CN217732266U - Shifting fork assembly and wire rod receiving system - Google Patents

Abstract

The utility model relates to a shifting fork assembly and a wire rod material collecting system, which comprises a fixed rod and a shifting rod, wherein the cross sections of the fixed rod and the shifting rod are circular, a chute is arranged on the circumferential surface of the shifting rod along the axial direction of the shifting rod, and a bayonet communicated with the chute is also arranged on the circumferential surface of the shifting rod; the dead lever can dismantle on being close to the periphery of lower extreme position and be connected with spacing portion, and in the spout was arranged in to spacing portion, spacing portion can carry on spacingly with the bayonet socket joint when sliding from top to bottom to assigned position department at the driving lever. The wire rod receiving system comprises at least two shifting fork assemblies and a receiving disc, fixing rods in the two shifting fork assemblies are symmetrically and vertically connected to the lower bottom surface of the receiving disc, and a receiving frame is arranged below the receiving disc. The driving lever can carry out the regulation of length along dead lever axial direction, when needs will receive the work or material rest and remove to the assigned position, only need slide the regulation about the driving lever and can be convenient for receive the removal of work or material rest, need not to carry out loaded down with trivial details removal debugging.

Description

Shifting fork assembly and wire rod receiving system

Technical Field

The utility model belongs to the technical field of the wire rod unreels and carries, especially, relate to a shift fork assembly and wire rod receive material system.

Background

The utility model discloses a material receiving unit of material machine is received to steel wire in the utility model that the patent number is CN201921666938.1, as shown in figure 11 in this document, install shift fork 481 at the lower extreme of sliding sleeve 451, shift fork 481 inserts two drive parts 4739 of subtend in, stir the drive part 4739 of subtend in shift fork 481 rotates the in-process, drive rotatory chassis 471 synchronous rotation.

The receiving unit 47 is used for storing the steel wires, and because the length of the steel wires to be wound is long, and the storage amount of the receiving unit 47 is limited, a plurality of receiving units 47 are usually prepared in advance so that the steel wires can be completely wound; the receiving unit 47 and the receiving tray 450 cannot be fixedly connected for the convenience of actual production operation; the shifting fork 481 can enable the material receiving tray 450 to rotate and drive the material receiving unit 47 to rotate together, so that the material receiving is uniform, stable and orderly.

However, the shifting fork is only formed by vertically arranged rods, the length of the shifting fork is fixed, when the material receiving unit is arranged at the designated position, the shifting fork can block the material receiving unit to a certain extent, so that the material receiving unit is moved to or moved out of the designated position below the material receiving plate, the trouble of adjusting the material receiving unit is avoided continuously, the size of the material receiving unit during manufacturing has deviation, the material receiving units are often different in height, and therefore the shifting fork cannot be applied to the material receiving units with different heights, and certain influence is caused on production.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a shift fork assembly earlier, the holistic length is adjusted to the driving lever that the accessible slides and cup joints on the dead lever to improve its suitability and convenience. And then provide a wire rod material receiving system again, can be convenient for remove the material collecting rack to the assigned position through the regulatory action of driving lever, need not carry out the regulation of each angle and just can realize moving to or shift out the assigned position below the material collecting tray to improve the efficiency of overall production.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a shifting fork assembly comprises a fixed rod and a shifting rod which is sleeved on the fixed rod in a sliding mode and can stay at a designated position, the cross sections of the fixed rod and the shifting rod are circular, a hollowed-out sliding groove is formed in the wall of the shifting rod along the axial direction of the shifting rod, a bayonet communicated with the sliding groove is further formed in the circumferential surface of the shifting rod, and the bayonet is perpendicular to the sliding groove; the fixed rod is detachably connected with a limiting part on the circumferential surface close to the lower end position, the limiting part is arranged in the sliding groove, and the limiting part can be clamped with the bayonet for limiting when sliding to the designated position from top to bottom on the shifting rod.

Sliding connection between driving lever and the dead lever makes the holistic length of fork assembly become adjustable, and it is more convenient not only to use, and its application scope is wider moreover. The driving lever can move up and down along the sliding groove to be adjusted, when the proper position is adjusted, the bayonet provides a temporary clamping point position, and the driving lever is rotated to enable the limiting part to be clamped to the position of the bayonet, so that the length of the driving lever can be adjusted.

Preferably, the number of the bayonets is at least two, and the bayonets are arranged at intervals along the length direction of the sliding chute.

The bayonet socket is provided with a plurality of heights which can enable the deflector rod to be adjusted to be different, and therefore the applicability is stronger.

Preferably, the limiting part is a bolt, and the fixing rod is provided with a threaded hole matched with the bolt.

Through the connection of dismantling of bolt for shift fork assembly's the convenience of whole installation dismantlement and the change maintenance in later stage all ten, only need twist the bolt and twist down and can accomplish holistic split.

The limiting part is clamped in the bayonet to form friction fit with the inner wall of the bayonet.

The friction fit of spacing portion and bayonet socket makes spacing portion can not break away from easily with the joint of bayonet socket, prevents the condition that drops from appearing in accommodation process, influence production efficiency.

