge end of the receiving guide rail 19. The bearing bush 8 entering the discharging guide rail 21 can be directly sent into a milling and punching positioning lip device to be milled and punched with the bearing bush opening facing to one side.

Claims

1. Continuous material feeding unit, including feeding conveyer belt and exit conveyor, its characterized in that: the tile-pulling mechanism and the turning block are sequentially arranged along the conveying direction of the feeding conveyor belt.

2. The continuous feed device of claim 1, wherein: the tile pulling mechanism comprises a connecting rod and a tile pulling plate; the connecting rod is transversely arranged above the feeding conveyor belt, the tile pulling plate is rotatably connected to the connecting rod, and a tile pulling bulge is arranged at the bottom of the tile pulling plate.

3. The continuous feed device of claim 1, wherein: the both sides of feeding conveyer belt all are equipped with the feeding baffle, form the feeding guide rail between two feeding baffles, and the discharge end of two feeding baffles inwards contracts gradually and forms the throat, and the discharge end of keeping away from the feeding baffle who accepts the carousel extends to from throat department to accepting the carousel.

4. The continuous feed device of claim 3, wherein: two steering baffles are arranged above the bearing turntable, and an arc-shaped bearing guide rail is formed between the two steering baffles.

5. The continuous feed device of claim 4, wherein: two discharging baffle plates are arranged above the discharging conveyor belt, and a discharging guide rail is formed between the two discharging baffle plates.

6. The continuous feed device of claim 5, wherein: the feeding end of one of the steering baffles is connected with the discharging end of the feeding baffle close to the receiving turntable, and the discharging end of the steering baffle is contracted towards the other steering baffle and is connected with the discharging baffle; the feed end of another turning baffle forms the feed inlet with another feeding baffle, and its discharge end is connected with another ejection of compact baffle.