CN114535456A

CN114535456A - Manufacturing device for power grid stay wire

Info

Publication number: CN114535456A
Application number: CN202210049328.7A
Authority: CN
Inventors: 刘秀生; 陈玉刚; 吴志; 李培军; 王少华; 武振荣; 王姣; 王丽娟; 赵世辉
Original assignee: State Grid Corp of China SGCC; Handan Power Supply Co of State Grid Hebei Electric Power Co Ltd; Cixian Power Supply Co of State Grid Hebei Electric Power Co Ltd
Current assignee: State Grid Corp of China SGCC; Handan Power Supply Co of State Grid Hebei Electric Power Co Ltd; Cixian Power Supply Co of State Grid Hebei Electric Power Co Ltd
Priority date: 2022-01-17
Filing date: 2022-01-17
Publication date: 2022-05-27
Anticipated expiration: 2042-01-17
Also published as: CN114535456B

Abstract

The utility model relates to an electric power maintenance technical field, concretely relates to making devices for electric wire netting is acted as go-between has solved prior art and when making the acting as go-between, not only wastes time and energy, and the quality of acting as go-between of preparation can not satisfy the technical problem who requires. The power grid stay wire is placed at the clamping structure and the bending structure, the clamping structure and the bending structure are used for manufacturing the power grid stay wire, pressure is applied to the clamping structure and the bending structure, and the bending structure can bend the power grid stay wire so as to bend the power grid stay wire; clamping structure is used for providing clamping-force to the electric wire netting is acted as go-between to the realization can be fast will place the electric wire netting of bending structure department and act as go-between and bend. Therefore, the clamping structure and the bending structure are used together, so that the power grid stay wire can be quickly bent and the like, the labor cost is saved, and the quality of the manufactured power grid stay wire can meet the requirement; the length of the power grid stay wire can be selected according to actual needs in the manufacturing process.

Description

Manufacturing device for power grid stay wire

Technical Field

The application relates to the technical field of power maintenance, in particular to a manufacturing device for a power grid stay wire.

Background

The electric network guy wire is used for balancing acting force of the electric pole in all directions and resisting wind pressure, so that the electric pole is prevented from toppling; is the most important link of line protection and one of the safety guarantees of pole climbing personnel. The angle of the electric network stay wire on the ground is generally 45 degrees in the using process, and when the stay wire is limited by conditions and environment, the angle can be selected from 30 degrees to 60 degrees. The distance between the stay wire and the charged part is more than 200 mm. When the stay wire passes through a live line, circular ceramic tubes are additionally arranged on the upper side and the lower side of the line, a stay wire base plate is perpendicular to the stay wire, and the embedding depth of the stay wire base plate is 1.3-2.1. Because the power line and the equipment are often attacked by wind and rain in severe weather, the stay wire can resist wind pressure, the occurrence of a pole-falling accident can be avoided by using the stay wire, and the damage to the line and the equipment is reduced; the importance of the pull cord in the power line is therefore important. Wherein, the quality and the service life of the stay wire can be influenced by the manufacture of the stay wire.

In the prior art, when the stay wire is manufactured, because the stay wire has rigidity, when the stay wire needs to be bent, a worker usually bends the stay wire by using hands and a hammer, and meanwhile, the length of the manufactured stay wire is not easy to master. Therefore, the stay wire manufactured by adopting the method is time-consuming and labor-consuming, and the quality of the manufactured stay wire cannot meet the requirement.

Disclosure of Invention

In view of this, the application provides a making devices for electric wire netting acting as go-between, has solved prior art when making the acting as go-between, not only wastes time and energy, and the technical problem that the quality of acting as go-between of preparation can not satisfy the requirement.

According to one aspect of the application, a manufacturing device for a power grid stay wire comprises:

a housing; and

the working head is arranged at the end part of the shell; wherein,

the working head includes:

the working head body is connected with the shell;

the bending structure is arranged on the working head body and used for bending a power grid stay wire; and

the clamping structure is arranged on the working head body, is located right opposite to the bending structure and is used for clamping the power grid stay wire.

