CN216189700U - Swing type self-discharging material removing rod component and net material winding equipment - Google Patents

Abstract

The utility model provides a swing type self-discharging material-removing rod component and a net material rolling device, wherein the swing type self-discharging material-removing rod component comprises two supporting plates which are arranged on a loading surface in parallel, two swing arms which are respectively arranged on the two supporting plates in a swing mode, two bending pieces which are correspondingly connected with the swing ends of the two swing arms, and a synchronous driving component which is connected with the two swing arms and used for driving the swing arms to swing. The net material winding equipment comprises a machine body with a loading surface and a swing type self-discharging material removing rod component arranged on the loading surface. The two bending parts are matched with each other to support the material rod, and after rolling is completed, the two swing arms are driven by the synchronous driving component to swing, so that the bending part of the bending part inclines downwards, and the material rod can roll off from the bending part. The swing type self-discharging material removing rod component and the net material winding device can complete automatic separation of the wound material rod, save manpower and ensure the net material winding efficiency.

Description

Swing type self-discharging material removing rod component and net material winding equipment

Technical Field

The utility model belongs to the technical field of net material rolling equipment, and particularly relates to a swinging type self-discharging material removing rod component and net material rolling equipment.

Background

The net material needs to be rolled after being prepared, so that the net material can be conveniently packaged and transported in the later period. The existing winding equipment needs to manually load and disassemble the material rods for winding the net materials, and the material rods are long and heavy after the net materials are loaded, so that the net materials need to be carried by two persons within the first time after being wound, and the personnel requirements in a workshop are increased; simultaneously, because two people's operating efficiency is low compared in single operation, the material pole dismantlement time increases, and net material rolling efficiency reduces.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a swing type self-discharging material removing rod component and a net material winding device, and aims to solve the technical problem that the net material winding efficiency is reduced due to the fact that a material rod is inconvenient to detach.

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

provided is a swing type self-discharging bar member, including:

the two supporting plates are used for being arranged on the loading surface in parallel;

the two swing arms are respectively arranged on the two support plates in a swinging mode, and the rotating axial direction of the two swing arms is parallel to the loading surface and is arranged along the horizontal direction;

the two bending pieces are detachably connected to the swinging ends of the two swinging arms in a one-to-one correspondence manner; the bending piece is provided with a bending part extending perpendicular to the extending direction of the swing arm; and

the synchronous driving component is connected with the two swing arms and is used for driving the swing arms to swing;

the swing arm has a first swing position and a second swing position, and the synchronous driving component can drive the two swing arms to synchronously swing between the first swing position and the second swing position;

when the swing arm is in the first swing position, the bending piece is suitable for supporting the material rod; when the swing arm is located at the second swing position, the bending part is inclined downwards along the direction back to the loading surface, and the material rod can slide downwards along the bending part to be separated from the bending piece.

In one possible implementation, the bending member includes:

one end of the first rod body is detachably connected to the swinging end of the swinging arm, and the axial direction of the first rod body is parallel to the extending direction of the swinging arm; and

the second rod body is fixedly connected to the other end of the first rod body, is the bent part and extends along the radial direction of the first rod body;

when the swing arm is in the first swing position, the extending end of the second rod body is positioned above the connecting position of the first rod body and the second rod body;

when the swing arm is located at the second swing position, the second rod body inclines downwards along the direction back to the loading surface, and the material rod can move downwards along the axial direction of the second rod body.

In a possible implementation manner, a positioning rod is slidably arranged on the bending piece along the parallel direction of the two support plates, and one end of the positioning rod, which is positioned outside the bending piece, is provided with a limiting ring used for being sleeved on the material rod; and a limiting structure used for limiting the positioning rod to move along the axial direction is arranged between the second rod body and the positioning rod.

