CN213568717U - Device capable of conveying in segmented mode - Google Patents

Abstract

The utility model provides a device that can carry by stage for the segmentation of axle bush is carried, include: a delivery platform comprising a delivery channel; divide the material subassembly, be in including actuating mechanism and symmetry setting the jack catch of transfer passage both sides, the jack catch with actuating mechanism links to each other under actuating mechanism's drive, the jack catch stretches into transfer passage is the stock stop state, or withdraws from transfer passage is the blowing state. The utility model is used for solve among the prior art gate-type feed divider and carrying out the in-process of separating to the axle bush, the easy impaired problem of axle bush internal diameter.

Description

Device capable of conveying in segmented mode

Technical Field

The utility model relates to a bearing bush processing field especially relates to a device of axle bush can be carried to segmentation.

Background

On the automatic production line of the bearing bush, a plurality of processes need to carry out segmentation or slicing treatment on the bearing bush, and particularly after the inner diameter of the bearing bush is machined, the machined inner diameter is not allowed to be damaged in the segmentation or slicing process. The traditional separation method is to separate the bearing bush by using a gate type material separating device, but the separation method can damage the inner diameter of the bearing bush.

Therefore, a new material dividing device is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art's shortcoming, the utility model aims to provide a device that can carry by stage for solve among the prior art gate-type feed divider and carrying out the in-process of separating to the axle bush, the easy impaired problem of axle bush internal diameter.

To achieve the above and other related objects, the present invention provides a device capable of segmented conveying, which is used for segmented conveying of bearing bushes, and comprises: a delivery platform comprising a delivery channel; divide the material subassembly, be in including actuating mechanism and symmetry setting the jack catch of transfer passage both sides, the jack catch with actuating mechanism links to each other under actuating mechanism's drive, the jack catch stretches into transfer passage is the stock stop state, or withdraws from transfer passage is the blowing state.

Preferably, the material distributing assemblies are two groups, namely a first group of material distributing assemblies and a second group of material distributing assemblies, and at the same time, the clamping jaws in the two groups of material distributing assemblies are in opposite states.

Preferably, the material distribution device further comprises a first sensor arranged in front of the two groups of material distribution assemblies and a second sensor arranged behind the two groups of material distribution assemblies, wherein the first sensor is used for transmitting signals to the second group of material distribution assemblies to enable the second group of material distribution assemblies to be in a material discharge state, and the second sensor is used for transmitting signals to the second group of material distribution assemblies to enable the second group of material distribution assemblies to be in a material blocking state.

Preferably, the material distributing assembly further comprises a support frame, the clamping jaws are rotatably arranged on the support frame, one side of each clamping jaw is connected with the driving mechanism, and the other side of each clamping jaw is provided with a protruding stopping portion.

Preferably, an open slot is formed in one end of the support frame, and the clamping jaw is rotatably arranged in the open slot through a pin.

Preferably, when the clamping jaw extends into the conveying channel, the stopping part stops at the end part of the bearing bush, and the contact position of the stopping part and the bearing bush is located in the middle of the thickness of the bearing bush.

Preferably, the driving mechanism is a driving cylinder.

As above, the utility model discloses a device that can carry by stage has following beneficial effect:

the bearing bush is arranged in the conveying channel of the conveying platform, the material distributing assemblies are symmetrically arranged on two sides of the conveying channel, clamping jaws on the material distributing assemblies are used for stopping the bearing bush, the clamping jaws stop on two sides of the bearing bush, the inner diameter of the bearing bush is prevented from being damaged in the stopping process, and meanwhile, the clamping jaws symmetrically arranged enable the stopping to be more stable.

Drawings

Fig. 1 is a schematic structural diagram of a material distributing assembly of a device capable of segmented conveying according to the present invention in an extended state.

FIG. 2 is a schematic view of a material distributing assembly of a device capable of sectional conveying according to the present invention in a retracted state

Fig. 3 is a schematic structural view of a device capable of conveying in sections according to the present invention in a material blocking state.

Fig. 4 is a schematic structural diagram of the device capable of conveying in sections in a material distributing state.

Description of the element reference numerals

1 support frame

101 open slot

2 drive mechanism

3 claw

301 stop

4 first group divides material subassembly

5 second group of distributing components

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

For convenience of description, the conveying direction of the bearing shell is defined as a front-rear direction, and the bearing shell is conveyed from the front to the rear.