In one possible implementation, the bending structure includes:

the bending body is connected with the working head body; and

the bending connecting groove is connected with the bending body and used for containing the power grid stay wire.

In one possible implementation, the curved connecting groove comprises an arc-shaped curved connecting groove.

In one possible implementation, the clamping structure includes:

a first clamping member;

the second clamping piece is matched with the first clamping piece;

the connecting piece is connected with the working head body;

the first end of the connecting piece is connected with the first clamping piece, and the second end of the connecting piece is connected with the second clamping piece;

the first clamping piece and the second clamping piece are symmetrically arranged by taking a first straight line as a central line; the first straight line is superposed with the central line of the bending structure;

the first end and the second end are opposite ends.

In one possible implementation, the first clamp includes:

the first clamping body is hinged with the first end of the connecting piece; and

the first connecting groove is formed in the first clamping body and used for containing the power grid pull wire.

In one possible implementation, the second clamp includes:

the second clamping body is hinged with the second end of the connecting piece; and

the second connecting groove is arranged on the second clamping body and used for containing the power grid stay wire;

the second connecting groove is opposite to the first connecting groove;

the bent connecting groove, the first connecting groove and the second connecting groove form an accommodating groove.

In one possible implementation, the connector includes:

the connecting piece body is connected with the working head body; and

the third mounting hole is formed in the first end of the connecting piece body and penetrates through the connecting piece body;

and the fourth mounting hole is formed in the second end of the connecting piece body and penetrates through the connecting piece body.

In one possible implementation manner, the method further includes: a first connecting shaft;

the first clamp further includes:

the first mounting hole is formed in the first clamping body close to the first end of the connecting piece body and penetrates through the first clamping body;

the first connecting shaft penetrates through the first mounting hole and the third mounting hole to connect the first clamping piece with the first end of the connecting piece body.

In one possible implementation manner, the method further includes: a second connecting shaft;

the second clamp further comprises:

the second mounting hole is formed in the second clamping body close to the second end of the connecting piece and penetrates through the second clamping body;

the second connecting shaft penetrates through the second mounting hole and the fourth mounting hole to connect the second clamping piece body with the second end of the connecting piece body.

In one possible implementation manner, the method further includes:

the first connecting piece is arranged in the working head body, and one end of the first connecting piece is connected with the first connecting shaft;

the second connecting piece is arranged inside the working head body, and one end of the second connecting piece is connected with the second connecting shaft;

the first sliding block is connected with the other end of the first connecting sheet;

the second sliding block is connected with the other end of the second connecting sheet;

the bidirectional adjusting screw is respectively connected with the first sliding block and the second sliding block;

the driving device is arranged in the shell, and the output end of the driving device is connected with the bidirectional adjusting screw rod;

the power supply device is arranged inside the shell and is connected with the driving device; and

the control switch is arranged outside the shell and is electrically connected with the power supply device.

The application provides a making devices for electric wire netting is acted as go-between, includes: a housing; the working head is arranged at the end part of the shell; wherein, the working head includes: the working head body is connected with the shell; the bending structure is arranged on the working head body and used for bending a power grid stay wire; and the clamping structure is arranged on the shell, is positioned right opposite to the bending structure and is used for clamping a power grid stay wire. The method comprises the following steps that a power grid stay wire is placed at a clamping structure and a bending structure, the power grid stay wire is manufactured by using the clamping structure and the bending structure, pressure is applied to the clamping structure and the bending structure, and the bending structure can bend the power grid stay wire so as to bend the power grid stay wire; clamping structure is used for providing clamping-force to the electric wire netting acts as go-between to the realization can be fast will place the electric wire netting that is in bending structure department and act as go-between and bend. Therefore, the clamping structure and the bending structure are used together, so that the power grid stay wire can be quickly bent, the labor cost is saved, and the quality of the manufactured power grid stay wire can meet the requirement. Meanwhile, the length of the power grid stay wire can be selected according to actual needs in the manufacturing process.

