CN210474618U

CN210474618U - Mechanical parts size sieving mechanism

Info

Publication number: CN210474618U
Application number: CN201921254864.0U
Authority: CN
Inventors: 韩彦勇
Original assignee: Zhengzhou University of Science and Technology
Current assignee: Zhengzhou University of Science and Technology
Priority date: 2019-08-05
Filing date: 2019-08-05
Publication date: 2020-05-08
Anticipated expiration: 2029-08-05

Abstract

The utility model provides a machine parts size sieving mechanism. The mechanical part size screening device comprises: a main body case; the top of the screening box is fixed on the top of the inner wall of the main body box, and the bottom of the screening box is provided with an opening; the right side of the shaking box is fixed at the top of the left side of the main body box, and the top of the left side of the inner wall of the shaking box is fixedly connected with a U-shaped frame; and the top of the fixed rod are respectively fixed between the top and the bottom of the inner wall of the U-shaped frame. The utility model provides a pair of machine parts size sieving mechanism. The use of the machine is prevented from being influenced in the later-stage use process, the normal operation of mechanical equipment is guaranteed, the burden of workers is reduced, the screening efficiency is greatly improved, the structure is simple, the manpower and material resources are reduced, the labor intensity is reduced, the rapid separation of parts is guaranteed, and the working efficiency is improved.

Description

Mechanical parts size sieving mechanism

Technical Field

The utility model relates to a screening installation field especially relates to a machine parts size sieving mechanism.

Background

The mechanical part, also called mechanical element, is the basic element that constitutes the machine and is a non-detachable single piece that constitutes the machine and the machine. In some mechanical part design manuals and machine manufacturing monographs, many introductions are made on experience and calculation formulas of the relationship between the surface roughness of the mechanical part and the dimensional tolerance of the mechanical part, and the parallel tables are selected by readers.

Most of the existing mechanical parts are manually screened when being screened, so that the workload is high, the production efficiency is low, the number of required people is large, and the production cost is high.

Therefore, it is necessary to provide a device for screening sizes of mechanical parts to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a machine parts size sieving mechanism has solved the screening of current machine parts size and has selected, the problem of inefficiency.

In order to solve the technical problem, the utility model provides a pair of machine parts size sieving mechanism, include: a main body case; the top of the screening box is fixed on the top of the inner wall of the main body box, and the bottom of the screening box is provided with an opening; the right side of the shaking box is fixed at the top of the left side of the main body box, and the top of the left side of the inner wall of the shaking box is fixedly connected with a U-shaped frame; the top and the top of the fixed rod are respectively fixed between the top and the bottom of the inner wall of the U-shaped frame, and the surface of the fixed rod is connected with a sliding frame in a sliding manner; one side of the screening frame is fixed on the surface of the sliding frame, and one side of the bottom of the screening frame is fixedly connected with a blocking frame; the front surfaces of the two conveying wheels are respectively fixed to the top of the inner wall of the screening box and the bottom of the right side of the main box through supporting frames, the surfaces of the two conveying wheels are in transmission connection through conveying belts, and the back surfaces of the two conveying wheels are fixedly connected with a first belt pulley; the bottom of the L-shaped frame is fixed to the bottom of the inner wall of the main box, the top of the L-shaped frame is connected with a collecting box in a sliding mode through a sliding ball, and the bottom of the inner wall of the collecting box is fixedly connected with a separation frame.

Preferably, the right side fixedly connected with link of shake case to the push rod has been run through at the top of link, the surface cover of push rod is equipped with compression spring, and the bottom fixedly connected with push pedal of push rod.

Preferably, the bottom of the inner wall of the shaking box is rotatably connected with a bump through a fixing rod, and the front face of the bump is fixedly connected with a first transmission wheel.

Preferably, the bottom of the inner wall of the shaking box is fixedly connected with a shaking motor, and an output shaft of the shaking motor is fixedly connected with a second driving wheel.

Preferably, the bottom of the right side of the main body box is fixedly connected with a driving motor, and an output shaft of the driving motor is fixedly connected with a second belt pulley.

Preferably, a storage battery box is fixedly connected to the top of the main body box, and a battery is arranged at the bottom of the inner wall of the storage battery box.

Preferably, both sides of the bottom of the main body box are fixedly connected with stabilizing frames, and the surface of the main body box is provided with a control switch.

