CN112808786A - Stainless steel wire section winding and drawing machine and operation method - Google Patents

Abstract

The invention discloses a stainless steel wire segment coiling and drawing machine and an operation method, the structure of the stainless steel wire segment coiling and drawing machine comprises an adjusting pull cylinder, a side supporting plate, a connecting port and a coiling cylinder, the adjusting pull cylinder is arranged on the outer surface of the side supporting plate, a steel wire runs on a track continuously for drawing and coiling, when the steel wire coil receives the tail end, the steel wire at the outer end of an air port swings according to the hard force of the steel wire coil, the steel wire is fixed by a stable block with certain force, the expansion angles at two sides bear the force of extrusion, an outer pasting layer plays a role of protecting the interior of the steel wire, when the tail end of the steel wire treatment is warped, the steel wire can be pulled to return in time, so that the end port of the steel wire cannot be pushed to be expanded, one end of a convex plane can be abutted against a shovel corner, the hard force is fixed by the fixed angle, and the outer layer has certain hard force to smooth, the wire drawing machine can draw wires under the condition that the pressing diameters generated by the steel wire sections are different, and can smooth the part protruding out of the plane in time.

Description

Stainless steel wire section winding and drawing machine and operation method

The invention relates to a divisional application of a stainless steel wire sectional winding and drawing machine, which has an application date of 2019, 12 and 14 and an application number of CN 201911286867.7.

Technical Field

The invention belongs to the field of Programmable Logic Controllers (PLC), and particularly relates to a stainless steel wire section winding and drawing machine and an operation method thereof.

Background

Stainless steel reinforcing bar need adjust through several cylinders at the in-process of roll-up wire drawing, makes the steel wire that it passes through can the diameter unanimous to flatten its unevenness's surface, draw the whole even roll-up of again together.

Based on the findings of the inventor, the existing wire drawing machine mainly has the following defects, such as:

1. the length of steel wire is also limited, and when the roll-up reached the tail end, its steel wire had self certain hard power, when the tail end did not contradict on the adjustment cylinder, can follow the hard power and tilt, made its linking transfer mouthful can be propped greatly because tilting of steel wire, influenced its subsequent control range.

2. The tail end diameter of steel wire can oppress the deformation a little in the segmentation, when transferring mouthful through linking, can be because the diameter differs, fish tail under the power of lasting roll-up links up the position of transferring mouthful to pass through.

Therefore, it is necessary to provide a stainless steel wire segment winding and drawing machine and an operation method thereof.

Disclosure of Invention

Also be limited in order to solve the length of above-mentioned technical steel wire, when the roll-up reaches the tail end, its steel wire has the certain hard power of self, when the tail end does not contradict on the adjustment cylinder, can follow the hard power and tilt, make its linking transfer mouthful can be propped greatly because tilting of steel wire, influence its subsequent control range, the tail end diameter of steel wire can oppress the deformation a bit when the segmentation, when transferring mouthful through linking, can be because the diameter differs, the problem of the position that the fish tail joint was transferred mouthful and is passed through is linking under the power that lasts the roll-up.

The invention relates to a stainless steel wire section coiling and drawing machine and an operation method thereof, and the purpose and the effect are achieved by the following specific technical means:

the structure of the device comprises an adjusting pull cylinder, a side supporting plate, a connecting adjusting opening, a winding cylinder, a control end and a bottom support frame.

The adjustment slide is installed in the side fagging surface, the side fagging welds in linking and transfers mouthful surface, it transfers mouthful to link up and is connected with the bottom sprag frame, the roll-up section of thick bamboo is located and is controlled end side.

The linking and port adjusting device comprises a hollow port, a necking edge, a hard corner, a shovel tip head and an outer pocket shell, wherein the hollow port is embedded into the outer pocket shell, the necking edge is connected with the hard corner, and the shovel tip head is installed on the inner wall of the outer pocket shell.

As a further improvement of the invention, the necking edge comprises a swinging angle, an outer layer, a swinging core and extension angles, the swinging angle is connected with the swinging core, the swinging core is embedded in the outer layer, one end of the swinging core, far away from the swinging angle, is connected with the extension angles, the swinging angles are three, and the extension angles are made of rubber materials and have certain protection performance.

As a further improvement of the invention, the swing angle comprises a first angle, a stable block, an expansion corner, a buffer strip core and two expansion corners, the first angle is connected with the stable block, the expansion corner is arranged on the outer surface of the stable block, the buffer strip core is connected with the expansion corners, the expansion corners are two, the expansion corners are in a semi-arc structure, and the stable block is two.

As a further improvement of the invention, the pendulum core comprises a middle fixed ball, an outer pasting layer and a slow ball head, wherein the middle fixed ball is arranged inside the outer pasting layer, the outer pasting layer is connected with the slow ball head, the middle fixed ball is of a spherical structure, and the slow ball head is of a semi-arc structure.