Drawings

Fig. 1 is a schematic structural diagram of a manufacturing apparatus for a power grid line according to an embodiment of the present disclosure;

fig. 2 is a schematic side view of a manufacturing apparatus for a power grid line according to another embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a working head in a manufacturing apparatus for a power grid line according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram illustrating a side view of a working head in a manufacturing apparatus for a power grid line according to an embodiment of the present disclosure;

fig. 5 is a schematic structural diagram illustrating another side view of a working head in the manufacturing apparatus for a power grid cord according to an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of a manufacturing apparatus for a power grid line according to another embodiment of the present application.

Description of the drawings:

1. a housing; 11. a drive device; 12. a power supply device; 13. a control switch; 2. a working head; 21. a working head body; 22. a first connecting piece; 23. a second connecting sheet; 24. a first slider; 25. a second slider; 26. a bidirectional adjusting screw; 3. a bending structure; 301. bending the body; 302. bending a connecting groove; 4. a clamping structure; 41. a first clamping member; 410. a first clamping body; 411. a first connecting groove; 412. a first mounting hole; 42. a second clamping member; 420. a second clamping body; 421. a second connecting groove; 422. a second mounting hole; 43. a connecting member; 430. a connector body; 431. a third mounting hole; 432. a fourth mounting hole; 44. a first connecting shaft; 45. and a second connecting shaft.

Detailed Description

In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specifically limited otherwise. All directional indicators in the embodiments of the present application (such as up, down, left, right, front, back, top, bottom … …) are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Furthermore, reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The electric network guy wire is used for balancing acting force of the electric pole in all directions and resisting wind pressure, so that the electric pole is prevented from toppling; is the most important link of line protection and one of the safety guarantees of pole climbing personnel. The angle of the electric network stay wire on the ground is generally 45 degrees in the using process, and when the stay wire is limited by conditions and environments, the angle can be selected from 30 degrees to 60 degrees. The distance between the stay wire and the charged part is more than 200 mm. When the stay wire passes through a live line, circular ceramic tubes are additionally arranged on the upper side and the lower side of the line, a stay wire base plate is perpendicular to the stay wire, and the embedding depth of the stay wire base plate is 1.3-2.1. The electric network stay wire is divided into 7 types, specifically (1) common stay wire: the tension rod is used for the terminal rod, the corner rod and the tension rod and plays a role of balancing the stay wire; (2) two side stay wires: the pole is arranged on the straight pole and used for enhancing the wind resistance of the pole; (3) four-way stay wire: the periphery of the wire rod is provided with a stay wire for enhancing the stability of the effect; (4) passageway acting as a wire: a line pole is erected beside a road, and a passageway pull line is arranged on the line pole. The passageway guy wires must be kept at a certain height so as not to influence traffic; (5) v-shaped stay wire: when the electric pole is high, the cross arm is more, and the erection wire is more, a pull wire is respectively arranged at the upper and lower two positions of the resultant force point of the pull wires, and the lower parts of the pull wires are combined into a single wire to form a V-shaped pull wire; (6) pulling wires together: the stay wire is fixed on the adjacent electric pole to balance the tension; (7) an arch-shaped stay wire: a support is arranged in the middle of the electric pole, and a pull wire is additionally arranged above and below the support to prevent the electric pole from bending.

At present, when the stay wire is manufactured, because the stay wire has rigidity, when the stay wire needs to be bent, a worker usually bends the stay wire by using a hammer, and meanwhile, the length of the manufactured stay wire is not easy to grasp. Therefore, the stay wire manufactured by adopting the method is time-consuming and labor-consuming, and the quality of the manufactured stay wire cannot meet the requirement. In order to solve the above-mentioned problem of acting as go-between in the manufacture process, this application has designed the making devices who is used for the electric wire netting to can realize making processing to the acting as go-between, in order to satisfy the requirement that the later stage was used.