In one possible implementation, the limiting structure includes:

the through holes are distributed on the rod body of the positioning rod at intervals along the axial direction of the positioning rod, and the axial directions of the through holes are pairwise parallel;

the accommodating groove is formed in the extending end face of the second rod body; and

the elastic piece is arranged in the accommodating groove in a sliding mode along the extending direction of the second rod body, and one end of the elastic piece extends out of the accommodating groove; the extending end of the elastic piece is provided with a limiting rod for being inserted into any one of the through holes;

wherein the elastic member has a normal state and an elastically contracted state; when the elastic piece is in the normal state, the limiting rod is inserted into the through hole; when the elastic piece is in the elastic tightening state, the elastic piece moves back to the second rod body until the limiting rod is separated from the through hole.

In one possible implementation, the elastic member includes:

the anti-bending rod is inserted into the accommodating groove in a sliding mode along the extending direction of the second rod body, and the inserting end of the anti-bending rod is provided with a flange plate extending outwards along the radial direction of the anti-bending rod;

the spring is sleeved on the anti-bending rod, one end of the spring is connected with the flange plate, and the other end of the spring is connected with the opening of the accommodating groove; and

the abutting plate is fixedly connected to the outer end of the anti-bending rod and is used for being in contact with the extending end face of the second rod body; the limiting rod is fixedly connected to the abutting plate.

In a possible implementation manner, the swing end surface of the swing arm is provided with an insertion rod extending along the extending direction of the swing arm, and the first rod body is provided with a slot for inserting the insertion rod;

the first rod body is also provided with a positioning hole communicated with the slot, the rod body of the inserted rod is provided with a thread groove, and the positioning hole is suitable for being communicated with the thread groove when the inserted rod is inserted into the slot;

and a connecting bolt is arranged between the first rod body and the swinging arm and is suitable for passing through the positioning hole and being in threaded connection with the thread groove so as to connect the first rod body and the swinging arm.

In a possible implementation manner, a reserved hole is formed in the supporting plate, the swing arm is arranged in the reserved hole in a swinging mode, and two ends of the swing arm are located above and below the supporting plate respectively.

In one possible implementation, the synchronous drive means comprises:

the linear motor is fixedly arranged on the loading surface, and the power output shaft is arranged perpendicular to the loading surface; and

the driving plate is fixedly connected to the power output end of the linear motor, and the plate surface of the driving plate is connected with the upper ends of the two swing arms;

the swing arm is provided with a strip-shaped hole, and the axial direction of the strip-shaped hole is parallel to the plate surface of the driving plate; the driving plate is fixedly connected with a door-shaped frame which is suitable for being inserted into the strip-shaped hole;

when the linear motor is started, the driving plate can drive the swing arm to move back and forth between the first swing position and the second swing position.

In a possible implementation manner, the inner side wall of the preformed hole is provided with a clamping groove extending along the extending direction of the support plate; the driving plate is fixedly connected with two supporting arms which are in one-to-one correspondence with the two supporting plates, the supporting arms are inserted into the reserved holes from top to bottom, and the inserting parts of the supporting arms are provided with anti-falling blocks which are inserted into the clamping grooves.

In the embodiment of the application, two support plates and a synchronous driving component are loaded on the loading surface, and the assembly of the component is completed. Afterwards, drive the swing arm through the synchronous drive component and swing to first swing position to make the material pole can stably place on the piece of buckling and be applicable to net material rolling operation.

After the net material rolling operation is completed, the swing arm is driven to swing to the second swing position through the synchronous driving component again, the bending part of the bending piece inclines downwards, the material rod rolls downwards along the bending part, and the automatic removal of the material rod from the rolling machine is completed.

Compared with the prior art, the swing type self-discharging material removing rod component provided by the embodiment can avoid manpower participation, effectively solves the technical problem of low efficiency in the manual operation process, and improves the net material rolling efficiency.

The utility model also provides a net material winding device, which comprises:

a body having a loading surface; and

the swing type self-discharging material rod component is used for supporting a material rod and is arranged on the loading surface.

The net material rolling device provided by the utility model has the same beneficial effects as the swing type self-discharging material-removing rod element mentioned in the foregoing, and the details are not repeated herein.