As shown in fig. 3, the utility model provides a device that can carry by stage for the segmentation of axle bush is carried, include: a delivery platform comprising a delivery channel; divide the material subassembly, be in including actuating mechanism 2 and symmetry setting the jack catch 3 of transfer passage both sides, jack catch 3 with actuating mechanism 2 links to each other under actuating mechanism 2's drive, jack catch 3 stretches into transfer passage is the fender material state, or withdraws from transfer passage is the blowing state.

The bearing bush is arranged in the conveying channel of the conveying platform, the material distributing assemblies are symmetrically arranged on two sides of the conveying channel, the clamping jaws 3 on the material distributing assemblies are used for stopping the bearing bush, the clamping jaws 3 stop on two sides of the bearing bush, the inner diameter of the bearing bush is prevented from being damaged in the stopping process, and meanwhile, the clamping jaws 3 symmetrically arranged enable the stopping to be more stable.

For better branch material, divide the material subassembly in this embodiment to be two sets of, two sets of material subassemblies cooperation realize dividing the material section that contains a certain quantity bearing bush with the axle bush in the transfer passage. Initially, the clamping jaws 3 in the second group of material distributing assemblies 5 extend out to be in a material blocking state, and the clamping jaws 3 in the first group of material distributing assemblies 4 are in an opposite state, namely a material discharging state; when the bearing bush moves to the second group distribution assembly 5 in the conveying channel, the second group distribution assembly 5 discharges materials and the clamping jaws 3 of the first group distribution assembly 4 also extend out to stop the materials at the same time, until the separated material section moves to a certain distance, the clamping jaws 3 of the second group distribution assembly 5 extend out to be in a material blocking state, the first group distribution assembly 4 discharges the materials, the subsequent bearing bush continues to move forwards until the separated material section moves to the second group distribution assembly 5, the second group distribution assembly 5 discharges the materials of the first group distribution assembly 4, the material section is formed in a reciprocating mode, the sectional conveying of the bearing bush is completed, and the bearing bush cannot be damaged.

For better control, realize the automatic and accurate segmentation of material section, this embodiment still includes the first sensor of arranging two sets of material subassemblies the place ahead in and arranges the second sensor of two sets of material subassemblies rear in, first sensor be used for transmission signal extremely the second group divides material subassembly 5 to make it be the blowing state, the second sensor is used for transmission signal extremely the second group divides material subassembly 5 to make it be and keeps off the material state, and specific control process is: in an initial state, the jaws 3 of the second group of material distribution assemblies 5 extend out to be in a material blocking state, the jaws 3 of the first group of material distribution assemblies 4 are in a material placing state, when the first sensor detects a bearing bush signal, namely the fact that the quantity of the bearing bushes blocked from the first sensor to the second group of material distribution assemblies 5 reaches a certain quantity is indicated, the second group of material distribution assemblies 5 receive the signal of the first sensor, namely the jaws 3 of the second group of material distribution assemblies 3 are controlled to place materials, and meanwhile, the jaws 3 of the first group of material distribution assemblies 4 extend out to block materials until the second sensor detects a no bearing bush signal, namely, all the bearing bushes behind the first group of material distribution assemblies 4 pass through the second sensor, at the moment, the second group of material distribution assemblies 5 receive the signal of the second sensor, then the jaws 3 of the second group of material distribution assemblies are controlled to block materials.

In addition, the first sensor is arranged in front of the two groups of material distribution assemblies, so that on one hand, the bearing bushes of the two groups of material distribution assemblies are ensured to be closely arranged, the occurrence of empty sections or overlarge gaps is avoided, and the same quantity of the divided bearing bush sections is improved; on the other hand, the closely arranged bearing bushes ensure that the jaws 3 of the first group of distribution assemblies 4 are always matched with the end sides of the bearing bushes located in front of the adjacent bearing bushes, namely, the jaws can be always inserted into the gaps between the adjacent bearing bushes, so that the bearing bushes can be better stopped, and the inner surfaces of the bearing bushes are not damaged.

Specifically, as shown in fig. 1 and 2, the material distributing assembly further includes a supporting frame 1, a jaw 3 is rotatably disposed on the supporting frame 1, one side of the jaw 3 is connected to the driving mechanism 2, and the other side of the jaw 3 has a protruding stopping portion 301. One end of the support frame 1 is provided with an open slot 101, and the claw 3 is rotatably arranged in the open slot 101 through a pin. In this embodiment, the specific blocking process of the claw 3 is that the driving mechanism 2 drives the telescopic rod thereon to extend and shorten, so as to drive the claw 3 to rotate on the support frame 1 around the pin, and when the driving mechanism 2 drives the telescopic rod thereon to shorten, the blocking portion 301 extends out of the open slot 101 to the conveying channel to realize a blocking function, as shown in fig. 1 and 4; when the driving mechanism 2 drives the telescopic rod thereon to extend, the claw 3 is driven to rotate around the pin on the support frame 1, and the stopping portion 301 is received in the opening groove 101 of the support frame 1, so that the function of discharging is realized, as shown in fig. 2.