Fig. 1 is a schematic structural diagram of a manufacturing apparatus for a power grid guy wire according to an embodiment of the present application, and fig. 2 is a schematic structural diagram of a side view of the manufacturing apparatus for a power grid guy wire according to an embodiment of the present application, and as shown in fig. 1 and fig. 2, the manufacturing apparatus for a power grid guy wire includes: a housing 1; and a working head 2 arranged at the end of the shell 1; wherein, the working head 2 includes: the working head body 21 is connected with the shell 1; the bending structure 3 is arranged on the working head body 21, and the bending structure 3 is used for bending a power grid stay wire; and the clamping structure 4 is arranged on the shell 1, the clamping structure 4 is positioned right opposite to the bending structure 3, and the clamping structure 4 is used for clamping a power grid stay wire. Placing the power grid stay wire at the clamping structure 4 and the bending structure 3, manufacturing the power grid stay wire by using the clamping structure 4 and the bending structure 3, and applying pressure to the clamping structure 4 and the bending structure 3, wherein the bending structure 3 can bend the power grid stay wire so as to realize bending of the power grid stay wire; the clamping structure 4 is used for providing clamping force for the power grid stay wire so as to realize that the power grid stay wire placed at the bending structure 3 can be quickly bent. Therefore, the clamping structure 4 and the bending structure 3 are used together, so that the power grid stay wire can be quickly bent, the labor cost is saved, and the quality of the manufactured power grid stay wire can meet the requirement. Meanwhile, the length of the power grid stay wire can be selected according to actual needs in the manufacturing process.

In a possible implementation manner, fig. 3 is a schematic structural diagram of a working head in a manufacturing apparatus for a power grid pull line provided in an embodiment of the present application, fig. 4 is a schematic structural diagram of a side view of the working head in the manufacturing apparatus for the power grid pull line provided in the embodiment of the present application, and fig. 5 is a schematic structural diagram of another side view of the working head in the manufacturing apparatus for the power grid pull line provided in the embodiment of the present application; as shown in fig. 3 to 5, the bending structure 3 includes: the bending body 301, and the bending body 301 is connected with the working head body 21; and a bending connecting groove 302, wherein the bending connecting groove 302 is connected with the bending body 301, and the bending connecting groove 302 is used for containing a power grid stay wire. The power grid stay wire to be manufactured is placed in the bending connecting groove 302 of the bending structure 3, the clamping structure 4 moves towards the bending structure 3, so that the power grid stay wire in the bending connecting groove 302 is bent after the power of the clamping structure 4 is applied, and the power grid stay wire at the bending structure 3 is bent, so that the power grid stay wire is bent. Meanwhile, the bending connecting groove 302 can prevent the power grid stay wire from moving out of the bending structure 3 under the action of external force, and the effectiveness of bending the power grid stay wire is ensured.

It should be noted that the structure of the bending body 301 may be a circular or square regular pattern, so as to meet the bending requirement of the power grid guy wire after the actual bending radian of the power grid guy wire is achieved. The material of the bending body 301 may be selected according to the actual application, and is not further limited herein.

Alternatively, the bending body 301 is integrally connected to the head body 21. When the power grid stay wire arranged in the bending connecting groove 302 is subjected to the clamping force of the clamping structure 4, the bending body 301 is subjected to the bending force of the power grid stay wire; therefore, in order to effectively bend the power grid stay wire, the bending body 301 is integrally connected with the working head body 21, so that effective force can be provided for bending the power grid stay wire; meanwhile, the bending body 301 and the working head body 21 are integrally connected, so that the bending body 301 is prevented from being separated from the working head body 21 when the bending body 301 is subjected to overlarge bending force of a power grid stay wire, and the service life of the bending structure 3 and the working head body 21 is prolonged; and the effectiveness of bending the power grid stay wire is ensured.

In one possible implementation, as shown in fig. 3-5, the curved connecting slots 302 include arcuate curved connecting slots 302. By using the arc-shaped bending connecting groove 302, the power grid stay wire can be quickly bent; and the bending radian of the power grid stay wire can be selected according to the radian of the arc-shaped bending connecting groove 302, so that the power grid stay wire can be bent at different radians.