Compared with the prior art, the utility model provides a pair of machine parts size sieving mechanism has following beneficial effect: the mechanical parts are conveyed uniformly by the aid of the conveying belt through rotation of the conveying wheels, the parts are collected uniformly by the aid of the screening box in the main box, and the electric lugs are driven to shake by the aid of power of the shaking motor when the whole parts are in the screening box;

after that, shake in the inside of accomplishing the screen frame at whole screening case, thereby shake the screening to the size of spare part, finally fall into the inside of collecting box, whole device, utilize driving motor and the use of shake motor, the energy has been saved, can filter the longer part of length simultaneously, prevent to influence its use in the later stage, guarantee mechanical equipment's normal operating, workman's burden has been alleviateed, very big promotion the efficiency of screening, moreover, the steam generator is simple in structure, manpower and materials have been reduced, the labor intensity is reduced, spare part quickly separating is ensured, and the work efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a mechanical component size screening apparatus provided in the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

fig. 3 is a schematic structural diagram of the exterior of a mechanical part size screening device.

Reference numbers in the figures: 1. the device comprises a main body box, 2, a screening box, 3, an opening, 4, a shaking box, 5, a U-shaped frame, 6, a fixing rod, 7, a sliding frame, 8, a screening frame, 9, a blocking frame, 10, a conveying wheel, 11, a supporting frame, 12, a conveying belt, 13, a first belt pulley, 14, an L-shaped frame, 15, a collecting box, 16, a partition frame, 17, a connecting frame, 18, a push rod, 19, a push plate, 20, a compression spring, 21, a bump, 22, a first driving wheel, 23, a shaking motor, 24, a second driving wheel, 25, a driving motor, 26, a second belt pulley, 27, an electric storage box, 28, a power supply battery, 29, a stabilizing frame, 30 and a control switch.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2 and fig. 3 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of a device for screening sizes of mechanical parts according to the present invention; FIG. 2 is an enlarged view of a portion of FIG. 1 at A; fig. 3 is a schematic structural diagram of the exterior of a mechanical part size screening device. A machine part size screening device comprises: the main body box 1, wherein the front side of the main body box 1 is provided with a box door and an observation window; the top of the screening box 2 is fixed on the top of the inner wall of the main body box 1, and the bottom of the screening box 2 is provided with an opening 3; the right side of the shaking box 4 is fixed on the top of the left side of the main body box 1, and a U-shaped frame 5 is fixedly connected to the top of the left side of the inner wall of the shaking box 4; the top and the top of the fixed rod 6 are respectively fixed between the top and the bottom of the inner wall of the U-shaped frame 5, the surface of the fixed rod 6 is connected with a sliding frame 7 in a sliding manner, and the sliding frame 7 drives a screening frame 8 to slide up and down; one side of the screening frame 8 is fixed on the surface of the sliding frame 7, one side of the screening frame 8, which is far away from the sliding frame 7, penetrates through and extends into the screening box 2, one side of the bottom of the screening frame 8 is fixedly connected with a blocking frame 9, and the bottom of the blocking frame 9 is positioned above the separation frame 16; the front surfaces of the two conveying wheels 10 are respectively fixed to the top of the inner wall of the screening box 2 and the bottom of the right side of the main box 1 through support frames 11, the surfaces of the two conveying wheels 10 are in transmission connection through a conveying belt 12, salient points are arranged on the surface of the conveying belt 12 to prevent parts from falling off in the conveying process, and a first belt pulley 13 is fixedly connected to the back surface of each conveying wheel 10; the bottom of the L-shaped frame 14 is fixed to the bottom of the inner wall of the main body box 1, the top of the L-shaped frame 14 is connected with a collecting box 15 in a sliding mode through a sliding ball, a connector is arranged at the top of the collecting box 15, a partition frame 16 is fixedly connected to the bottom of the inner wall of the collecting box 15, the collecting box 15 is divided into two different storage frames through the partition frame 16, and the left side of the collecting box is used for placing small parts.

The right side fixedly connected with link 17 of shake case 4 to link 17's top has run through push rod 18, the surface cover of push rod 18 is equipped with compression spring 20, and the bottom fixedly connected with push pedal 19 of push rod 18, and the surface cover that just is located push rod 18 between the top of push pedal 19 and the bottom of link 17 is equipped with compression spring 20.

The bottom of the inner wall of the shaking box 4 is rotatably connected with a lug 21 through a fixed rod, the top of the lug 21 is contacted with the bottom of the push plate 19, and the front of the lug 21 is fixedly connected with a first driving wheel 22.

The bottom of the inner wall of the shaking box 4 is fixedly connected with a shaking motor 23, an output shaft of the shaking motor 23 is fixedly connected with a second driving wheel 24, and the surface of the second driving wheel 24 is in transmission connection with the surface of the first driving wheel 22 through a second belt.

The bottom of the right side of the main body box 1 is fixedly connected with a driving motor 25, an output shaft of the driving motor 25 is fixedly connected with a second belt pulley 26, and the surface of the first belt pulley 13 is in transmission connection with the surface of the second belt pulley 26 through a first belt.

