CN220466755U - Automatic collecting device of spare part product for machining - Google Patents

Abstract

The utility model belongs to the technical field of part processing, and particularly discloses an automatic part product collecting device for machining, wherein a discharging nozzle A is arranged at the bottom of a feeding hopper, and the discharging nozzle A and the feeding hopper are of an integrated structure; the inside of ejection of compact mouth B and ejection of compact mouth A is hollow structure, ejection of compact mouth B's tip and ejection of compact mouth A intercommunication, and ejection of compact mouth A is close to the position of bottom and has the open slot, link up the inside of pole embedding ejection of compact mouth A, two expansion plates are embedded respectively in the both ends of connecting rod, and the tip of expansion plate is laminated with ejection of compact mouth A's inner wall, link up the pole and be connected with the expansion plate and form and block under the crotch with great material, have the interval between connecting rod's bottom and the ejection of compact mouth A, small-size material is discharged by the bottom of open slot along the gap, connecting rod and expansion plate are the slope form, connecting rod and expansion plate block down the material slide to ejection of compact mouth B tip along the connecting rod and are discharged by ejection of compact mouth B, thereby accomplish the material screening.

Description

Automatic collecting device of spare part product for machining

Technical Field

The utility model relates to the technical field of part machining, in particular to an automatic part product collecting device for machining.

Background

The mechanical part, also called mechanical element, is a single piece of non-separable material that constitutes the machine and the machine, which is the basic unit of the machine; mechanical parts are a subject of research and design of mechanical foundations in various devices, and are a general term for parts and components;

the mechanical parts contain various kinds, the mechanical parts are conveyed in an entry way through the conveyor belt after being produced, and workers manually screen materials at two sides of the conveyor belt while conveying the mechanical parts, so that different batches of materials are distinguished.

Disclosure of Invention

The utility model aims to provide an automatic collecting device for part products for machining, which aims to solve the problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions: an automatic collection device for part products for machining comprises;

the material screening structure comprises a feed hopper, a discharge nozzle A, a discharge nozzle B, a connecting rod and a telescopic plate;

the bottom of the feed hopper is provided with a discharge nozzle A, the discharge nozzle A and the feed hopper are of an integrated structure, and the discharge nozzle B is positioned on the side surface of the discharge nozzle A;

the inside of the discharging mouth B and the inside of the discharging mouth A are hollow structures, the end part of the discharging mouth B is communicated with the discharging mouth A, an opening groove is formed in the position, close to the bottom, of the discharging mouth A, the connecting rod is embedded into the inside of the discharging mouth A, the two ends of the connecting rod are hollow structures, the number of the telescopic plates is two, the two telescopic plates are respectively embedded into the two ends of the connecting rod, the end parts of the telescopic plates are attached to the inner wall of the discharging mouth A, the bottom of the telescopic plates are spaced from the discharging mouth A, the connecting rod is connected with the telescopic plates to form a barrier for discharging larger materials, a space is formed between the bottom of the connecting rod and the discharging mouth A, small materials are discharged from the bottom of the opening groove along the gap, the connecting rod and the telescopic plates are inclined, and the materials blocked by the connecting rod slide to the end part of the discharging mouth B along the connecting rod, and are discharged from the discharging mouth B, and thus the material screening is completed;

the inside of connecting rod has a plurality of springs, and the tip of spring is laminating with expansion plate and linking rod respectively, and the expansion plate is being pushed to the both ends of spring closely laminating at material mouth A, can effectually prevent great material and pass the expansion plate.

Preferably, the end part of one expansion plate is provided with a welded fixed threaded rod, the outer side of the discharging nozzle A is provided with an integrally welded fixed lug, the end part of the threaded rod penetrates through the lug to extend to the outer side of the discharging nozzle A, and the end part of the threaded rod is provided with a fixed nut for limiting; the threaded rod is installed on the lug through the fixing nut, so that the height of the expansion plate can be adjusted, and the screening of materials with different sizes is realized.

Preferably, the end part of the expansion plate close to the discharging nozzle B is provided with an anti-slip strip, and the anti-slip strip is attached to the inner wall of the discharging nozzle A.

Preferably, the top of the hopper has a welded shroud and the end of the shroud has a feed chute for the feed.

Preferably, the top of the shroud has a plurality of integrally formed motor frames, one side of the motor frames having a drive motor, the drive motor having a drive shaft at an end thereof, the drive shaft having a plurality of blades on an outer side thereof.

