CN219116557U - Automatic material pushing mechanism - Google Patents

Abstract

The utility model relates to an automatic material pushing mechanism which comprises a first pushing mechanism arranged on a machine table, a transition material platform arranged in front of the first pushing mechanism, a second pushing mechanism arranged on one side of the transition material platform far away from the first pushing mechanism, and a hardware product conveyed from a vibration disc arranged on the transition material platform, wherein the first pushing mechanism pushes the hardware product on the transition material platform forwards along the horizontal direction to be sent to a material table in the second pushing mechanism, and the second pushing mechanism pushes the hardware product on the material table upwards along the vertical direction to be abutted against a second limiting mechanism above. According to the scheme, the front end of the push rod of the first pushing mechanism can penetrate through the transition material platform to directly reach the material platform, so that the problem that the screening device cannot work due to the fact that the front force of the original hardware is sometimes insufficient when the hardware enters the semicircular groove and the material platform is blocked by the hardware when being lifted is fundamentally solved.

Description

Automatic material pushing mechanism

Technical Field

The utility model relates to the field of hardware processing production, in particular to an automatic material pushing mechanism.

Background

As shown in fig. 1 and 2, the patent of my original application number CN201920626321, a product screening device, has the following drawbacks after practical application:

(1) The feeding nozzle 21 is directly arranged on the side edge of the semicircular groove 19, because gaps exist between the hardware 18 in the conveying pipe 22 and the inner cavity of the feeding nozzle 21, and the uneven surface exists on the outer surface of the hardware 18, the hardware 18 can randomly deflect into the inner cavity, so that the outflow of the hardware 18 (from the feeding nozzle 21) is not smooth, the phenomenon that the uneven surface of the hardware 18 is blocked at the mouth of the feeding nozzle 21 usually occurs, and the hardware 18 cannot enter the semicircular groove 19 one by one;

(2) Because the pushing force of the hardware 18 entering the semicircular groove 19 pushes one hardware 18 to reach the semicircular groove 19 through the longer conveying pipe 22 by the vibration of the vibration disc 20, the forward pushing force in the process is gradually reduced, so that the fact that the forward pushing force of the hardware 18 entering the semicircular groove 19 is sometimes insufficient, the body only extending out of one hardware 18 is in the semicircular groove 19, and the rest part is left in the feeding nozzle 21, so that the hardware 18 is blocked when the material table 9 is lifted;

(3) The screening device cannot work due to the problems (1) and (2).

In order to overcome the defects, the original screening device is improved, and an automatic material pushing mechanism of the scheme is provided.

Disclosure of Invention

The utility model aims to solve the problems that the original screening device of a company has unsmooth outflow of hardware, the forward force of the hardware entering a semicircular groove is sometimes insufficient at the mouth part of a feeding nozzle by Chang Ka, and the screening device cannot work due to the fact that the hardware is blocked when a material platform is lifted. The specific solution scheme is as follows:

the utility model provides an automatic material pushing mechanism, includes the first pushing mechanism who locates on the board, locates the transition material platform in first pushing mechanism the place ahead, locates the second pushing mechanism that first pushing mechanism one side was kept away from to the transition material platform, be equipped with the hardware product that comes from the vibration dish and carry on the transition material platform, first pushing mechanism promotes the hardware product on the transition material platform forward along the horizontal direction and sends to the material bench in the second pushing mechanism, and the second pushing mechanism upwards promotes the hardware product on the material bench along vertical direction again and supports the second stop gear of top.

Further, the centers of the first pushing mechanism, the transition material platform and the second pushing mechanism are positioned in the same plane.

Further, the first pushing mechanism comprises a fixing frame, a driving device arranged in the fixing frame and a push rod arranged at the front end of the driving device.

Further, the fixing frame comprises a fixing seat at the lower part and two supporting sheets arranged at the upper side of the fixing seat.

Further, the fixing seat is fixed on the machine.

Further, the driving device is a pushing cylinder, and the front end and the rear end of the driving device are respectively and fixedly connected with the supporting piece.

Further, when the pushing cylinder moves backwards, the front end of the push rod connected with the pushing cylinder exits the outer side of the transition material platform; when the pushing cylinder moves forwards, the front end of the pushing rod passes through the transition material platform to directly reach the material platform.

Further, the transition material platform is a concave arc-shaped groove, the arc-shaped groove is arranged in a transverse moving block, and the transverse moving block can move along the horizontal direction perpendicular to the advancing direction of the first pushing mechanism.

Further, the second pushing mechanism comprises a lifting air cylinder fixed at the lower part of the machine table, a cylinder rod of the lifting air cylinder is fixedly connected with the lower end of the material table, and a semicircular groove for accommodating hardware products is formed in the upper end of the material table.

