CN210589452U - Insulating strip cutting equipment - Google Patents

Insulating strip cutting equipment Download PDF

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Publication number
CN210589452U
CN210589452U CN201921105194.6U CN201921105194U CN210589452U CN 210589452 U CN210589452 U CN 210589452U CN 201921105194 U CN201921105194 U CN 201921105194U CN 210589452 U CN210589452 U CN 210589452U
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China
Prior art keywords
insulating strip
insulating
jaw
strip
clamping jaw
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CN201921105194.6U
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Chinese (zh)
Inventor
冯伟
姚建杭
高震
魏凯
张博
李传欣
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Hebei Yihang Technology Co ltd
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Hebei Yihang Technology Co ltd
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Priority to CN201921105194.6U priority Critical patent/CN210589452U/en
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Abstract

The utility model provides an equipment is tailor to insulating strip, it includes: a base plate; a jaw mechanism arranged on the bottom plate, sliding along a first direction of the insulating strip cutting device and configured to clamp and take out the insulating strip according to a preset length; an insulating strip cutting mechanism arranged on the bottom plate and positioned on one side and configured to cut the insulating strip at a working position after the clamping jaw mechanism clamps and takes out the insulating strip; a pallet configured to receive the insulating strip gripped and stretched by the gripper mechanism; an insulating strip placing wheel mechanism which is rotatably arranged on the mounting vertical plate connected with the bottom plate and is configured to place an insulating strip; and a controller. The utility model discloses an equipment is tailor to insulated strip can overcome the manual work and tailor the lower shortcoming of insulated strip efficiency to can realize drawing of insulated strip, tailor and the position shifts, can replace the manual operation of tailorring the insulated strip effectively.