Compared with the prior art, the utility model has the beneficial effects that:

attaching the feeding chute to a material table for placing materials, manually pushing the materials to the feeding chute by a worker, starting a driving motor to drive a blade to rotate through a driving shaft, so that the materials are dialled into a feeding hopper, the feeding purpose is achieved, and the materials are conveyed through a discharging nozzle A after entering the feeding hopper; the material screening device comprises a material discharging mouth A, a material screening device and a material screening device, wherein a connecting rod is arranged in the material discharging mouth A, telescopic plates are arranged at two ends of the connecting rod, the connecting rod is connected with the telescopic plates to form a barrier for the crotch of larger materials, a gap is reserved between the bottom of the connecting rod and the material discharging mouth A, small materials are discharged from the bottom of an opening slot along a gap, the connecting rod and the telescopic plates are inclined, and the materials blocked by the connecting rod and the telescopic plates slide to the end part of the material discharging mouth B along the connecting rod and are discharged from the material discharging mouth B, so that the material screening is completed; the tip of expansion plate has the threaded rod, and the threaded rod passes through fixation nut to install on the lug, thereby the height-adjustable of expansion plate realizes the material screening of equidimension not.

Drawings

FIG. 1 is a schematic view of the left-hand side of the present utility model;

FIG. 2 is a schematic view of a partial cross-sectional structure of the present utility model;

FIG. 3 is a right side perspective view of the present utility model;

fig. 4 is an enlarged view of the portion a of fig. 3 according to the present utility model.

In the figure: 100. a feed hopper; 101. coaming plate; 102. a feed chute; 103. a motor frame; 200. a driving motor; 201. a drive shaft; 202. a blade; 300. a discharging nozzle A; 301. an open slot; 302. a bump; 400. a discharging nozzle B; 500. a connecting rod; 501. a spring; 502. a telescoping plate; 503. a threaded rod; 504. and fixing the screw cap.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. 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.

In the description of the present utility model, it should be noted that the azimuth or positional relationship indicated by the terms "vertical", "upper", "lower", "horizontal", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1-4, the present utility model provides a technical solution: an automatic collection device for part products for machining comprises;

the material screening structure comprises a feed hopper 100, a discharge nozzle A300, a discharge nozzle B400, a connecting rod 500 and a telescopic plate 502;

the bottom of the feed hopper 100 is provided with a discharge nozzle A300, the discharge nozzle A300 and the feed hopper 100 are of an integrated structure, and a discharge nozzle B400 is positioned on the side surface of the discharge nozzle A300;

the inside of the discharging nozzle B400 and the inside of the discharging nozzle A300 are hollow structures, the end part of the discharging nozzle B400 is communicated with the discharging nozzle A300, an opening groove 301 is formed in the position, close to the bottom, of the discharging nozzle A300, the connecting rod 500 is embedded into the inside of the discharging nozzle A300, the two ends of the connecting rod 500 are hollow structures, the number of the telescopic plates 502 is two, the two telescopic plates 502 are respectively embedded into the two ends of the connecting rod 500, the end parts of the telescopic plates 502 are attached to the inner wall of the discharging nozzle A300, the bottom of the telescopic plates 502 is spaced from the discharging nozzle A300, the connecting rod 500 is connected with the telescopic plates 502 to form a gap for blocking larger materials from being in the crotch, a gap is formed between the bottom of the connecting rod 500 and the discharging nozzle A300, the small materials are discharged from the bottom of the opening groove 301 along the gap, the connecting rod 500 and the telescopic plates 502 are inclined, and the materials blocked by the telescopic plates 502 slide to the end parts of the discharging nozzle B400 along the connecting rod 500, and the materials are discharged from the discharging nozzle B400, so that the screening of the materials is finished;

the inside of the connecting rod 500 is provided with a plurality of springs 501, the end parts of the springs 501 are respectively attached to the telescopic plate 502 and the connecting rod 500, and the two ends of the springs 501 push the telescopic plate 502 to be tightly attached to the material nozzle A300, so that larger materials can be effectively prevented from passing through the telescopic plate.

Further, the end of one expansion plate 502 is provided with a welded and fixed threaded rod 503, the outer side of the discharging nozzle A300 is provided with an integrally welded and fixed convex block 302, the end of the threaded rod 503 passes through the convex block 302 to extend to the outer side of the discharging nozzle A300, and the end of the threaded rod 503 is provided with a fixed nut 504 for limiting; the threaded rod 503 is installed on the bump 302 through the fixed nut 504, so that the height of the expansion plate 502 can be adjusted, and the screening of materials with different sizes can be realized.

