CN212863213U - Feeding structure of processing machine - Google Patents

Abstract

The utility model provides a processing machine pan feeding structure, it is including: a processing machine is inside to be provided with a vibrations sequencing dish, and a pan feeding mouth has been seted up to this upper end, a pan feeding funnel sets up on a support body with a plurality of elastic components, a discharge gate has been seted up to this pan feeding funnel's lower edge one end again, and this pan feeding funnel is formed with a swash plate of gradually high form to the other end by this discharge gate, and the lower edge of this swash plate is fixed with a electromagnetic shaker, this discharge gate of this pan feeding funnel is connected to this pan feeding mouth again, let the work piece can not be simultaneously and a large amount of fall into this processing machine by this, and then accelerate the sequencing speed of this vibrations sequencing dish.

Description

Feeding structure of processing machine

Technical Field

The present disclosure relates to a feeding structure of a processing machine, and more particularly, to a feeding structure of a processing machine with automatic feeding and processing efficiency improvement.

Background

The existing feeding structure of a processing machine comprises a machine table, wherein a vibration feeding disc is arranged in the machine table, a feeding port is formed in the machine table above the vibration feeding disc, a funnel is arranged right above the machine table, a gate valve is arranged at the lower edge of the funnel, a workpiece is poured into the funnel, the gate valve is opened again to enable the workpiece in the funnel to drop on the vibration feeding disc of the machine table in a large amount, the workpieces are orderly sequenced through vibration of the vibration feeding disc, and the workpiece can be fed into the machine table according to the sequence for tooth rubbing processing, the conventional structure is observed to be difficult to find that the conventional structure has some defects, and the main reasons are as follows: when a large number of workpieces fall on the vibration feeding tray, the workpieces are difficult to change positions and directions due to vibration, so that the vibration feeding tray needs to run for a long time to arrange all the workpieces in order, unfixed discharging intervals can be generated when feeding is performed, the machining efficiency is reduced, the workpieces are easy to block from the vibration feeding tray, and the vibration feeding tray is easy to damage under heavy load running, so that the technical defect to be improved by the method is overcome.

In view of the above, the applicant has made various years of experience in manufacturing, developing and designing related products, and has made a detailed design and a careful evaluation for the above-mentioned objects, and finally has obtained a practical disclosure.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the present disclosure is to provide a feeding structure of a processing machine, aiming at the above disadvantages in the prior art.

A pan feeding funnel outside is provided with a plurality of elastic components, and this pan feeding funnel sets up on a support body with this elastic component, and a discharge gate has been seted up to this pan feeding funnel's lower edge again, and this pan feeding funnel is formed with a swash plate of gradually high form to the other end by this discharge gate, and the lower edge of this swash plate is fixed with a electromagnetic shaker, a processing machine inside is provided with a vibrations sequencing dish, and this vibrations sequencing dish has seted up a pan feeding mouth in this processing machine upper end, this discharge gate of this pan feeding funnel is connected to this pan feeding mouth again.

Wherein still including a support body and an extension funnel, this support body is set up in this processing machine top with a plurality of horizontal poles and at least one vertical pole intersection, wherein this elastic component sets up in this horizontal pole department, this discharge gate of this pan feeding funnel lower edge is seted up in the one end towards this vertical pole direction again, should extend funnel one end and be fixed in on this vertical pole of this support body, and should extend the funnel and set up a material receiving mouth in neighbouring this vertical pole department, and link up this discharge gate by this material receiving mouth, should extend the funnel other end again and be fixed with an elastic sleeve, and should extend the funnel and communicate with each other this elastic sleeve and be formed with a blanking passageway, should extend the funnel in addition and put into this pan feeding mouth of this processing machine with this elastic sleeve.

Wherein this pan feeding funnel sets up in the top one side of this processing machine, makes the work piece can be along this discharge gate of this swash plate roll-off, should extend the funnel again and set up in the top position of this processing machine, lets the work piece pass this and extend funnel and this elastic sleeve and fall in this vibrations sequencing dish, and this pan feeding funnel has seted up a pan feeding opening up again, and this pan feeding funnel transversely is equipped with a branch material pole in this pan feeding opening part, lets the work piece collide this branch material pole and form the diffusion and drop.

Wherein the extension funnel is provided with a sensor, and the sensor judges the actuating time of the vibrator.

Wherein, both sides of the sloping plate are formed with a lateral plate which inclines to the center, and the discharge port is rectangular, so that the workpiece can slide to the sloping plate along the lateral plate and is accumulated at the discharge port when the vibrator does not act.