Drawings

Fig. 1 is a schematic perspective view illustrating a swing type self-discharging bar member according to an embodiment of the present invention;

fig. 2 is a second schematic perspective view of the swing type self-discharging bar member according to the embodiment of the present invention;

FIG. 3 is a top view of FIG. 1;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is an enlarged partial view of the circle B of FIG. 4;

FIG. 6 is an exploded view of a swing arm and a flexure used in an embodiment of the present invention;

FIG. 7 is a schematic diagram of an exploded view of a support plate and support arm used in an embodiment of the present invention;

FIG. 8 is a schematic cross-sectional view of a positioning rod and a limiting structure according to an embodiment of the present invention;

description of reference numerals:

1. a support plate; 11. reserving a hole; 12. a card slot; 2. a swing arm; 21. inserting a rod; 211. a thread groove; 22. a connecting bolt; 23. a strip-shaped hole; 3. a bending member; 31. a first rod body; 311. a slot; 312. positioning holes; 32. a second rod body; 4. a synchronous drive member; 41. a linear motor; 42. a drive plate; 421. a support arm; 422. an anti-drop block; 423. a gantry frame; 5. positioning a rod; 51. a limiting ring; 6. a limiting structure; 61. a through hole; 62. accommodating grooves; 63. an elastic member; 631. a buckling preventive bar; 6311. a flange plate; 632. a spring; 633. a butt joint plate; 6331. a limiting rod; 100. a material rod; 200. a loading surface.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

Referring to fig. 1 to 8, the swing type self-discharging bar member of the present invention will now be described. The swing type self-discharging material rod element is used for loading to the side face of the winding machine, wherein the side face is the side where the inlet of the winding machine is located, and in the embodiment, the side face is defined as a loading face 200 of the winding machine.

The swing type self-discharging material rod component comprises two supporting plates 1, two swing arms 2, two bending pieces 3 and a synchronous driving component 4.

The two support plates 1 are configured to be mounted on the loading surface 200 in parallel, and define an extending direction of the support plates 1 (i.e., a direction away from the loading surface 200) as a direction from the rear to the front.

The two swing arms 2 are respectively swingably provided on the two support plates 1 with their rotational axial directions parallel to the loading surface 200 and arranged in the horizontal direction, that is, in the left-right direction.

Two bending pieces 3 are detachably connected to the swing ends of the two swing arms 2 in a one-to-one correspondence, and each bending piece 3 has a bending portion extending perpendicular to the extending direction of the swing arm 2, and the bending portion can define a material rod 100 supported on the bending piece 3.

A synchronous drive member 4 is connected to both oscillating arms 2 for driving the oscillating arms 2 to oscillate synchronously.

Wherein, the swing arm 2 has a first swing position and a second swing position, and the synchronous driving component 4 can drive the two swing arms 2 to swing synchronously from the first swing position to the second swing position.

When the swing arm 2 is in the first swing position, the bending member 3 is adapted to support the material rod 100, and the bending portion of the bending member 3 limits the material rod 100 to prevent the material rod 100 from moving downward to separate from the bending member 3.

When the swing arm 2 is in the second swing position, the bent portion is inclined downward in a direction away from the loading surface 200, and the material rod 100 can slide downward along the bent portion to disengage from the bent piece 3.

In the embodiment of the present application, two support plates 1 and a synchronous drive member 4 are loaded on the loading surface 200, and the assembly of the present elements is completed. Afterwards, the swing arm 2 is driven to swing to the first swing position by the synchronous driving component 4, so that the material rod 100 can be stably placed on the bending piece 3 and is suitable for the net material rolling operation.

After the net material rolling operation is completed, the swing arm 2 is driven to swing to the second swing position through the synchronous driving component 4 again, the bending part of the bending piece 3 inclines downwards, the material rod 100 rolls downwards along the bending part, and the automatic removal of the material rod 100 from the rolling machine is completed.

Compared with the prior art, the swing type self-discharging material removing rod component provided by the embodiment can avoid manpower participation, effectively solves the technical problem of low efficiency in the manual operation process, and improves the net material rolling efficiency.

In some embodiments, the above-described characteristic bend 3 may take the configuration shown in fig. 1 and 6. Referring to fig. 1 and 6, the bending member 3 includes a first rod 31 and a second rod 32.