In one possible implementation, as shown in fig. 4 and 5, the clamping structure 4 comprises: a first clamp 41; a second clamping piece 42, wherein the second clamping piece 42 is matched with the first clamping piece 41; the connecting piece 43, the connecting piece 43 is connected with the working head body 21; a first end of the connecting piece 43 is connected with the first clamping piece 41, and a second end of the connecting piece 43 is connected with the second clamping piece 42; the first clamping piece 41 and the second clamping piece 42 are symmetrically arranged by taking a first straight line as a central line; the first straight line is superposed with the central line of the bending structure 3; the first end and the second end are opposite ends. When the power grid stay wire needs to be bent, the first clamping piece 41 and the second clamping piece 42 are symmetrically arranged at the opposite ends of the connection by taking the first straight line as a central line, the first clamping piece 41 and the second clamping piece 42 move towards the first straight line by applying force to the clamping structure 4, and the first straight line is superposed with the central line of the bending structure 3, namely the first clamping piece 41 and the second clamping piece 42 move towards the bending structure 3, so that the power grid stay wire is clamped; simultaneously, under the effect of bending structure 3 to the realization can be acted as go-between to the electric wire netting and bend. The first clamping piece 41 and the second clamping piece 42 are symmetrically arranged at the opposite ends of the connection by taking the first straight line as a center line; therefore, the bent power grid stay wires are symmetrically arranged, so that the power grid stay wires can be conveniently used by workers in the later period, and the manufacturing requirements of the power grid stay wires are met.

In one possible implementation, as shown in fig. 4 and 5, the first clamping member 41 includes: a first clamping body 410, the first clamping body 410 being hinged to a first end of the connecting piece 43; and a first connection slot 411 disposed on the first clamping body 410, the first connection slot 411 being used for accommodating a power grid cable. Place the electric wire netting as acting as go-between on first connecting groove 411, use first straight line as the opposite end motion of central line symmetry setting at the connection when first holder 41, first connecting groove 411 can prevent that the electric wire netting from acting as go-between and drop, in order to realize effectual electric wire netting to act as go-between and carry out the centre gripping, in order to ensure that the electric wire netting of here acts as go-between and moves to bending structure 3 department, at first holder 41, under the clamping action of second holder 42, in order to realize acting as go-between and bend the preparation fast to the electric wire netting, manpower and materials have been practiced thrift, in order to make the electric wire netting after the preparation of bending act as go-between in order to satisfy the requirement of later stage use.

It should be noted that the first clamping body 410 may be rectangular, circular arc, or irregular arc, so that the first connecting groove 411 connected to the first clamping body 410 may contain the power grid cord when the power grid cord is manufactured. The material of the first clamping body 410 may be selected according to the actual application, and is not further limited.

In one possible implementation, as shown in fig. 4 and 5, the second clamp 42 comprises: a second clamping body 420, the second clamping body 420 being hinged to the second end of the connecting piece 43; the second connecting groove 421 is arranged on the second clamping body 420, and the second connecting groove 421 is used for containing a power grid pull wire; wherein, the second connecting groove 421 is arranged opposite to the first connecting groove 411; the bent connection groove 302, the first connection groove 411, and the second connection groove 421 form a receiving groove. Place the electric wire netting stay wire on second spread groove 421, use first straight line as the opposite end motion of central line symmetry setting at the connection when second holder 42, second spread groove 421 can prevent that the electric wire netting from acting as go-between and dropping, act as go-between and carry out the centre gripping in order to realize effectually, act as go-between to the electric wire netting, move to bending structure 3 department in order to ensure the electric wire netting of here, at first holder 41, under the clamping action of second holder 42, in order to realize acting as go-between and bend the preparation fast to the electric wire netting, the manpower has been practiced thrift, so that the electric wire netting after the preparation of bending acts as go-between in order to satisfy the requirement of later stage use. Meanwhile, the second connecting groove 421 is arranged opposite to the first connecting groove 411, and when the first clamping piece 41 and the second clamping piece 42 clamp the power grid together to pull wires, the shapes of the power grid pull wires of the first connecting groove 411 and the second connecting groove 421 are the same after the manufacturing, and when the power grid pull wires are used in the later period, the power grid pull wires after the manufacturing of the first connecting groove 411 and the second connecting groove 421 are stressed uniformly, so that the service life of the power grid pull wires after the manufacturing is prolonged. Because the connecting groove 302, first connecting groove 411, the second connecting groove 421 of bending form the holding tank, this holding tank is used for placing the electric wire netting and acts as go-between to avoid when making the electric wire netting acting as go-between, when the electric wire netting is acted as go-between atress too big, the electric wire netting is acted as go-between and is dropped the making devices, in order to injecing the electric wire netting and act as go-between this holding tank, and then ensure to act as go-between the electric wire netting and bend the validity of preparation.