Further, the semicircular groove is far away from one side of the transition material platform, and a first limiting mechanism is arranged for limiting the front end of the hardware product.

In summary, the technical scheme of the utility model has the following beneficial effects:

the former screening device has been solved to this scheme, has the outflow of hardware unsmooth, chang Ka at the oral area of pay-off mouth, and the hardware gets into the semi-circular recess in advance power and is sometimes not enough, is blocked by the hardware when the material platform rises, leads to the unable problem of working of screening device. According to the scheme, the front end of the push rod of the first pushing mechanism can penetrate through the transition material platform to directly reach the material platform, namely hardware products in the transition material platform can be directly pushed into the semicircular groove of the material platform, then the push rod is immediately retracted, then the second pushing mechanism pushes hardware on the material platform upwards to push the hardware on the material platform to the second limiting mechanism above, so that the problem that the original hardware enters the semicircular groove to have insufficient forward force sometimes, and the material platform is blocked by the hardware when lifted, so that the screening device cannot work is fundamentally solved. The automatic alloy part detection device is matched with an automatic material transition mechanism newly designed by a company, and an original screening device of the company is improved, so that the automatic alloy part detection device has the beneficial effects of being high in speed, high in detection efficiency, low in error rate, labor-saving and cost-saving.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present utility model, the drawings that are required to be used in the description of the embodiments of the present utility model will be briefly described below. It will be apparent to those skilled in the art that the drawings in the following description are only a few embodiments of the present utility model and that other drawings may be derived from these drawings without inventive faculty.

FIG. 1 is a block diagram of a product screening apparatus of a company origin;

FIG. 2 is another block diagram of a company's original product screening apparatus;

FIG. 3 is a block diagram of an automatic material pushing mechanism according to the present utility model;

FIG. 4 is another block diagram of an automated material handling mechanism according to the present utility model;

FIG. 5 is a block diagram of an automatic alloy part detection device formed by matching an automatic material pushing mechanism with an automatic material transition mechanism and improving the original screening device of a company.

Reference numerals illustrate:

the device comprises a machine table 1, a transition material platform 2, an automatic material transition mechanism 3, a material table 9, a first pushing mechanism 10, a second pushing mechanism 11, a fixed frame 12, a pushing cylinder 13, a pushing rod 14, a fixed seat 15, a supporting plate 16, a transverse moving block 17, hardware 18, a semicircular groove 19, a vibrating disk 20, a feeding nozzle 21, a material conveying pipe 22, a first limiting mechanism 23, a second limiting mechanism 24 and a lifting cylinder 30.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. It will be apparent that the described embodiments are only some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 3 and 4, an automatic material pushing mechanism comprises a first pushing mechanism 10 arranged on a machine table 1, a transition material platform 2 arranged in front of the first pushing mechanism 10, a second pushing mechanism 11 arranged on one side, far away from the first pushing mechanism 10, of the transition material platform 2, a hardware 18 product (see fig. 5) conveyed from a vibration disc 20 through a conveying pipe 22 and a feeding nozzle 21 is arranged on the transition material platform 2, the first pushing mechanism 10 pushes the hardware 18 product on the transition material platform 2 forward along the horizontal direction to be sent to a material table 9 in the second pushing mechanism 11, then the first pushing mechanism 10 returns to the original position, and then the second pushing mechanism 11 pushes the hardware 18 product on the material table 9 upward along the vertical direction to abut against a second limiting mechanism 24 above. The second limiting mechanism 24 prevents the hardware 18 from falling out of the (semi-circular recess 19 of the) table 9.

Specifically, the centers of the first pushing mechanism 10, the transition material platform 2 and the second pushing mechanism 11 are in the same plane.

Specifically, the first pushing mechanism 10 includes a fixing frame 12, a driving device disposed in the fixing frame 12, and a push rod 14 disposed at a front end of the driving device.

Specifically, the fixing frame 12 includes a fixing seat 15 at a lower portion and two support pieces 16 provided at an upper side of the fixing seat 15. The fixing base 15 is fixed on the machine 1.

Specifically, the driving device is a pushing cylinder 13, and the front end and the rear end of the pushing cylinder are fixedly connected with the supporting plate 16 respectively.

Specifically, when the pushing cylinder 13 moves backwards, the front end of the push rod 14 connected with the pushing cylinder is withdrawn from the outer side of the transition material platform 2; when the pushing cylinder 13 moves forwards, the front end of the pushing rod 14 passes through the transition material platform 2 to reach the material platform 9.