One end of the first rod 31 is detachably connected to the swing end of the swing arm 2, and the axial direction of the first rod 31 is parallel to the extending direction of the swing arm 2.

The second rod 32 is fixedly connected to the other end of the first rod 31, and is a bent portion of the bending member 3 mentioned in the foregoing, and extends outward in the radial direction of the first rod 31.

When the swing arm 2 is in the first swing position, the extending end of the second rod 32 is located above the connecting position of the first rod 31 and the second rod 32, so that the second rod 32 and the first rod 31 cooperate to support the material rod 100, and the second rod 32 limits the material rod 100 from moving downward.

When the swing arm 2 is in the second swing position, the second rod 32 is inclined downward in a direction away from the loading surface 200, and the material rod 100 can move downward in the axial direction of the second rod 32.

Through adopting above-mentioned technical scheme, the integrated configuration of the first body of rod 31 and the second body of rod 32 can effectively support material pole 100, and the second body of rod 32 changes under the different actions that spacing material pole 100 removed and downwardly directed material pole 100 removed simultaneously, has ensured the stable in structure of this device when in-service use, has improved the reliability of this device when in-service use.

In some embodiments, the above-described feature bender 3 may be configured as shown in fig. 1, 2, and 8. Referring to fig. 1, 2 and 8, the positioning rod 5 is slidably disposed on the bending member 3 along the parallel direction of the two support plates 1, that is, the positioning rod 5 is slidably disposed on the bending member 3 along the left-right direction.

One end of the positioning rod 5, which is positioned outside the bending piece 3, is provided with a limiting ring 51 which is sleeved on the material rod 100, and a limiting structure 6 which is used for limiting the axial movement of the positioning rod 5 is arranged between the second rod body 32 and the positioning rod 5.

During the in-service use, place material pole 100 on piece 3 buckles, remove the locating lever 5 through the side-to-side movement and put spacing ring 51 cover in material pole 100 periphery, restrict the locating lever 5 through limit structure 6 simultaneously and remove to can stably restrict material pole 100 along self radial removal, prevent that material pole 100 from breaking away from piece 3 of buckling.

Through adopting above-mentioned technical scheme, restriction material pole 100 has improved the stability of this device when in-service use for the removal of bending 3, avoids material pole 100 to break away from bending 3 at the in-process of rolling operation, has ensured the reliability of net material rolling operation.

In some embodiments, the above-described feature limiting structure 6 may be configured as shown in fig. 8. Referring to fig. 8, the stopper structure 6 includes a plurality of through-holes 61, receiving grooves 62, and elastic members 63.

The plurality of through holes 61 are distributed on the rod body of the positioning rod 5 at intervals along the axial direction of the positioning rod 5, and the plurality of through holes 61 are axially parallel to each other.

The receiving groove 62 is provided on the extended end surface of the second rod 32.

The elastic member 63 is slidably disposed in the receiving groove 62 along the extending direction of the second rod 32, and one end of the elastic member extends out of the receiving groove 62.

The protruding end of the elastic member 63 has a stopper 6331 for insertion into any one of the through-holes 61.

Wherein the elastic member 63 has a normal state and an elastically contracted state.

When the elastic member 63 is in a normal state, the limiting rod 6331 is inserted into the through hole 61.

When the elastic member 63 is in the elastically contracted state, the elastic member 63 moves away from the second rod 32 until the limiting rod 6331 is separated from the through hole 61.

By adopting the technical scheme, the limiting rod 6331 is inserted into the through hole 61 to limit the axial movement of the positioning rod 5; meanwhile, the elastic piece 63 can ensure that the limiting rod 6331 is in a state of being inserted into the through hole 61, and the reliability of the device in practical use is improved.

It should be added that, as shown in fig. 8, two limiting rods 6331 are provided, and the two limiting rods 6331 are respectively connected to the two through holes 61, so that the structural strength of the device is improved.

In some embodiments, the above-described characteristic elastic member 63 may adopt a structure as shown in fig. 5 and 8. Referring to fig. 5 and 8, the elastic member 63 includes a flexure preventing lever 631, a spring 632, and an abutment plate 633.