As a further improvement of the invention, the shovel tip comprises shovel corners, a spacer and a holding block, wherein the spacer is connected with the holding block, one end of the spacer, which is far away from the holding block, is connected with the shovel corners, the holding block is in a triangular structure, and the number of the spacer is three.

As a further improvement of the invention, the shovel edge angle comprises a push angle, a hard shell, a fixed force angle, a rubber edge and a slow-pressing ball, wherein the rubber edge is attached to the outer surface of the slow-pressing ball, the fixed force angle is embedded into the hard shell, the hard shell is connected with the push angle, four and two rubber edges are arranged in one group, and the slow-pressing ball is of a spherical structure.

Compared with the prior art, the invention has the following beneficial effects:

1. the steel wire lasts moves wire drawing roll-up on the track, when the tail end is received to the steel wire book, wherein the steel wire of air interface outer end will be according to the hard swing of self, carry out the fixed of a definite force to it by the steady piece, the exhibition limit angle of both sides will bear extruded power, let the initial angle can swing under a definite force, the swing of initial angle will be followed in the lump by the buffering strip core of rear end and pulled, can the external power of dispersed contact, convenient activity is flexible, play the effect of protection to its inside by outer plying-up, let the pendulum can be when the extrusion to the angle, pull the playback with its steel wire that sticks up, when the tail end that the steel wire was handled has the condition of tilting, can be timely pull the playback with it, make it can not promote its port and enlarge.

2. The convex plane one end will be contradicted to the shovel corner, is fixed hard power to it by the solid power angle, lets push away the power that the angle can be smooth withstood the shovel corner and bear, lets the skin have certain hard power, smooths external convex plane's object, can be at the wire drawing under the produced oppression diameter of steel wire truncation differs, carries out timely smoothing to its convex plane position.

Drawings

FIG. 1 is a schematic structural diagram of a stainless steel wire segment furling and drawing machine and an operation method thereof.

FIG. 2 is a schematic view of a front view of an internal structure of a connection port.

Fig. 3 is a schematic front view of an internal structure of a necking edge according to the present invention.

Fig. 4 is a schematic view of an elevation internal structure of a swing angle according to the present invention.

FIG. 5 is a schematic view of an elevation view of an internal structure of a pendulum core according to the present invention.

FIG. 6 is a front view of the interior of the shovel tip of the present invention.

Fig. 7 is a schematic front view of an internal structure of a shovel edge angle according to the present invention.

In the figure: an adjusting pull cylinder-tt 01, a side support plate-tt 02, an engagement adjusting port-tt 03, a winding cylinder-tt 04, a control end-tt 05, a bottom support frame-tt 06, a hollow port-qw 1, a reducing edge-qw 1, a hard angle-qw 1, a shovel nose-qw 1, an outer pocket shell-qw 1, a swinging angle-aa 1, an outer layer-aa 1, a swinging core-aa 1, an extending angle-aa 1, a nose angle-zx 1, a stable block-zx 1, a spreading angle-zx 1, a buffer strip core-zx 1, an arc expanding strip-zx 1, a middle fixed ball-g 1, an outer pasting layer-g 1, a slow ball-head g 1, a shovel edge angle-dd 1, a spacer-dd 1, a fixing block-dd 1, a push angle-vv-1, a slow fixed ball-v-1, a vv-v-1 and a pressure side vv-1.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides a stainless steel wire section winding and drawing machine and an operation method thereof, and the structure of the stainless steel wire section winding and drawing machine comprises an adjusting pull cylinder tt01, a side support plate tt02, an engagement adjusting port tt03, a winding cylinder tt04, a control end tt05 and a bottom support frame tt 06.

The adjusting pull cylinder tt01 is mounted on the outer surface of a side support plate tt02, the side support plate tt02 is welded on the surface of an engagement adjustment port tt03, the engagement adjustment port tt03 is connected with a bottom support frame tt06, and the winding cylinder tt04 is arranged on the side of a control end tt 05.

The connecting and adjusting port tt03 comprises a hollow port qw1, a necking edge qw2, a hard angle qw3, a shovel tip qw4 and an outer pocket shell qw5, wherein the hollow port qw1 is embedded into the outer pocket shell qw5, the necking edge qw2 is connected with the hard angle qw3, and the shovel tip qw4 is mounted on the inner wall of the outer pocket shell qw 5.