Specifically, the transitional material platform 2 is a concave arc-shaped groove, and the arc-shaped groove is arranged in a transverse moving block 17, and the transverse moving block 17 can move along a horizontal direction perpendicular to the advancing direction of the first pushing mechanism 10.

Specifically, the second pushing mechanism 11 includes a lifting cylinder 30 fixed at the lower part of the machine 1, a cylinder rod of the lifting cylinder 30 is fixedly connected with the lower end of the material table 9, and a semicircular groove 19 for accommodating the hardware 18 product is arranged at the upper end of the material table 9. The semicircular groove 19 is arranged at one side far away from the transition material platform 2 and is provided with a first limiting mechanism 23 for limiting the front end of the hardware 18 product.

As shown in fig. 5, the present solution cooperates with an automatic material transition mechanism 3 (not described in detail herein in the present solution) newly designed by a company, and improves the original screening device (not described in detail herein) of the company to form an automatic alloy part detection device.

In summary, the technical scheme of the utility model has the following beneficial effects:

the former screening device has been solved to this scheme, has the outflow of hardware unsmooth, chang Ka at the oral area of pay-off mouth, and the hardware gets into the semi-circular recess in advance power and is sometimes not enough, is blocked by the hardware when the material platform rises, leads to the unable problem of working of screening device. According to the scheme, the front end of the push rod of the first pushing mechanism can penetrate through the transition material platform to directly reach the material platform, namely hardware products in the transition material platform can be directly pushed into the semicircular groove of the material platform, then the push rod is immediately retracted, then the second pushing mechanism pushes hardware on the material platform upwards to push the hardware on the material platform to the second limiting mechanism above, so that the problem that the original hardware enters the semicircular groove to have insufficient forward force sometimes, and the material platform is blocked by the hardware when lifted, so that the screening device cannot work is fundamentally solved. The automatic alloy part detection device is matched with an automatic material transition mechanism newly designed by a company, and an original screening device of the company is improved, so that the automatic alloy part detection device has the beneficial effects of being high in speed, high in detection efficiency, low in error rate, labor-saving and cost-saving.

The above-described embodiments do not limit the scope of the present utility model. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the above embodiments should be included in the scope of the present utility model.

Claims (10)

1. An automatic material pushing mechanism which is characterized in that: the device comprises a first pushing mechanism arranged on a machine table, a transition material platform arranged in front of the first pushing mechanism, a second pushing mechanism arranged on one side of the transition material platform away from the first pushing mechanism, and hardware products conveyed by a vibration disc arranged on the transition material platform, wherein the first pushing mechanism pushes the hardware products on the transition material platform forward along the horizontal direction to be sent to a material table in the second pushing mechanism, and the second pushing mechanism pushes the hardware products on the material table upwards along the vertical direction to be propped against a second limiting mechanism above.

2. An automatic material pushing mechanism according to claim 1, wherein: the centers of the first pushing mechanism, the transition material platform and the second pushing mechanism are positioned in the same plane.

3. An automatic material pushing mechanism according to claim 2, wherein: the first pushing mechanism comprises a fixing frame, a driving device arranged in the fixing frame and a push rod arranged at the front end of the driving device.

4. An automatic material pushing mechanism according to claim 3, wherein: the fixing frame comprises a fixing seat at the lower part and two supporting sheets arranged at the upper side of the fixing seat.

5. An automatic material pushing mechanism according to claim 4, wherein: the fixing seat is fixed on the machine table.

6. An automatic material pushing mechanism according to claim 5, wherein: the driving device is a pushing cylinder, and the front end and the rear end of the driving device are respectively and fixedly connected with the supporting sheet.

7. The automatic material pushing mechanism of claim 6, wherein: when the pushing cylinder moves backwards, the front end of the push rod connected with the pushing cylinder is withdrawn from the outer side of the transition material platform; when the pushing cylinder moves forwards, the front end of the pushing rod passes through the transition material platform to directly reach the material platform.

8. An automatic material pushing mechanism according to claim 1, wherein: the transition material platform is a concave arc-shaped groove, the arc-shaped groove is arranged in a transverse moving block, and the transverse moving block can move along the horizontal direction perpendicular to the advancing direction of the first pushing mechanism.

9. An automatic material pushing mechanism according to claim 1, wherein: the second pushing mechanism comprises a lifting cylinder fixed at the lower part of the machine table, a cylinder rod of the lifting cylinder is fixedly connected with the lower end of the material table, and a semicircular groove for accommodating hardware products is formed in the upper end of the material table.

10. An automatic material pushing mechanism according to claim 9, wherein: the semicircular groove is far away from one side of the transition material platform, and is provided with a first limiting mechanism for limiting the front end of the hardware product.

Images