The anti-bending rod 631 is slidably inserted into the receiving groove 62 along the extending direction of the second rod 32, and the insertion end of the anti-bending rod 631 has a flange 6311 extending radially outward.

The spring 632 is sleeved on the anti-bending rod 631, one end of the spring is connected with the flange 6311, and the other end of the spring is connected with the opening of the receiving groove 62.

The abutting plate 633 is fixedly connected to the outer end of the anti-bending rod 631 and is used for contacting with the extending end surface of the second rod body 32; the limiting rod 6331 is fixedly connected to the abutting plate 633.

When the spring 632 is in the initial state, the abutting plate 633 is in the state of abutting against the extending end face of the second rod 32, and when the spring is actually used, the abutting plate 633 is moved back to the second rod 32, so that the spring 632 is compressed against the elastic force of the spring 632, and the limit rod 6331 can be pulled out of the through hole 61.

Through adopting above-mentioned technical scheme, anti-buckling rod 631 can inject spring 632 and take place radial buckling phenomenon, can guarantee gag lever post 6331's slip direction simultaneously, ensures that gag lever post 6331 can insert in through-hole 61, has improved the stability of this device when in-service use.

It should be added that, as shown in fig. 5, the side of the abutting plate 633 opposite to the second rod 32 is provided with a handle, and the handle can be held by hand to pull the abutting plate 633 to move in use.

In some embodiments, the above-described feature of the swing arm 2 may be configured as shown in fig. 6. Referring to fig. 6, the swing arm 2 has an insertion rod 21 extending along its extending direction on a swing end surface, and the first rod 31 has a slot 311 for inserting the insertion rod 21.

The first rod 31 is further provided with a positioning hole 312 communicated with the slot 311, and the shaft of the insert rod 21 is provided with a thread groove 211.

During assembly, the insertion rod 21 is inserted into the insertion slot 311, and the swing end surface of the swing arm 2 abuts against the first rod 31, at this time, the positioning hole 312 communicates with the thread groove 211.

A connecting bolt 22 is provided between the first rod 31 and the swing arm 2, and the connecting bolt 22 is adapted to pass through the positioning hole 312 and be threadedly coupled with the threaded groove 211 to connect the first rod 31 and the swing arm 2.

Through adopting above-mentioned technical scheme, through loading first body of rod 31 to swing arm 2 on (being about to in inserted bar 21 inserts slot 311), connecting bolt 22 pass locating hole 312 and with thread groove 211 threaded connection, accomplish first body of rod 31 and swing arm 2's connection, this connection step is simple, the actual operation of being convenient for, is convenient for go on at net material rolling operation in-process, has improved reliability, high efficiency and the practicality of this device in the in-service use process.

In some embodiments, the above features may be employed between the support plate 1 and the swing arm 2 as shown in fig. 1 and 2. Referring to fig. 1 and 2, a preformed hole 11 penetrating in the vertical direction is formed in the supporting plate 1, the swing arm 2 is arranged in the preformed hole 11 in a swinging manner, and two ends of the swing arm 2 are respectively located above and below the supporting plate 1.

Through adopting above-mentioned technical scheme, swing arm 2 links to each other with the both sides pore wall of preformed hole 11, has strengthened swing arm 2 and backup pad 1's joint strength, has improved the mechanism stability of this device to and the reliability when the in-service use.

It should be noted that, as shown in fig. 1, the support plate 1 in the present embodiment is formed by a plurality of rectangular tube bodies, and the tube bodies on both sides are longer and the two tube bodies in the middle are shorter, thereby forming the prepared hole 11.

In some embodiments, the above-described features of the synchronous drive member 4 may be configured as shown in fig. 1 and 2. Referring to fig. 1 and 2, the synchronous drive member 4 includes a linear motor 41 and a drive plate 42.

The linear motor 41 is fixedly mounted on the loading surface 200, and the power output shaft is disposed perpendicular to the loading surface 200.

The driving plate 42 is fixedly connected to the power output end of the linear motor 41, and the plate surface thereof is connected to the upper ends of the two swing arms 2.