Wherein the discharge port is provided with a control door, the control door is connected with a rod body, and the rod body is linked by a driver, so that the control door moves to change the size of the opening of the discharge port.

Wherein a conveyer belt is connected between the feeding port of the processing machine and the discharging port of the feeding funnel.

Wherein the horizontal pole interval frame of this support body is equipped with a plurality of these pan feeding funnels, and a plurality of these vertical poles all set firmly this extension funnel, let this support body below arrange and be provided with a plurality of these processing machines, this support body all is provided with a processing machine electronic box between above-mentioned pan feeding funnel, and this support body in addition constitutes a sky pavement with this horizontal pole and this vertical pole, makes operating personnel can walk in this sky pavement and maintain or maintain the operation.

Wherein, the same side of the frame body and the processing machine is provided with an elevated rail, a material transporting vehicle is arranged on the elevated rail in a sliding way, and the material transporting vehicle bears at least one material transporting container and dumps the feeding funnel by the material transporting container.

Wherein the material transporting container is pivoted with the material transporting vehicle through a rotating shaft, and the material transporting vehicle pushes the bottom of the material transporting container through a telescopic rod.

The main objective of the present disclosure is to provide a feeding funnel with a plurality of elastic members disposed at the cross bar of the frame body, wherein a discharge port is disposed at one end of the lower edge of the feeding funnel facing the longitudinal bar, and a gradually high inclined plate is formed at the other end of the feeding funnel from the discharge port, and a vibrator is fixed at the lower edge of the inclined plate, one end of the extension funnel is fixed on the longitudinal bar of the frame body, and the extension funnel is connected to the discharge port, and the other end of the extension funnel is disposed at the feeding port of the processing machine, so that the workpieces cannot drop on the vibration sorting tray in a large amount at the same time, thereby accelerating the sorting speed of the vibration sorting tray, and having the effect of reducing the operation load of the vibration sorting tray, and achieving the practical function of stabilizing the automatic feeding.

Drawings

Fig. 1 is a perspective view of the present disclosure.

Fig. 2 is an exploded perspective view of the present disclosure.

Fig. 3 is a cross-sectional view of the present disclosure during pouring.

Fig. 4 is a cross-sectional view of the present disclosure in the absence of vibration.

Fig. 5 is a cross-sectional view of the present disclosure at shock.

Fig. 6 is a perspective view of another embodiment of the present disclosure.

FIG. 7 is an operation diagram of another embodiment of the present disclosure.

Fig. 8 is a perspective view of yet another embodiment of the present disclosure.

Fig. 9 is a perspective view of yet another embodiment of the present disclosure.

Description of the reference numerals

10: processing machine

11: vibration sorting disc

12: feeding port

13: processing machine electric box

20: rack body

21: cross bar

22: vertical rod

23: sky footpath

30: feeding funnel

31: elastic piece

32: discharge port

33: inclined plate

34: vibrator

35: feeding opening

36: material distributing rod

37: side plate

38: control door

381: rod body

39: driver

40: extension funnel

41: receiving port

42: elastic sleeve

43: blanking channel

44: sensor with a sensor element

50: material transporting container

51: elevated rail

52: material transporting vehicle

53: rotating shaft

54: telescopic rod

60: conveying belt

A: workpiece

Detailed Description

For the purpose of promoting a better understanding of the objects, aspects and advantages of the present disclosure, reference is made to the following detailed description taken in conjunction with the accompanying drawings.

First, referring to fig. 1 and fig. 2, a feeding structure of a processing machine includes: a processing machine 10, a frame 20, a feeding funnel 30 and an extending funnel 40, a vibration sorting tray 11 is disposed inside the processing machine 10, and the vibration sorting tray 11 is provided with a feeding port 12 at the upper end of the processing machine 10, a frame 20 is erected above the processing machine 10 with a plurality of cross rods 21 and at least one longitudinal rod 22 crossing each other, a plurality of elastic members 31 are disposed outside the feeding funnel 30, and the feeding funnel 30 is disposed at the cross rods 21 of the frame 20 by the elastic members 31, and one end of the lower edge of the feeding funnel 30 facing the longitudinal rod 22 is provided with a discharging port 32, and the feeding funnel 30 is formed with a funnel-shaped inclined plate 33 from the discharging port 32 to the other end, and a vibrator 34 is fixed at the lower edge of the inclined plate 33, one end of an extending funnel 40 is fixed on the longitudinal rod 22 of the frame 20, and a receiving port 41 is disposed at the extending funnel 40 near the longitudinal rod 22, the material receiving opening 41 is connected to the material outlet 32, an elastic sleeve 42 is fixed at the other end of the extending funnel 40, a material dropping channel 43 is formed by the extending funnel 40 communicating with the elastic sleeve 42, and the extending funnel 40 is placed into the material inlet 12 of the processing machine 10 by the elastic sleeve 42.