A power storage box 27 is fixedly connected to the top of the main body case 1, and a power supply battery 28 is provided at the bottom of the inner wall of the power storage box 27.

Stabilizing frames 29 are fixedly connected to both sides of the bottom of the main body case 1, and a control switch 30 is disposed on the surface of the main body case 1.

The utility model provides a pair of machine parts size sieving mechanism's theory of operation as follows:

the first step is as follows: the driving motor 25 is started through the control switch 30, the second belt pulley 26 of the power belt of the driving motor 25 rotates, the first belt pulley 13 of the belt rotates by using the first belt on the surface along with the rotation of the second belt pulley 26, then the conveying wheel 10 of the belt rotates by using the first belt on the surface, and the conveying belt 12 on the surface of the belt moves by the rotation of the conveying wheel 10;

the second step is that: the shaking motor 23 is started, the second driving wheel 24 driven by the power of the shaking motor 23 rotates, the first driving wheel 22 is driven to rotate by the second belt on the surface of the second driving wheel 24, then the first driving wheel 22 drives the lug 21 to rotate, and then the rotating lug 21 drives the screening frame 8 to shake in the whole screening box 2;

the third step: the mechanical parts are placed on the surface of the conveyor belt 12 and conveyed to the inside of the screening box 2, and screened by the shaken screening rack 8, and finally, the screened parts fall into the inside of the collection box 15.

Compared with the prior art, the utility model provides a pair of machine parts size sieving mechanism has following beneficial effect: the mechanical parts are conveyed uniformly by the conveying belt 12 through the rotation of the conveying wheel 10, the parts are collected uniformly by the screening box 2 in the main box 1, and when the whole part is in the screening box 2, the power of the shaking motor 23 is used for driving the drawing lug 21 to shake;

then, the shaking of the screening frame 8 in the whole screening box 2 is completed; thereby the size to spare part shakes the screening, finally fall into the inside of collecting box 15, whole device, utilize driving motor 25 and shake motor 23's use, the energy has been saved, can filter the longer part of length simultaneously, prevent to influence its use in the later stage, guarantee mechanical equipment's normal operating, workman's burden has been alleviateed, very big promotion the efficiency of screening, moreover, the steam generator is simple in structure, manpower and materials have been reduced, labor intensity is reduced, the spare part quickly separating is ensured, and the work efficiency is improved.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims

1. A machine parts size sieving mechanism characterized in that includes:

a main body case;

the top of the screening box is fixed on the top of the inner wall of the main body box, and the bottom of the screening box is provided with an opening;

the right side of the shaking box is fixed at the top of the left side of the main body box, and the top of the left side of the inner wall of the shaking box is fixedly connected with a U-shaped frame;

the top and the top of the fixed rod are respectively fixed between the top and the bottom of the inner wall of the U-shaped frame, and the surface of the fixed rod is connected with a sliding frame in a sliding manner;

one side of the screening frame is fixed on the surface of the sliding frame, and one side of the bottom of the screening frame is fixedly connected with a blocking frame;

the front surfaces of the two conveying wheels are respectively fixed to the top of the inner wall of the screening box and the bottom of the right side of the main box through supporting frames, the surfaces of the two conveying wheels are in transmission connection through conveying belts, and the back surfaces of the two conveying wheels are fixedly connected with a first belt pulley;

the bottom of the L-shaped frame is fixed to the bottom of the inner wall of the main box, the top of the L-shaped frame is connected with a collecting box in a sliding mode through a sliding ball, and the bottom of the inner wall of the collecting box is fixedly connected with a separation frame.

2. The mechanical part size screening device according to claim 1, wherein a connecting frame is fixedly connected to the right side of the shaking box, a push rod penetrates through the top of the connecting frame, a compression spring is sleeved on the surface of the push rod, and a push plate is fixedly connected to the bottom of the push rod.

3. The device for screening sizes of mechanical parts and components according to claim 1, wherein a bump is rotatably connected to the bottom of the inner wall of the shaking box through a fixing rod, and a first driving wheel is fixedly connected to the front surface of the bump.

4. The mechanical part size screening device of claim 1, wherein a shaking motor is fixedly connected to the bottom of the inner wall of the shaking box, and a second transmission wheel is fixedly connected to an output shaft of the shaking motor.

5. The machine part size screening device of claim 1, wherein a driving motor is fixedly connected to the bottom of the right side of the main body box, and a second belt pulley is fixedly connected to an output shaft of the driving motor.

6. The machine part size screening device of claim 1, wherein a storage battery box is fixedly connected to the top of the main body box, and a battery is arranged at the bottom of the inner wall of the storage battery box.

7. The machine part size screening device of claim 1, wherein stabilizing frames are fixedly connected to two sides of the bottom of the main body box, and a control switch is arranged on the surface of the main body box.