The swing arm 2 has a strip-shaped hole 23, and the axial direction of the strip-shaped hole 23 is parallel to the plate surface of the driving plate 42.

The driving plate 42 is fixedly connected with a door-shaped frame 423 suitable for being inserted into the strip-shaped hole 23, the door-shaped frame 423 adopts a structure with a square cross section, and one side of the door-shaped frame 423 is inserted into the strip-shaped hole 23 so as to connect the driving plate 42 with the swing arm 2.

When the linear motor 41 is started, the driving plate 42 is connected to the oscillating arm 2, so that the driving plate 42 can drive the oscillating arm 2 to move back and forth between the first oscillating position and the second oscillating position.

Through adopting above-mentioned technical scheme, linear electric motor 41 can drive two swing arms 2 synchronous oscillations through drive plate 42 to the integrated configuration of bar hole 23 and door type frame 423 can inject drive plate 42 and swing arm 2 separation, has improved the stability of this device when in actual use.

In some embodiments, the feature may be configured as shown in FIG. 7 between the preformed hole 11 and the drive plate 42. Referring to fig. 7, the inner side wall of the prepared hole 11 has a catching groove 12 extending in the extending direction (i.e., front-rear direction) of the support plate 1.

Two supporting arms 421 corresponding to the two supporting plates 1 one by one are fixedly connected to the driving plate 42, the supporting arms 421 are inserted into the preformed holes 11 from top to bottom, and the insertion portions of the supporting arms 421 are provided with anti-falling blocks 422 inserted into the slots 12.

Through adopting above-mentioned technical scheme, the integrated configuration of anticreep piece 422 and draw-in groove 12 can restrict the separation of support arm 421 and backup pad 1, has improved the structural stability of this device to and the reliability when in actual use.

Based on the same inventive concept, an embodiment of the present application further provides a net material rolling device, please refer to fig. 1 to 8 together, and the description will now be made on the new net material rolling device. The net material winding equipment comprises a machine body and the swing type self-discharging material removing rod component.

The machine body is a machine body of a net material winding machine commonly known in the prior art, and the machine body is provided with a loading surface 200 mentioned in the above.

The swing type self-discharging bar member is loaded on the loading face 200 and has a function of supporting the bar 100. After the material rod 100 is completely rolled, the material rod 100 can automatically slide off the element without human intervention.

The net material rolling device provided by the utility model has the same beneficial effects as the swing type self-discharging material-removing rod element mentioned in the foregoing, and the details are not repeated herein.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. Swing type self-discharging removes the vaulting pole spare for load to the side of rolling machine, be located the loading face that rolling machine entry was located, its characterized in that, swing type self-discharging removes the vaulting pole spare and includes:

the two supporting plates are used for being arranged on the loading surface in parallel;

the two swing arms are respectively arranged on the two support plates in a swinging mode, and the rotating axial direction of the two swing arms is parallel to the loading surface and is arranged along the horizontal direction;

the two bending pieces are detachably connected to the swinging ends of the two swinging arms in a one-to-one correspondence manner; the bending piece is provided with a bending part extending perpendicular to the extending direction of the swing arm; and

the synchronous driving component is connected with the two swing arms and is used for driving the swing arms to swing;

the swing arm has a first swing position and a second swing position, and the synchronous driving component can drive the two swing arms to synchronously swing between the first swing position and the second swing position;

when the swing arm is in the first swing position, the bending piece is suitable for supporting the material rod; when the swing arm is located at the second swing position, the bending part is inclined downwards along the direction back to the loading surface, and the material rod can slide downwards along the bending part to be separated from the bending piece.

2. The oscillating self-discharging lever member of claim 1, wherein the bending member comprises:

one end of the first rod body is detachably connected to the swinging end of the swinging arm, and the axial direction of the first rod body is parallel to the extending direction of the swinging arm; and

the second rod body is fixedly connected to the other end of the first rod body, is the bent part and extends along the radial direction of the first rod body;

when the swing arm is in the first swing position, the extending end of the second rod body is positioned above the connecting position of the first rod body and the second rod body;

when the swing arm is located at the second swing position, the second rod body inclines downwards along the direction back to the loading surface, and the material rod can move downwards along the axial direction of the second rod body.

