CN212239040U - Spring inclined pushing feeding device - Google Patents

Abstract

The utility model provides a spring pushes away material feeding unit to one side, which comprises a spring, the high pressure module, the flat module that pushes away, the oblique module that pushes away, pay-off module and frame, the high pressure module is including the first hydraulic means of push pedal and drive push pedal, push pedal the place ahead is equipped with a plurality of carrier bars, the place ahead of push pedal still is equipped with the baffle, the below at the baffle is fixed to the one end of carrier bar, the flat module that pushes away is including the second hydraulic means of push rod and drive push rod, the oblique module that pushes away is including pushing away the seat to one side, a plurality of fixes the second hydraulic means who pushes away the seat to one side and drive the oblique push rod that pushes away on the seat to one side, the seat that pushes away to one side, the oblique push rod, the second hydraulic means all is the tilt state with the horizontal direction, the pay. This device is unified with strong pressure process and conveying process, goes on simultaneously, practices thrift the space, has improved production efficiency.

Description

Spring inclined pushing feeding device

Technical Field

The utility model relates to an automobile spring processing field, concretely relates to spring pushes away material feeding unit to one side.

Background

The automobile spring pressing process is used for pressing the spring to enhance the fatigue strength or for inspection. The existing spring pressure procedure is not automatic enough, generally, after a plurality of springs are arranged manually, the springs are pressed by a hydraulic press, and then are taken out manually after being pressed, so that the working efficiency is low, and the enterprise development is not facilitated.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a spring pushes away material feeding unit to one side.

In order to achieve the above object, the utility model provides a following technical scheme:

a spring oblique pushing and feeding device comprises a spring, a forced pushing module, a horizontal pushing module, an oblique pushing module, a feeding module and a rack, wherein the forced pushing module comprises a pushing plate and a first hydraulic device for driving the pushing plate, the first hydraulic device is fixed on the rack, a plurality of bearing rods are arranged in front of the pushing plate, a baffle is further arranged in front of the pushing plate, the baffle is fixed on the rack, one end of each bearing rod is fixed below the baffle, the other end of each bearing rod penetrates through the pushing plate, each bearing rod is located in the same horizontal direction, the horizontal pushing module is arranged on the right side of the pushing plate, the horizontal pushing module comprises a pushing rod and a second hydraulic device for driving the pushing rod, the oblique pushing module comprises an oblique pushing seat, a plurality of oblique pushing rods fixed on the oblique pushing seat and a third hydraulic device for driving the oblique pushing seat, the inclined pushing seat, the inclined pushing rod and the third hydraulic device are all in an inclined state with the horizontal direction, the inclined pushing rod is located at every two positions below a gap between the bearing rods, the feeding module comprises a hopper, a spiral feeding channel and a discharging channel, the spiral feeding channel is arranged in the hopper, the discharging channel is connected with the discharging channel, the hopper is fixed to the rack, and a discharging port of the discharging channel is arranged in the front of the pushing rod.

Furthermore, a collecting box is arranged on the left side of the push plate. And collecting the springs from the forced compression module.

Further, a motor is arranged below the hopper and drives the hopper to rotate. The spring is driven to move from top to bottom in the feeding channel.

Furthermore, a feeding channel in the hopper is movably connected with the discharging channel. The feeding channel is movably connected with the discharging channel because the feeding channel rotates along with the hopper and the discharging channel does not rotate.

Further, the horizontal distance between the bearing rods is smaller than the diameter of the spring, and the horizontal distance between the bearing rods is larger than the cross-sectional width of the inclined push rod. The spring is prevented from falling down between the two bearing rods, and meanwhile, the inclined push rod is convenient to pass through the bearing rods to push the spring.

Compared with the prior art, the beneficial effects of the utility model are embodied in: the oblique pushing module and the forced pressing module are arranged, so that the spring can be pushed to advance step by step while the spring is forced to perform a forced pressing process in the forced pressing module, and finally the spring is pushed to enter the collecting box; the device unifies the forced pressing process and the conveying process, saves space and improves production efficiency; the arranged forced pressing module, the inclined pushing module and the bearing rod are matched, so that the spring can be subjected to multiple times of forced pressing, and the quality of a product is improved; the arranged feeding module has high working efficiency, and can stack a plurality of springs in the hopper along the feeding channel and then convey the springs one by one to the horizontal pushing module.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a schematic top view of the present invention;

in the reference symbols: 1. a spring; 2. a pressure module; 3. a horizontal pushing module; 4. a diagonal pushing module; 5. a feeding module; 6. a frame; 7. a carrier bar; 8. a baffle plate; 9. a collection box; 21. pushing the plate; 22. a first hydraulic device; 31. a push rod; 32. a second hydraulic device; 41. an inclined pushing seat; 42. an inclined push rod; 43. A third hydraulic device; 51. a hopper; 52. a feed channel; 53. a discharge channel; 54. an electric motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, a spring oblique pushing feeding device comprises a spring 1, a strong pressure module 2, a horizontal pushing module 3, an oblique pushing module 4, a feeding module 5 and a frame 6, wherein the strong pressure module 2 comprises a push plate 21 and a first hydraulic device 22 for driving the push plate 21, the first hydraulic device 22 is fixed on the frame 6, a plurality of bearing rods 7 are arranged in front of the push plate 21, a baffle 8 is further arranged in front of the push plate 21, the baffle 8 is fixed on the frame 6, one end of each bearing rod 7 is fixed below the baffle 8, the other end of each bearing rod 7 penetrates through the push plate 21, each bearing rod 7 is positioned in the same horizontal direction, the horizontal pushing module 3 is arranged on the right side of the push plate 21, the horizontal pushing module 3 comprises a second hydraulic device 32 for driving the push rod 31 and a second hydraulic device 32 for driving the push rod 31, the oblique pushing module 4 comprises an oblique pushing seat 41, a plurality of oblique push rods 42 fixed on the oblique pushing seat 41 and a third hydraulic, the inclined pushing seat 41, the inclined pushing rod 42 and the third hydraulic device 43 are all in an inclined state with the horizontal direction, the inclined pushing rod 42 is positioned below a gap between every two bearing rods 7, the feeding module 5 comprises a hopper 51, a spiral feeding channel 52 arranged in the hopper 51 and a discharging channel 53 connected with the feeding channel 52, the hopper 51 is fixed on the frame 6, and a discharging port of the discharging channel 53 is arranged in front of the pushing rod 31.