The wire rod receiving system comprises at least two shifting fork assemblies and a receiving tray, fixed rods in the two shifting fork assemblies are symmetrically and vertically connected to the lower bottom surface of the receiving tray, the receiving tray is arranged below the receiving tray, and the shifting rod slides upwards to form a preparation state and is vertically staggered with the receiving tray; the shifting rod slides downwards to form a material receiving state, and the shifting rod and the material receiving frame are staggered up and down in the material receiving state.

When receiving the material frame and receiving the material to the wire rod, remove it to receiving under the material disc, the driving lever can be along the dead lever upwards sliding when it removes, rotates the driving lever when sliding to a take the altitude and makes spacing portion and bayonet socket joint carry on spacingly, after receiving the material frame and removing to the assigned position, the reverse rotation driving lever breaks away from the joint state, and the driving lever naturally slides down to the extreme low position under self action of gravity and supports and receive the material frame.

And the setting of a plurality of bayonets makes the driving lever adjustable to different height for the height of driving lever can be according to the height control of receiving the work or material rest to suitable position, with receiving the work or material rest and remove to assigned position department after, the material rest butt position can be convenient for aim at from top to bottom with the driving lever. If the height interval between the material receiving frame and the shifting rod is larger, the shifting rod is not convenient to align with the abutting position of the material receiving frame.

Preferably, the automatic feeding device further comprises a rack, a motor is arranged on the top surface of the rack, the material receiving disc is arranged on the bottom surface of the rack, and the shaft center of the material receiving disc is connected with the output end of the motor.

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

1. the length of the deflector rod can be adjusted along the axial direction of the fixed rod, when the material receiving frame needs to be moved to a specified position, the deflector rod can be conveniently moved only by sliding up and down to adjust, and complex moving debugging is not needed;

2. the shifting rod slides up and down to adjust the overall length of the shifting fork, so that the material collecting rack is suitable for various material collecting racks with different heights, and has wider application range and higher practicability;

3. the bayonet socket plays the effect of interim joint when the driving lever is adjusted, is convenient for remove the receipts work or material rest to the assigned position, after adjusting the preparation and accomplish, rotates the driving lever and breaks away from the joint with the bayonet socket, and the driving lever leans on gravity to naturally slide to extreme low position department and carries out the butt to receiving the work or material rest.

Drawings

FIG. 1 is a first schematic structural view of the middle fork assembly of the present invention in a material receiving state;

FIG. 2 is a schematic structural view of the middle fork assembly of the present invention in a ready state;

FIG. 3 is a schematic structural view of the material receiving system of the present invention;

fig. 4 is an enlarged view of the structure at a in fig. 3.

Description of the drawings: 1. fixing the rod; 2. a deflector rod; 3. a chute; 4. a bayonet; 5. a bolt; 6. a material receiving disc; 7. a material collecting frame; 8. a frame; 9. an electric motor.

Detailed Description

The following describes the embodiments of the present invention in detail with reference to the attached drawings.

In the embodiment, the shifting fork assembly and the wire rod receiving system using the shifting fork assembly are specifically disclosed, as shown in fig. 1-2, the shifting fork assembly comprises a fixed rod 1 and a shifting rod 2 which is slidably sleeved on the fixed rod 1 and can stay at a specified position, the cross sections of the fixed rod 1 and the shifting rod 2 are both circular, a hollow chute 3 is formed in the rod wall of the shifting rod 2 along the axial direction of the shifting rod 2, a bayonet 4 communicated with the chute 3 is further formed in the circumferential surface of the shifting rod 2, and the bayonet 4 is perpendicular to the chute 3; the fixed rod 1 is detachably connected with a limiting part on the circumferential surface close to the lower end position, the limiting part is arranged in the sliding groove 3, and the limiting part can be clamped with the bayonet 4 for limiting when sliding up and down to the designated position on the shifting lever 2.

As shown in fig. 3-4, the specific structure of the wire rod receiving system comprises at least two shifting fork assemblies and a receiving tray 6, wherein the fixing rods 1 in the two shifting fork assemblies are symmetrically and vertically connected to the lower bottom surface of the receiving tray 6, a receiving frame 7 is arranged below the receiving tray 6, and the shift lever 2 slides upwards to form a preparation state and is staggered with the receiving frame 7 up and down; the driving lever 2 slides downwards to form a material receiving state, and the driving lever 2 and the material receiving frame 7 are staggered up and down in the material receiving state.

In the production that actual wire rod was received the material, the preparation stage need be earlier received work or material rest 7 and remove to the below of receiving material tray 6 before receiving the material to make the wire rod from receiving material tray 6 guide when sending down can evenly twine on receiving material rest 7, fork assembly can rotate and stir receiving material rest 7 and rotate together along with receiving material tray 6's rotation, realize synchronous stable receipts material. The material receiving disc 6 is powered by a motor 9 arranged on the top surface of the rack 8, the material receiving disc 6 is arranged on the bottom surface of the rack 8, and the axis of the material receiving disc 6 is connected with the output end of the motor 9.