3. The oscillating self-discharging material rod component of claim 2, wherein a positioning rod is slidably arranged on the bending component along the parallel direction of the two support plates, and one end of the positioning rod, which is positioned outside the bending component, is provided with a limiting ring for being sleeved on the material rod; and a limiting structure used for limiting the positioning rod to move along the axial direction is arranged between the second rod body and the positioning rod.

4. The oscillating self-discharging lever member of claim 3, wherein the limiting structure comprises:

the through holes are distributed on the rod body of the positioning rod at intervals along the axial direction of the positioning rod, and the axial directions of the through holes are pairwise parallel;

the accommodating groove is formed in the extending end face of the second rod body; and

the elastic piece is arranged in the accommodating groove in a sliding mode along the extending direction of the second rod body, and one end of the elastic piece extends out of the accommodating groove; the extending end of the elastic piece is provided with a limiting rod for being inserted into any one of the through holes;

wherein the elastic member has a normal state and an elastically contracted state; when the elastic piece is in the normal state, the limiting rod is inserted into the through hole; when the elastic piece is in the elastic tightening state, the elastic piece moves back to the second rod body until the limiting rod is separated from the through hole.

5. The oscillating self-discharging lever member of claim 4, wherein the resilient member comprises:

the anti-bending rod is inserted into the accommodating groove in a sliding mode along the extending direction of the second rod body, and the inserting end of the anti-bending rod is provided with a flange plate extending outwards along the radial direction of the anti-bending rod;

the spring is sleeved on the anti-bending rod, one end of the spring is connected with the flange plate, and the other end of the spring is connected with the opening of the accommodating groove; and

the abutting plate is fixedly connected to the outer end of the anti-bending rod and is used for being in contact with the extending end face of the second rod body; the limiting rod is fixedly connected to the abutting plate.

6. The oscillating self-discharging lever member as recited in claim 2, wherein the oscillating end surface of the oscillating arm has a rod extending along the extending direction thereof, and the first lever has a slot for inserting the rod;

the first rod body is also provided with a positioning hole communicated with the slot, the rod body of the inserted rod is provided with a thread groove, and the positioning hole is suitable for being communicated with the thread groove when the inserted rod is inserted into the slot;

and a connecting bolt is arranged between the first rod body and the swinging arm and is suitable for passing through the positioning hole and being in threaded connection with the thread groove so as to connect the first rod body and the swinging arm.

7. The oscillating self-discharging bar member as claimed in claim 1, wherein the supporting plate is provided with a prepared hole, the oscillating arm is arranged in the prepared hole in an oscillating manner, and two ends of the oscillating arm are respectively located above and below the supporting plate.

8. The oscillating self-discharging lever member of claim 7, wherein the synchronized driving member comprises:

the linear motor is fixedly arranged on the loading surface, and the power output shaft is arranged perpendicular to the loading surface; and

the driving plate is fixedly connected to the power output end of the linear motor, and the plate surface of the driving plate is connected with the upper ends of the two swing arms;

the swing arm is provided with a strip-shaped hole, and the axial direction of the strip-shaped hole is parallel to the plate surface of the driving plate; the driving plate is fixedly connected with a door-shaped frame which is suitable for being inserted into the strip-shaped hole;

when the linear motor is started, the driving plate can drive the swing arm to move back and forth between the first swing position and the second swing position.

9. The oscillating self-discharging bar member of claim 8, wherein the inner side wall of the prepared hole has a catching groove extending in the extending direction of the support plate; the driving plate is fixedly connected with two supporting arms which are in one-to-one correspondence with the two supporting plates, the supporting arms are inserted into the reserved holes from top to bottom, and the inserting parts of the supporting arms are provided with anti-falling blocks which are inserted into the clamping grooves.

10. Net material rolling equipment, its characterized in that includes:

a body having a loading surface; and

the oscillating self-discharging boom member of any of claims 1-9, for supporting a boom, disposed on said loading surface.

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