It should be noted that the second clamping body 420 may be rectangular, circular arc, or irregular arc, so that the first connecting slot 411 connected to the second clamping body 420 may contain the power grid cable when the power grid cable is manufactured. The material of the second clamping body 420 can be selected according to the actual application, and is not further limited.

In one possible implementation, as shown in fig. 4 and 5, the connecting member 43 includes: the connecting piece body 430, the connecting piece body 430 is connected with the working head body 21; the third mounting hole 431 is formed in the first end of the connector body 430 and penetrates through the connector body 430; a fourth mounting hole 432, the fourth mounting hole 432 is opened at the second end of the connector body 430, and penetrates through the connector body 430. The connecting piece body 430 is connected with the working head body 21, so that the stress between the connecting piece 43 and the working head body 21 is firm in the using process of the manufacturing device, and the connecting piece 43 is prevented from being separated from the working head body 21; meanwhile, the connecting piece body 430 is provided with a third mounting hole 431 and a fourth mounting hole 432 to realize the connection of the connecting piece 43 with the first clamping piece 41 and the second clamping piece 42, so that the first clamping piece 41 and the second clamping piece 42 can move relatively to realize the clamping effect of the power grid stay wire, and the uniform clamping force of the first clamping piece 41 and the second clamping piece 42 in the clamping process is ensured.

It should be noted that the connecting member body 430 may be rectangular, circular arc, or irregular, so as to connect the connecting member body 430 and the working head body 21, and further ensure that the clamping force of the first clamping member 41 and the second clamping member 42 is uniform during the clamping process of the power grid cord. The material of the connector body 430 may be selected according to the actual application, and is not further limited.

Alternatively, the connector body 430 is integrally connected with the working head body 21; when the first clamping member 41 and the second clamping member 42 clamp the power grid stay wire, the connection member body 430 is prevented from being separated from the working head body 21 after the connection member body 430 is stressed, and effectiveness of the manufacturing device in bending the power grid stay wire is ensured.

In a possible implementation manner, as shown in fig. 4 and 5, the manufacturing apparatus for the grid wire further includes: the first connecting shaft 44; the first clamp 41 further includes: a first mounting hole 412, the first mounting hole 412 being opened on the first clamping body 410 near the first end of the connector body 430 and penetrating the first clamping body 410; the first connecting shaft 44 penetrates through the first mounting hole 412 and the third mounting hole 431 to connect the first clamping piece 41 with the first end of the connector body 430; i.e. the first clamping member 41 is connected to the first end of the connecting member 43. The first clamping member 41 is hinged with the connecting member 43 by using the first connecting shaft 44; therefore, when the power grid stay wire is required to be bent, only the clamping structure 4 needs to be provided with clamping force, the first clamping piece 41 moves towards the direction of the bending structure 3 under the action of the first connecting shaft 44, so that the power grid stay wire is bent after being clamped, the power grid stay wire is not required to be bent manually, manpower is saved, and the bending work efficiency is improved.

Optionally, the first connecting shaft 44 comprises a first rotating shaft. Through the use of the first rotating shaft, the first clamping piece 41 is hinged to the connecting piece 43, so that the power grid stay wire can be conveniently clamped, and the clamping efficiency is improved.