The necking side qw2 includes a swinging angle aa1, an outer layer aa2, a swinging core aa3 and an extended angle aa4, the swinging angle aa1 is connected with the swinging core aa3, the swinging core aa3 is embedded in the outer layer aa2, one end, away from the swinging angle aa1, of the swinging core aa3 is connected with the extended angle aa4, three swinging angles aa1 are provided, the extended angle aa4 is made of a rubber material and has certain protection, when the swinging angle aa1 has an extrusion force to the outside, the swinging core aa3 deforms in a certain direction, the whole is in an extrusion state and has a reverse effect on the external force, the external force can be relieved and dragged back to the original position, the inner installation space is limited by the outer layer aa2 and plays a role in protecting the swinging force, and the swinging core aa3 is buffered according to the external force to pull back the protection.

The swinging angle aa1 comprises a leading angle zx1, a stable block zx2, a spreading angle zx3, a buffer strip core zx4 and an arc expanding strip zx5, the leading angle zx1 is connected with the stable block zx2, the outer surface of the stable block zx2 is provided with a spreading corner zx3, the buffer strip core zx4 is connected with the arc expanding strip zx5, two spreading corners zx3 are arranged, the arc expanding strip zx5 is of a semi-arc structure, two stable blocks zx2 are arranged, the leading angle zx1 can disperse external force to facilitate movable extension and retraction, the stable block zx2 gives a certain hard force to an engaging part, the spreading corner zx3 can play a role in engagement of extension and expansion prevention when the position moves, and the buffer strip core zx4 plays a role in pulling back force when the arc expanding strip zx5 is subjected to a certain force.

The pendulum core aa3 comprises a middle fixing ball g01, an outer attaching layer g02 and a ball buffering head g03, the middle fixing ball g01 is installed inside the outer attaching layer g02, the outer attaching layer g02 is connected with the ball buffering head g03, the middle fixing ball g01 is of a spherical structure, the ball buffering head g03 is of a semi-arc structure, the outer attaching layer g02 bears external force in a large area, the middle fixing ball g01 is a fixing strip of a middle supporting force when swinging externally, and the ball buffering head g03 enables a force bearing end to be provided with a fixed force bearing point.

The specific use mode and function of the embodiment are as follows:

in the invention, when the head end of a stainless steel wire is dragged to integrally bypass an adjusting pull cylinder tt01 to enter a splicing and adjusting port tt03 so as to be wound on a winding cylinder tt04, the winding cylinder tt04 is controlled to rotate by an operating end tt05, the steel wire is continuously run, drawn and wound on a track, when the steel wire is wound at the tail end, the steel wire at the outer end of an empty port qw1 swings according to the self hard force, the steel wire firstly swings to a necking side qw2, the swinging angle aa1 bears the tilting force of the steel wire, the initial angle zx1 swings to one side, a stable block zx2 fixes the steel wire with a certain force, the spreading angles zx3 at both sides bear the extruding force, the initial angle zx1 swings under a certain force, the buffer strip core zx4 at the rear end is dragged along with the swinging of the initial angle zx1, and the buffer strip core zx3 at the rear end is gradually pushed to swing to a buffer ball 01 when the swinging angle aa1 without a return force, the outer adhesive layer g02 has a protection effect on the inside of the steel wire, and the swinging angle aa1 can be extruded and simultaneously pulled back to the original position by the reverse force of the buffer strip core zx 4.

Example 2:

as shown in fig. 6 to 7:

the shovel tip qw4 comprises a shovel edge angle dd01, a partition body dd02 and a holding block dd03, the partition body dd02 is connected with the holding block dd03, one end, away from the holding block dd03, of the partition body dd02 is connected with the shovel edge angle dd01, the holding block dd03 is of a triangular structure, the partition bodies dd02 are three, the shovel edge angle dd01 enables an outer layer to have certain hard force to smooth objects protruding out of the plane, and the partition body dd02 enables the holding part to be more stable under stress.

The shovel corner dd01 comprises a push angle vv1, a hard shell vv2, a fixing force angle vv3, a glue edge vv4 and a slow pressing ball vv5, wherein the glue edge vv4 is attached to the outer surface of the slow pressing ball vv5, the fixing force angle vv3 is embedded into the hard shell vv2, the hard shell vv2 is connected with the push angle vv1, four and two glue edges vv4 are arranged in one group, the slow pressing ball vv5 is of a sphere structure, the push angle vv1 can push an external object better in the form, the fixing force angle vv3 enables the external object to have firmer force, the slow pressing ball vv5 plays a role in protection when the stress position is applied, and the glue edge vv4 prevents the abutting position from swinging excessively.