In-process to receiving material rack 7 and removing to the collection material tray 6 below, traditional shift fork is because its fixed length can produce the hindrance to receiving material rack 7, consequently need will carry out continuous adjustment to receiving material rack 7 for the shift fork can butt receiving material rack 7's butt position department, trouble very. The shifting fork assembly in the embodiment can be adjusted by sliding the shifting rod 2 up and down, so that the overall length is adjusted. Before receiving the material, can be according to the height of the receipts work or material rest 7 of carrying out the rolling wire rod, upwards slide driving lever 2 to appointed height along spout 3, then rotate driving lever 2 and make the bayonet socket 4 of 3 sides of spout and the spacing portion on the dead lever 1 carry out the joint, it is spacing to driving lever 2 temporarily, spacing portion joint forms friction fit with 4 inner walls of bayonet socket in bayonet socket 4, can prevent droing in the accommodation process, then will receive work or material rest 7 and remove to the assigned position, and make the butt position of receiving work or material rest 7 aim at driving lever 2, rotate driving lever 2 again this moment and break away from the joint, driving lever 2 can fall to the butt position of receiving work or material rest 7 naturally under the effect of gravity, convenience very.

In order to facilitate the alignment of the abutting positions of the shifting rod 2 and the material receiving frame 7, when the shifting rod 2 is in a clamping state with the limiting part, the difference between the height of the lower end of the shifting rod 2 and the height of the upper end of the material receiving frame 7 is not too large, but the heights of the material receiving frame 7 which are different in production specification or size are different, so that at least two bayonets 4 are arranged, and the bayonets 4 are arranged at intervals along the length direction of the sliding groove 3; the bayonets 4 are arranged to enable the shifting rod 2 to be adjusted to different heights, so that the height difference between the lower end of the shifting rod 2 and the upper end of the material receiving frame 7 is reduced, actual production operation is facilitated, and efficiency is improved. If the difference between the height of the lower end of the shifting rod 2 in the clamping state and the height of the upper end of the material receiving frame 7 is large, the abutting positions of the shifting rod 2 and the material receiving frame 7 are difficult to align in actual operation, and therefore the trouble of subsequent adjustment is increased.

Because shift fork subassembly need constantly stir material collecting rack 7 and then drive its rotation, consequently the damage takes place very easily for driving lever 2, and sets up spacing portion into bolt 5 to be equipped with the screw hole with bolt 5 looks adaptation on the dead lever 1. Make fork assembly's installation dismantle and subsequent maintenance change all very convenient, only need twist soon bolt 5 down can, bolt 5 not only can carry on spacingly to driving lever 5, still provides the point location of 4 interim joints of bayonet socket, still convenient to install simultaneously and dismantle.

The above description of the present invention is intended to be illustrative. Various modifications, additions and substitutions may be made by those skilled in the art without departing from the scope of the invention as defined in the accompanying claims.

Claims (6)

1. A shifting fork assembly is characterized by comprising a fixed rod (1) and a shifting rod (2) which is sleeved on the fixed rod (1) in a sliding mode and can stay at a designated position, the cross sections of the fixed rod (1) and the shifting rod (2) are both circular, a hollowed-out sliding groove (3) is formed in the rod wall of the shifting rod (2) along the axial direction of the shifting rod (2), a bayonet (4) communicated with the sliding groove (3) is further formed in the circumferential surface of the shifting rod (2), and the bayonet (4) is perpendicular to the sliding groove (3); dead lever (1) can be dismantled on being close to the periphery of lower extreme position and be connected with spacing portion, spout (3) are arranged in to spacing portion, spacing portion can carry on spacingly with bayonet socket (4) joint when driving lever (2) slide from top to bottom to assigned position department.

2. A fork assembly according to claim 1, wherein there are at least two bayonets (4), and each bayonet (4) is spaced apart along the length of the runner (3).

3. A fork assembly according to claim 1, wherein the limiting portion is a bolt (5), and the fixing rod (1) is provided with a threaded hole adapted to the bolt (5).

4. A fork assembly according to claim 1, wherein the limiting portion snaps into the bayonet (4) to form a friction fit with the inner wall of the bayonet (4).

5. A wire rod receiving system is characterized by comprising at least two shifting fork assemblies and a receiving tray (6) according to any one of claims 1 to 3, wherein fixing rods (1) in the two shifting fork assemblies are symmetrically and vertically connected to the lower bottom surface of the receiving tray (6), a receiving frame (7) is arranged below the receiving tray (6), and a shifting rod (2) slides upwards to form a preparation state and is vertically staggered with the receiving frame (7); the shifting rod (2) slides downwards to form a material receiving state, and the shifting rod (2) and the material receiving frame (7) are staggered up and down in the material receiving state.

6. The wire rod receiving system as claimed in claim 5, further comprising a frame (8), wherein a motor (9) is arranged on the top surface of the frame (8), the receiving tray (6) is arranged on the bottom surface of the frame (8), and the axis of the receiving tray (6) is connected with the output end of the motor (9).

Images