In a possible implementation manner, as shown in fig. 4 and 5, the manufacturing apparatus for the grid line further includes: and the second connecting shaft 45 penetrates through the second mounting hole 422 and the fourth mounting hole 432 to connect the second clamping member body 420 with the second end of the connecting member body 430, namely, the second clamping member body 420 is connected with the second end of the connecting member 43. The second clamping member 42 is hinged with the connecting member 43 through the use of the second connecting shaft 45; therefore, when the power grid stay wire is required to be bent, only the clamping force is required to be provided for the clamping structure 4, the second clamping piece 42 moves towards the direction of the bending structure 3 under the action of the second connecting shaft 45, the power grid stay wire is bent after being clamped, the power grid stay wire is not required to be bent manually, manpower is saved, and the bending work efficiency is improved.

Alternatively, the second connecting shaft 45 includes a second rotating shaft. Through the use of second pivot to realize that second holder 42 and connecting piece 43 articulate, in order to conveniently to act as go-between the centre gripping to the electric wire netting, improved the efficiency of centre gripping.

In a possible implementation manner, fig. 6 is a schematic structural diagram of a manufacturing apparatus for a power grid line according to another embodiment of the present application; as shown in fig. 6, the manufacturing apparatus for the power grid line further includes: a first connecting piece 22 arranged inside the working head body 21, wherein one end of the first connecting piece 22 is connected with the first connecting shaft 44; the second connecting piece 23 is arranged inside the working head body 21, and the first end of the second connecting piece 23 is connected with the second connecting shaft 45; a first slider 24, the first slider 24 being connected to the other end of the first connecting piece 22; the second sliding block 25, the second sliding block 25 is connected with another end of the second connecting sheet 23; the bidirectional adjusting screw 26 is connected with the first sliding block 24 and the second sliding block 25 respectively; the driving device 11 is arranged in the shell 1, and the output end of the driving device 11 is connected with the bidirectional adjusting screw 26; a power supply device 12 disposed inside the casing 1; the driving device 11 is electrically connected with the power supply device 12; and a control switch 13 disposed outside the housing 1, wherein the control switch 13 is electrically connected to the power supply 12. By turning on the control switch 13, after the power supply device 12 is electrically connected to the driving device 11, the driving device 11 rotates, the bidirectional adjusting screw 26 moves in different directions under the rotation of the driving device 11, so that the first slider 24 and the second slider 25 move in different directions under the action of the bidirectional adjusting screw 26, the first slider 24 drives the first connecting sheet 22 and the first connecting shaft 44 to move, the second slider 25 drives the second connecting sheet 23 and the second connecting shaft 45 to move, that is, the first clamping piece 41 and the second clamping piece 42 move towards the bending structure 3 together, or move away from the bending structure 3, so that the first clamping piece 41 and the second clamping piece 42 clamp the power grid stay wire, and the power grid stay wire can be bent.

Specifically, the bidirectional adjusting screw 26 is respectively connected with the first slider 24 and the second slider 25 through threads; through setting up the difference of the screw thread direction on the two-way adjusting screw 26, when drive arrangement 11 rotated, can realize that first slider 24, second slider 25 on the two-way adjusting screw 26 are moving towards different directions, and then realize that first holder 41, second holder 42 open and shut to realize that first holder 41, second holder 42 centre gripping electric wire netting are acted as go-between.

Optionally, the drive means 11 comprises a motor. The output end of the motor is connected with the bidirectional adjusting screw 26 through a bearing so as to provide driving force for the bidirectional adjusting screw 26.

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 present invention, and any modifications, equivalents and the like that are within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A making devices for electric wire netting stay characterized in that includes:

a housing (1); and

the working head (2) is arranged at the end part of the shell (1); wherein,

the working head (2) comprises:

the working head body (21), the working head body (21) is connected with the shell (1);

the bending structure (3) is arranged on the working head body (21), and the bending structure (3) is used for bending a power grid stay wire; and

the clamping structure (4) is arranged on the working head body (21), the clamping structure (4) is located right opposite to the bending structure (3), and the clamping structure (4) is used for clamping the power grid stay wire.