The left side of the push plate 21 is provided with a collection box 9. And collecting the springs from the forced compression module.

A motor 54 is arranged below the hopper 51, and the motor 54 drives the hopper 51 to rotate. The spring is driven to move from top to bottom in the feeding channel.

The feeding channel 52 in the hopper 51 is movably connected with the discharging channel 53. The feeding channel is movably connected with the discharging channel because the feeding channel rotates along with the hopper and the discharging channel does not rotate.

The horizontal distance between the carrier bars 7 is smaller than the diameter of the spring 1, and the horizontal distance between the carrier bars 7 is larger than the cross-sectional width of the diagonal push rod 42. Preventing the spring from falling between the two carrier bars while facilitating the passage of the diagonal push rod 42 between the carrier bars to push the spring.

The operation principle is as follows: the worker puts the spring 1 into the feeding channel 52, the spring 1 is stacked in the feeding channel 52, the motor 54 drives the hopper 51 to rotate, and further drives the feeding channel 52 to rotate, the spring 1 slides down along the feeding channel 52, enters the discharging channel 53, and finally stops at the end point of the discharging channel 53, namely stops in front of the push rod 31, the second hydraulic device 32 pushes the push rod 31, the push rod 31 pushes the spring 1 into the space between the bearing rods 7, the push plate 21 is driven by the first driving device to press the spring 1, due to the blocking of the baffle plate 8, the spring 1 is forcibly pressed by the push plate 21, at this time, the inclined push rod 42 on the inclined push seat 41 is driven by the third hydraulic device 43 to push the spring 1, the spring 1 is pushed to the space between the bearing rods 7 on the left side by the inclined push rod 42, the push plate 21 again presses the spring 1, after several times of pressing, the spring 1 is finally pushed to the collection box 9, the working procedures of pressure strengthening and feeding are completed.

Has the advantages that: the oblique pushing module and the forced pressing module are arranged, so that the spring can be pushed to advance step by step while the spring is forced to perform a forced pressing process in the forced pressing module, and finally the spring is pushed to enter the collecting box; the device unifies the forced pressing process and the conveying process, saves space and improves production efficiency; the arranged forced pressing module, the inclined pushing module and the bearing rod are matched, so that the spring can be subjected to multiple times of forced pressing, and the quality of a product is improved; the arranged feeding module has high working efficiency, and can stack a plurality of springs in the hopper along the feeding channel and then convey the springs one by one to the horizontal pushing module.

The above description is further detailed for the present invention with reference to specific embodiments, and it should not be construed that the embodiments of the present invention are limited to the above description. It will be apparent to those skilled in the art that various simple deductions or substitutions can be made to the above embodiments without departing from the spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims (5)

1. A spring oblique pushing and feeding device comprises a spring, a forced pushing module, a horizontal pushing module, an oblique pushing module, a feeding module and a rack, and is characterized in that the forced pushing module comprises a pushing plate and a first hydraulic device for driving the pushing plate, the first hydraulic device is fixed on the rack, a plurality of bearing rods are arranged in front of the pushing plate, a baffle is further arranged in front of the pushing plate, the baffle is fixed on the rack, one end of each bearing rod is fixed below the baffle, the other end of each bearing rod penetrates through the pushing plate, each bearing rod is positioned in the same horizontal direction, the horizontal pushing module is arranged on the right side of the pushing plate, the horizontal pushing module comprises a pushing rod and a second hydraulic device for driving the pushing rod, the oblique pushing module comprises an oblique pushing seat, a plurality of oblique pushing rods fixed on the oblique pushing seat and a third hydraulic device for driving the oblique pushing seat, the inclined pushing seat, the inclined pushing rod and the third hydraulic device are all in an inclined state with the horizontal direction, the inclined pushing rod is located at every two positions below a gap between the bearing rods, the feeding module comprises a hopper, a spiral feeding channel and a discharging channel, the spiral feeding channel is arranged in the hopper, the discharging channel is connected with the discharging channel, the hopper is fixed to the rack, and a discharging port of the discharging channel is arranged in front of the pushing rod.

2. The spring angular pushing feeding device of claim 1, wherein the left side of the pushing plate is provided with a collecting box.

3. The spring angular pushing feeding device of claim 1, wherein a motor is provided below the hopper, and the motor drives the hopper to rotate.

4. The spring biased feeding device of claim 1, wherein the feed channel in the hopper is movably connected to the discharge channel.

5. The spring angular feed device of claim 1, wherein the horizontal distance between the carrier bars is smaller than the diameter of the spring, and the horizontal distance between the carrier bars is larger than the cross-sectional width of the angular push rod.

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