In practical applications, as shown in fig. 2 to fig. 5, the feeding funnel 30 is provided with a feeding opening 35, the feeding opening 35 is capable of being provided with a material transporting container 50 for material dumping, the material transporting container 50 is transported and dumped by using a crown block hanging manner, so that the workpiece a can smoothly slide into the feeding funnel 30 through the feeding opening 35, the feeding funnel 30 is further provided with a material distributing rod 36 at the feeding opening 35, so that the workpiece a collides with the material distributing rod 36 to form diffusion and drop, so that the workpiece a is not excessively accumulated at the discharge opening 32, meanwhile, both sides of the inclined plate 33 are formed with a side plate 37 inclined toward the center, and the discharge opening 32 is rectangular, so that the workpiece a can slide toward the inclined plate 33 along the side plate 37, i.e. the feeding funnel 30 is disposed at one side above the processing machine 10, so that the workpiece a can slide out of the discharge opening 32 along the inclined plate 33, and is piled up in the discharge port 32 when the vibrator 34 is not actuated, and the extension funnel 40 is provided with a sensor 44, and the sensor 44 judges the actuation time of the vibrator 34, so that when the quantity of the workpieces A in the vibration sorting tray 11 is detected to be insufficient, the vibrator 34 is further actuated, the feeding funnel 30 is erected on the frame body 20 through the vibration of the vibrator 34 and the elastic member 31, the feeding funnel 30 is erected on the structural characteristic of the frame body 20, the workpieces A piled up in the discharge port 32 slide out of the discharge port 32 in a proper amount in a vibration mode, the extension funnel 40 is arranged at the upper position of the processing machine 10, the receiving port 41 of the extension funnel 40 is connected with the discharge port 32 of the feeding funnel 30, the workpieces A pass through the blanking channel 43 and fall on the vibration sorting tray 11, wherein the elastic sleeve 42 can provide proper elastic deformation, and the elastic sleeve 42 can be closer to the vibration sorting tray 11, the workpiece A can not drop outside the processing machine 10, and can be prevented from being stuck to the elastic sleeve 42 and the vibration sorting disc 11, and finally the workpiece A is orderly arranged by the vibration sorting disc 11 to enter the processing machine 10 for thread rolling processing operation, through the structure and the action, the workpiece A can not drop on the vibration sorting disc 11 simultaneously and greatly, thereby accelerating the sorting speed of the vibration sorting disc 11, and having the efficacy of reducing the running load of the vibration sorting disc 11, so as to achieve the practical function of stabilizing automatic feeding.

In another embodiment of the present disclosure, as shown in fig. 6 and 7 and fig. 2, a plurality of feeding hoppers 30 are spaced apart from each other on a cross bar 21 of a frame 20, a plurality of extending hoppers 40 are fixedly disposed on a plurality of vertical bars 22, a plurality of processing machines 10 are disposed below the frame 20, a processing machine electrical box 13 is disposed between the feeding hoppers 30 on the frame 20, so that the processing machine electrical box 13 can be elevated to form an upward stack, the occupied space of the processing machine 10 can be effectively reduced, more processing machines 10 can be disposed on the same frame 20, an overhead walkway 23 is further formed on the frame 20 by the cross bar 21 and the vertical bars 22, so that an operator can walk on the overhead walkway 32 for maintenance or repair, an elevated rail 51 is disposed on the same side of the frame 20 and the processing machine 10, and a material transporting vehicle 52 is slidably disposed on the elevated walkway 51, the material transporting vehicle 52 carries at least one material transporting container 50, the material transporting container 50 is pivoted to the material transporting vehicle 52 by a rotating shaft 53, and the material transporting vehicle 52 pushes the bottom of the material transporting container 50 by a telescopic rod 54, the material transporting container 50 is turned over by the rotating shaft 53 by the pushing of the telescopic rod 54, and the material feeding hopper 30 is dumped by the material transporting container 50, so that the material transporting vehicle 52 can move along the elevated rail 51, the workpiece A in the material transporting container 50 is dumped into the designated material feeding hopper 30 as determined, and the material feeding hopper 30 is matched with the inclined plate 33 and the vibrator 34, so that the workpiece A falls into the processing machine 10 from the extending hopper 40 in a proper amount, and the automatic operation is achieved by integrating the material transporting and feeding actions.