In this embodiment, when the stopping portion 301 of the jaw 3 extends into the conveying passage, the stopping portion 301 stops at the end portion of the bearing bush, as shown in fig. 4, and the stopping portion 301 and the contact position of the bearing bush are located in the middle of the thickness of the bearing bush, in this embodiment, the jaw 3 is placed in the open slot 101, the bottom of the open slot 101 has a floor, which supports the height of the jaw 3, so that the jaw 3 and the conveying surface of the conveying passage have a height difference, that is, the height of the stopping portion 301 is consistent with the middle thickness of the bearing bush, and then the stopping portion 301 stops at the end portion of the bearing bush to prevent the stopping portion 301 from damaging the inner diameter of the bearing bush, and meanwhile, the stopping portion 301 stops at the middle of the thickness of the bearing bush to make the.

As shown in fig. 3 and 4, a device capable of conveying in sections includes a first group of material distribution assemblies 4 and a second group of material distribution assemblies 5 arranged along a conveying channel, wherein the two groups of material distribution assemblies are arranged at a certain distance, the distance between the two groups of material distribution assemblies is determined according to the number of bearing bushes and the interval between two adjacent bearing bushes, the number of the bearing bushes in a material section divided by the two groups of material distribution assemblies is generally about 20, so that the conveying efficiency can be ensured, and the bearing bushes do not stay on the conveying channel for too long time; the sensors, namely the first sensor and the second sensor, are arranged in front of and behind the two groups of material distribution assemblies, the two sensors are connected with the driving mechanism 2 on the second group of material distribution assembly 5, the second group of material distribution assembly 5 is in signal connection with the driving mechanism 2 on the first group of material distribution assembly 4, so that opposite actions are executed, the clamping jaws of the two groups of material distribution assemblies are in opposite states, and the driving mechanism 2 can be a driving cylinder. In this embodiment, the first sensor and the second sensor may be photosensors.

To sum up, the utility model provides a device that can carry by stage arranges the axle bush in conveying platform's transfer passage, and the transfer passage bilateral symmetry is provided with divides the material subassembly, divides claw 3 on the material subassembly to be used for the backstop axle bush, because 3 backstops of claw are in the axle bush both sides, have avoided the backstop in-process to damage the axle bush internal diameter, and 3 make the backstop more steady of claw that the symmetry set up simultaneously.

Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (7)

1. A device that can carry by stage for the segmentation of axle bush carries, characterized by, includes:

a delivery platform comprising a delivery channel;

divide the material subassembly, be in including actuating mechanism (2) and symmetry setting jack catch (3) of transfer passage both sides, jack catch (3) with actuating mechanism (2) link to each other under the drive of actuating mechanism (2), jack catch (3) stretch into transfer passage is the fender material state, or withdraws from transfer passage is the blowing state.

2. A device for conveying in sections according to claim 1, characterised in that the feed assemblies are two groups, a first group (4) and a second group (5), and in that the jaws (3) of the two groups are in opposite positions at the same time.

3. A device for segmented delivery as claimed in claim 2, wherein: still including arranging in two sets of the first sensor in branch material subassembly the place ahead and arranging in the second sensor in two sets of branch material subassembly rear, first sensor is used for transmitting the signal extremely second group divides material subassembly (5) to make it be the blowing state, the second sensor is used for transmitting the signal extremely second group divides material subassembly (5) to make it be and keeps off the material state.

4. The apparatus of claim 1, wherein: the material distributing assembly further comprises a supporting frame (1), the clamping jaw (3) is rotatably arranged on the supporting frame (1), one side of the clamping jaw (3) is connected with the driving mechanism (2), and the other side of the clamping jaw (3) is provided with a protruding stopping portion (301).

5. The device of claim 4, wherein: support frame (1) one end is equipped with open slot (101), jack catch (3) rotate through the pin and set up in open slot (101).

6. The device of claim 4, wherein: when the clamping jaws (3) extend into the conveying channel, the stopping parts (301) stop at the end parts of the bearing bushes, and the contact positions of the stopping parts (301) and the bearing bushes are located in the middle of the thickness of the bearing bushes.

7. The apparatus of claim 1, wherein: the driving mechanism (2) is a driving cylinder (201).

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