Further, the end of the expansion plate 502 close to the discharge nozzle B400 is provided with an anti-slip strip, and the anti-slip strip is attached to the inner wall of the discharge nozzle a 300.

Further, the top of the feed hopper 100 has a welded shroud 101, and the end of the shroud 101 has a feed chute 102 for the feed.

Further, the top of the shroud 101 has a plurality of integrally formed motor frames 103, one side of the motor frame 103 has a driving motor 200, an end of the driving motor 200 has a driving shaft 201, and a plurality of blades 202 are provided outside the driving shaft 201.

Working principle: when the feeding device is used, the feeding chute 102 is attached to a material table for placing materials, a worker pushes the materials to the feeding chute 102 manually, the driving motor 200 is started to drive the blades 202 to rotate through the driving shaft 201, so that the materials are driven into the feeding hopper 100, the feeding purpose is achieved, and the materials are conveyed through the discharging nozzle A300 after entering the feeding hopper 100;

further, the discharging nozzle a300 is internally provided with an adapting rod 500, two ends of the adapting rod 500 are provided with telescopic plates 502, the adapting rod 500 is connected with the telescopic plates 502 to form a barrier for the crotch of larger materials, a space is reserved between the bottom of the adapting rod 500 and the discharging nozzle a300, small materials are discharged from the bottom of the opening groove 301 along a gap, the adapting rod 500 and the telescopic plates 502 are inclined, and the materials blocked by the adapting rod 500 and the telescopic plates 502 slide to the end part of the discharging nozzle B400 along the adapting rod 500 and are discharged from the discharging nozzle B400, so that the material screening is completed;

further, the end of the expansion plate 502 is provided with a threaded rod 503, and the threaded rod 503 is mounted on the bump 302 through a fixing nut 504, so that the height of the expansion plate 502 can be adjusted, and the screening of materials with different sizes can be realized.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. Automatic collection device of spare part product for machining, its characterized in that: comprises the following steps of;

the material screening structure comprises a feed hopper (100), a discharge nozzle A (300), a discharge nozzle B (400), a connecting rod (500) and a telescopic plate (502);

the bottom of the feed hopper (100) is provided with a discharge nozzle A (300), the discharge nozzle A (300) and the feed hopper (100) are of an integrated structure, and a discharge nozzle B (400) is positioned on the side surface of the discharge nozzle A (300);

the inside of the discharging nozzle B (400) and the inside of the discharging nozzle A (300) are of hollow structures, the end part of the discharging nozzle B (400) is communicated with the discharging nozzle A (300), an open slot (301) is formed in the position, close to the bottom, of the discharging nozzle A (300), the connecting rod (500) is embedded into the inside of the discharging nozzle A (300), the two ends of the connecting rod (500) are of hollow structures, the number of the two telescopic plates (502) is two, the two telescopic plates (502) are respectively embedded into the two ends of the connecting rod (500), the end part of the telescopic plate (502) is attached to the inner wall of the discharging nozzle A (300), and the bottom of the telescopic plate (502) is spaced from the discharging nozzle A (300);

the inside of the connecting rod (500) is provided with a plurality of springs (501), and the end parts of the springs (501) are respectively attached to the expansion plate (502) and the connecting rod (500).

2. An automated collection device for machined part products according to claim 1, wherein: one end of the expansion plate (502) is provided with a welded threaded rod (503), the outer side of the discharge nozzle A (300) is provided with an integrally welded lug (302), the end of the threaded rod (503) passes through the lug (302) to extend to the outer side of the discharge nozzle A (300), and the end of the threaded rod (503) is provided with a fixed nut (504) for limiting.

3. An automated collection device for machined part products according to claim 1, wherein: the end part of the expansion plate (502) close to the discharging nozzle B (400) is provided with an anti-slip strip, and the anti-slip strip is attached to the inner wall of the discharging nozzle A (300).

4. An automated collection device for machined part products according to claim 1, wherein: the top of the feed hopper (100) is provided with a coaming (101) which is fixed by welding, and the end part of the coaming (101) is provided with a feed chute (102) for feeding.

5. An automated collection device for machined part products as set forth in claim 4 wherein: the top of bounding wall (101) has a plurality of integrated into one piece's motor frame (103), and the side of its motor frame (103) has driving motor (200), and driving motor (200)'s tip has drive shaft (201), and the outside of drive shaft (201) has a plurality of blades (202).