2. The production device according to claim 1,

the bending structure (3) comprises:

the bending machine comprises a bending body (301), wherein the bending body (301) is connected with the working head body (21); and

the power grid connecting device comprises a bending connecting groove (302), wherein the bending connecting groove (302) is connected with the bending body (301), and the bending connecting groove (302) is used for containing the power grid stay wire.

3. The manufacturing device of claim 2, wherein said angled coupling slots (302) comprise arcuate angled coupling slots.

4. The production device according to claim 2,

the clamping structure (4) comprises:

a first clamp (41);

a second clamping member (42), the second clamping member (42) and the first clamping member (41) are mutually matched;

the connecting piece (43), the connecting piece (43) is connected with the working head body (21);

a first end of the connecting piece (43) is connected with the first clamping piece (41), and a second end of the connecting piece (43) is connected with the second clamping piece (42);

the first clamping piece (41) and the second clamping piece (42) are symmetrically arranged by taking a first straight line as a central line; the first straight line is superposed with the central line of the bending structure (3);

the first end and the second end are opposite ends.

5. The production device according to claim 4, wherein the first clamp (41) comprises:

a first clamping body (410), the first clamping body (410) being hinged to a first end of the connecting piece (43); and

the first connecting groove (411) is arranged on the first clamping body (410), and the first connecting groove (411) is used for containing the power grid pull wire.

6. The production device according to claim 5, characterized in that said second clamp (42) comprises:

a second clamping body (420), the second clamping body (420) being hinged to a second end of the connecting piece (43); and

a second connecting groove (421) arranged on the second clamping body (420), wherein the second connecting groove (421) is used for containing the power grid pull wire;

wherein the second connecting groove (421) is arranged opposite to the first connecting groove (411);

the bent connecting groove (302), the first connecting groove (411) and the second connecting groove (421) form a containing groove.

7. The production device according to claim 6, characterized in that said connection means (43) comprise:

the connecting piece body (430), the connecting piece body (430) is connected with the working head body (21); and

a third mounting hole (431), wherein the third mounting hole (431) is formed at the first end of the connector body (430) and penetrates through the connector body (430);

a fourth mounting hole (432), wherein the fourth mounting hole (432) is formed at the second end of the connector body (430) and penetrates through the connector body (430).

8. The production device according to claim 7,

further comprising: a first connecting shaft (44);

the first clamp (41) further comprises:

a first mounting hole (412), the first mounting hole (412) opening on the first clamp body (410) near the first end of the connector body (430) and penetrating the first clamp body (410);

the first connecting shaft (44) penetrates through the first mounting hole (412) and the third mounting hole (431) to connect the first clamping piece (41) and the first end of the connector body (430).

9. The production device according to claim 8,

further comprising: a second connecting shaft (45);

the second clamp (42) further comprises:

a second mounting hole (422), the second mounting hole (422) being provided on the second clamping body (420) near the second end of the connector body (430), and penetrating the second clamping body (420);

the second connecting shaft (45) penetrates through the second mounting hole (422) and the fourth mounting hole (432) to connect the second clamping piece body (420) with the second end of the connecting piece body (430).

10. The production device of claim 9, further comprising:

the first connecting piece (22) is arranged inside the working head body (21), and one end of the first connecting piece (22) is connected with the first connecting shaft (44);

the second connecting piece (23) is arranged inside the working head body (21), and one end of the second connecting piece (23) is connected with the second connecting shaft (45);

a first slider (24), wherein the first slider (24) is connected with the other end of the first connecting sheet (22);

the second sliding block (25), the second sliding block (25) is connected with the other end of the second connecting sheet (23);

the bidirectional adjusting screw (26), the bidirectional adjusting screw (26) is respectively connected with the first sliding block (24) and the second sliding block (25);

the driving device (11) is arranged inside the shell (1), and the output end of the driving device (11) is connected with the bidirectional adjusting screw rod (26);

a power supply device (12) arranged inside the housing (1), the power supply device (12) being connected with the drive device (11); and

the control switch (13) is arranged outside the shell (1), and the control switch (13) is electrically connected with the power supply device (12).