In another embodiment of the present disclosure, as shown in fig. 8, a control gate 38 is disposed at the discharge port 32, the control gate 38 is connected to a rod 381, and the rod 381 is driven by a driver 39, so that the control gate 38 is moved to change the size of the opening of the discharge port 32, thereby precisely controlling the blanking amount of the workpiece a. In another embodiment of the present disclosure, please refer to fig. 9, wherein a conveyor 60 is connected between the feeding port 12 of the processing machine 10 and the discharging port 32 of the feeding hopper 30, so as to achieve an equivalent automatic feeding effect.

The above-mentioned embodiments are intended to illustrate the objects, aspects and advantages of the present disclosure in further detail, and it should be understood that the above-mentioned embodiments are only illustrative of the present disclosure and are not intended to limit the present disclosure, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present disclosure should be included in the scope of the present disclosure.

Claims (10)

1. The utility model provides a processing machine pan feeding structure which characterized in that, including:

the feeding funnel is provided with a plurality of elastic pieces on the outer side, the feeding funnel is arranged on a frame body through the elastic pieces, a discharge hole is formed in the lower edge of the feeding funnel, a gradually-high inclined plate is formed on the feeding funnel from the discharge hole to the other end, and a vibrator is fixed on the lower edge of the inclined plate; and

a processing machine, wherein a vibration sorting tray is arranged in the processing machine, a feeding port is arranged at the upper end of the processing machine of the vibration sorting tray, and the feeding port is connected with the discharge port of the feeding funnel.

2. The feeding structure of claim 1, further comprising a frame and an extension funnel, wherein the frame is erected above the processing machine with a plurality of cross bars and at least one longitudinal bar crossing each other, the elastic member is disposed at the cross bar, the discharge port of the lower edge of the feeding funnel is disposed at an end facing the longitudinal bar, one end of the extension funnel is fixed to the longitudinal bar of the frame, the extension funnel is disposed adjacent to the longitudinal bar and has a receiving port connected to the discharge port, the other end of the extension funnel is fixed to an elastic sleeve, the extension funnel is communicated with the elastic sleeve to form a blanking channel, and the extension funnel is disposed in the feeding port of the processing machine with the elastic sleeve.

3. The machine feeding structure of claim 2, wherein the feeding funnel is disposed at one side of the machine, so that the workpiece can slide out of the discharge port along the inclined plate, the extension funnel is disposed at the upper position of the machine, so that the workpiece can fall on the vibration sorting tray through the extension funnel and the elastic sleeve, the feeding funnel is upwardly provided with a feeding opening, and the feeding funnel is transversely provided with a distributing rod at the feeding opening, so that the workpiece collides with the distributing rod to form a diffusion drop.

4. The machine inlet structure of claim 3 wherein said extension funnel has a sensor, and said sensor determines the timing of the operation of said vibrator.

5. The machine feeding structure of claim 1, wherein the sloping plate has a side plate sloping toward the center on both sides thereof, and the discharge port has a rectangular shape, so that the workpiece can slide along the side plate toward the sloping plate and accumulate at the discharge port when the vibrator is not operated.

6. A feeding mechanism for a processing machine as claimed in claim 1, wherein the discharge port is provided with a control gate connected to a rod, the rod being driven by a driver to move the control gate to change the size of the opening of the discharge port.

7. A machine inlet construction in accordance with claim 1 wherein a conveyor belt is connected between said inlet of said machine and said outlet of said inlet hopper.

8. The feeding structure of a processing machine as claimed in claim 2, wherein a plurality of feeding hoppers are provided on the cross bars of the frame at intervals, the extension hoppers are provided on the longitudinal bars, a plurality of processing machines are arranged below the frame, a processing machine electronic box is provided between the feeding hoppers on the frame, and a sky walkway is formed by the cross bars and the longitudinal bars on the frame, so that an operator can walk on the sky walkway for maintenance or repair.

9. The machine inlet structure of claim 8, wherein an elevated rail is provided on the frame on the same side as the machine, and a material cart is slidably mounted on the elevated rail and carries at least one material container from which the material hopper is dumped.

10. The machine inlet structure of claim 9, wherein the material transport container is pivotally connected to the cart by a pivot shaft, and the cart is pushed against the bottom of the material transport container by a telescoping rod.

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