The specific use mode and function of the embodiment are as follows:

in the invention, when steel wires with different diameters are input into the hollow port qw1, one end of the convex plane is abutted against the shoveling edge angle dd01, the fixed force angle vv3 fixes the hard force, and the pressure-relieving ball vv5 is arranged between the fixed force angle vv3 and the pushing angle vv1 to protect the bearing extrusion force between the fixed force angle vv3 and the pushing angle vv1, so that the pushing angle vv1 can smoothly abut against the force borne by the shoveling edge angle dd01 to smooth the external convex block.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (6)

1. A stainless steel wire cutting coiling and drawing machine structurally comprises an adjusting pull cylinder (tt01), a side supporting plate (tt02), an engagement adjusting opening (tt03), a coiling cylinder (tt04), a control end (tt05) and a bottom supporting frame (tt06), and is characterized in that:

the adjusting pull cylinder (tt01) is mounted on the outer surface of a side supporting plate (tt02), the side supporting plate (tt02) is welded on the surface of an engagement adjusting port (tt03), the engagement adjusting port (tt03) is connected with a bottom support frame (tt06), and the winding cylinder (tt04) is arranged on the side of the control end (tt 05);

the engagement adjusting opening (tt03) comprises a hollow opening (qw1), a necking edge (qw2), a hard corner (qw3), a shovel tip (qw4) and an outer pocket shell (qw5), wherein the hollow opening (qw1) is embedded into the outer pocket shell (qw5), the necking edge (qw2) is connected with the hard corner (qw3), and the shovel tip (qw4) is mounted on the inner wall of the outer pocket shell (qw 5);

the necking edge (qw2) comprises a swinging angle (aa1), an outer layer (aa2), a swinging core (aa3) and an extending angle (aa4), wherein the swinging angle (aa1) is connected with the swinging core (aa3), the swinging core (aa3) is embedded in the outer layer (aa2), and one end, far away from the swinging angle (aa1), of the swinging core (aa3) is connected with the extending angle (aa 4).

2. The stainless steel wire segment winding and drawing machine according to claim 1, characterized in that: the pendulum is to angle (aa1) including initial angle (zx1), steady piece (zx2), exhibition limit angle (zx3), buffering strip core (zx4), expand arc strip (zx5), initial angle (zx1) are connected with steady piece (zx2), steady piece (zx2) surface mounting has exhibition corner (zx3), buffering strip core (zx4) is connected with expand arc strip (zx 5).

3. The stainless steel wire segment winding and drawing machine according to claim 1, characterized in that: the pendulum core (aa3) comprises a middle fixing ball (g01), an outer attaching layer (g02) and a ball buffering head (g03), wherein the middle fixing ball (g01) is mounted inside the outer attaching layer (g02), and the outer attaching layer (g02) is connected with the ball buffering head (g 03).

4. The stainless steel wire segment winding and drawing machine according to claim 1, characterized in that: the shovel tip (qw4) comprises a shovel corner (dd01), a separation body (dd02) and a holding block (dd03), the separation body (dd02) is connected with the holding block (dd03), and one end, far away from the holding block (dd03), of the separation body (dd02 is connected with the shovel corner (dd 01).

5. The stainless steel wire segment winding and drawing machine according to claim 4, characterized in that: the shovel corner (dd01) comprises a push angle (vv1), a hard shell (vv2), a solid force angle (vv3), a glue edge (vv4) and a slow pressing ball (vv5), wherein the glue edge (vv4) is attached to the outer surface of the slow pressing ball (vv5), the solid force angle (vv3) is embedded in the hard shell (vv2), and the hard shell (vv2) is connected with the push angle (vv 1).

6. The stainless steel wire segment furling and drawing machine and the operation method thereof according to any one of claims 1 to 5, characterized in that:

in the invention, when the head end of the stainless steel wire is dragged to integrally bypass the adjusting pull cylinder (tt01) to enter the engagement adjusting port (tt03) so as to be wound on the winding cylinder (tt04), the winding cylinder (tt04) is controlled to rotate by the control end (tt05), and the steel wire is continuously drawn and wound on the track;

when the steel wire roll is received at the tail end, the steel wire at the outer end of the hollow opening (qw1) swings according to the hard force of the steel wire roll, the first breaking is the necking edge (qw2), the swinging angle (aa1) bears the tilting force of the steel wire, the initial angle (zx1) swings to one side, the stable block (zx2) fixes the steel wire with a certain force, the expansion corners (zx3) at two sides bear the extrusion force, the initial angle (zx1) can swing under a certain force, the buffer strip core (zx4) at the rear end is pulled along with the swinging of the initial angle (zx1), when the swinging angle (aa1) is pulled back without a return force, the swinging core (aa3) at the rear end is pushed together, the middle fixing ball (g01) gradually buffers the swinging force, the outer adhesive layer (g02) plays a role in protecting the inside of the swinging core, and the swinging angle (aa1) can be extruded and simultaneously pulled back to return the steel wire which is warped by the reaction force of the buffer strip core (zx 4).

Images