Description

Insulating strip cutting equipment
Technical Field
The utility model relates to a solar module makes the field, especially relates to an equipment is tailor to insulated strip.
Background
Solar energy is widely applied to various industries as a clean energy source, provides great convenience for work and life of people while replacing traditional energy sources to a certain extent, and creates good environmental benefit, social benefit and economic benefit. In order to effectively utilize solar energy, it is necessary to manufacture a solar power generation system in which a solar cell module is a core part. The solar cell module is a device for converting light energy into electric energy by utilizing a photoelectric effect or a photochemical effect, and in the production process of the solar cell module, welding a cell string is an important link, and the welding quality directly influences the quality of the solar cell module. When the battery string is welded, the welding strips of the battery string need to be separated by an insulating strip. The conventional way of operating is to manually cut out the insulating strips and place them in the corresponding positions on the welding strips, which is inefficient and interrupts the automated welding process of the battery strings.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an equipment is tailor to insulating strip to solve following technical problem: the insulating strips are cut manually, so that the precision is difficult to guarantee and the efficiency is low.
In order to solve the technical problem, the utility model discloses an equipment is tailor to insulating strip can include: the bottom plate is arranged at the bottom of the insulating strip cutting equipment; a gripper mechanism disposed on the base plate and driven by a timing belt transfer mechanism to slide in a first direction of the insulating strip cutting apparatus, and configured to grip out an insulating strip according to a preset length; an insulating strip cutting mechanism arranged on the bottom plate and positioned on one side and configured to cut the insulating strip at a working position after the clamping jaw mechanism clamps and takes out the insulating strip; a supporting plate arranged on the bottom plate and arranged between the insulating strip shearing mechanism and the clamping jaw mechanism, and configured to be driven by a cylinder to move so as to convey the cut insulating strip; at least one insulating strip placing wheel mechanism which is rotatably arranged on the mounting vertical plate connected with the bottom plate and is configured to place an insulating strip; a controller configured to control movement and cutting of the insulating strip shearing mechanism and movement and gripping of the gripper mechanism; before the clamping jaw mechanism clamps and takes out the insulating strip, the insulating strip shearing mechanism is driven by an air cylinder to slide along a first sliding rail from an initial position to the working position; after the insulating strip shearing mechanism cuts the insulating strips at the working position, the insulating strip shearing mechanism returns to the initial position through the driving of the air cylinder, and the insulating strips penetrate through the insulating strip shearing mechanism.
Optionally, the insulating strip shearing mechanism includes: a cutter base plate fixedly connected to the base plate; a first slide rail fixedly disposed on the cutter substrate; a lower tool apron arranged on the first slide rail and configured to be driven by a cylinder to slide along the first slide rail in the first direction through a slider; a lower cutter fixedly connected to the lower cutter holder and configured to cut an insulation strip; the upper cutter holder is vertically and slidably arranged on one side of a motor fixing plate of the insulating strip shearing mechanism; an upper cutter fixedly connected to the upper cutter holder and configured to cut an insulating strip in cooperation with the lower cutter; and the wheel shaft group is arranged in the hole of the upper tool apron and is configured to be driven to rotate by a motor connected to the other side of the motor fixing plate so as to drive the upper tool apron to slide in the vertical direction.
Optionally, the insulating strip cutting device further includes: and the pressing mechanism is arranged between the insulating strip placing wheel mechanism and the insulating strip shearing mechanism and is configured to limit the movement of the insulating strips.
Optionally, the insulating strip shearing mechanism further includes: a holder block fixedly disposed on the lower tool holder and configured to support an insulating strip; the pressing plate is arranged on the support block and is configured to form a space with the support block so as to accommodate the insulating strip; a width adjustment plate inserted into a space between the holder block and the pressing plate to form two hollow portions, the width adjustment plate being configured to adjust widths of the two hollow portions; wherein the widths of the two hollow parts are changed according to the width of the insulating strip, so that the insulating strip is not deviated in the clamping movement process.
Optionally, after the insulating strip shearing mechanism shears the insulating strip, the upper cutter is separated from the lower cutter so that the insulating strip passes through between the upper cutter and the lower cutter after the insulating strip shearing mechanism returns to the initial position.
Optionally, the jaw mechanism comprises: the clamping jaw fixing plate is arranged at the bottom of the clamping jaw mechanism; a second slide rail fixedly disposed on the jaw securing plate and configured to slide the jaw mechanism along the second slide rail in a second direction of the insulating strip cutting apparatus; a lower jaw fixedly connected to a bracket provided on the slider and slidably driven by a cylinder along the second slide rail in the second direction through the slider; the upper clamping jaw is hinged with the double-elbow joint at the upper end and hinged with the lower clamping jaw at the lower end, and is configured to be driven by a cylinder connected with the double-elbow joint so as to be matched with the lower clamping jaw to clamp or unclamp the insulating strip; the lower clamping jaw, the upper clamping jaw and the double-elbow joint are connected to form a crank connecting rod mechanism so as to clamp or loosen the insulating strip.
Optionally, before the clamping jaw mechanism clamps the insulating strip, the upper clamping jaw and the lower clamping jaw form a predetermined angle, so that the insulating strip is located between the upper clamping jaw and the lower clamping jaw.
Optionally, when the clamping jaw mechanism clamps the insulating strip, the double-shaft joint drives the upper end of the upper clamping jaw to rotate, so that the lower end of the upper clamping jaw moves towards the lower clamping jaw to clamp the insulating strip.
Optionally, the first direction of the insulating strip cutting device is the length direction of the bottom plate.
Optionally, the second direction of the insulating strip cutting device is the width direction of the bottom plate.
Drawings
Other features and advantages of the present invention will be apparent from, or are set forth in more detail in, the accompanying drawings, which together with the description serve to explain certain principles of the invention.
Fig. 1 is a schematic view of an insulating strip trimming apparatus according to an exemplary embodiment of the present invention.
Fig. 2 is a schematic view of an insulation strip shearing mechanism of an insulation strip trimming apparatus according to an exemplary embodiment of the present invention.
Fig. 3 is a schematic view of two hollows formed in an insulation strip shearing mechanism according to an exemplary embodiment of the present invention.
Fig. 4 is a schematic view of a jaw mechanism of an insulation strip cutting apparatus according to an exemplary embodiment of the present invention.
It should be understood that the drawings referred to above are not necessarily to scale, presenting a somewhat simplified representation of various preferred features illustrative of the basic principles of the invention. The specific design features of the present invention (including, for example, specific dimensions, orientations, locations, and shapes) will be determined in part by the specific intended application and environment of use.
Detailed Description
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention can be implemented in many other ways than those herein described and one skilled in the art can similarly generalize without departing from the spirit of the invention and is therefore not limited by the specific embodiments disclosed below.
Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to fig. 1 to 4.
The insulating tape cutting apparatus 1 of the present exemplary embodiment may include: base plate 10, clamping jaw mechanism 20, insulation strip shearing mechanism 30, support plate 40, first insulation strip placing wheel mechanism 50 and second insulation strip placing wheel mechanism 60.
Specifically, the bottom plate 10 is provided at the bottom of the insulating strip cutting apparatus 1. The jaw mechanism 20 is disposed on the base plate 10 and can be driven by a timing belt transfer mechanism installed on the base plate 10, so that the jaw mechanism 20 can slide along a first direction of the insulation strip cutting apparatus 1 and clamp out the insulation strip according to a desired preset length of the cut-out insulation strip. In the present embodiment, the first direction of the insulating tape cutting apparatus 1 refers to a left-right direction of the base plate 10 as viewed in fig. 1, or may be understood as a lengthwise direction or a longitudinal direction of the base plate 10, and the first direction determined by the above definition is substantially the same. The insulating strip shearing mechanism 30 may be disposed on the bottom plate 10 and located on one side of the bottom plate 10, and the insulating strip shearing mechanism 30 may be configured to shear the insulating strip at a working position after the clamping jaw mechanism 20 clamps the insulating strip, where the working position is determined according to an actual working condition, and this embodiment is not limited thereto. The blade 40 may be disposed on the base plate 10, and may be disposed between the jaw mechanism 20 and the insulating strip shearing mechanism 30, and configured to be moved by being driven by a cylinder installed on the base plate 10, and may be moved to a desired position in a first direction. In this embodiment, the insulation bar placing wheel mechanism 50 and the second insulation bar placing wheel mechanism 60 may be respectively provided, insulation bars of different widths are placed thereon, the first insulation bar placing wheel mechanism 50 and the second insulation bar placing wheel mechanism 60 may be rotatably provided on the mounting vertical plate 70 connected to the base plate 10, the number of the insulation bar placing wheel mechanisms placed on the insulation bar cutting apparatus may be determined according to actual requirements, and this embodiment is not limited thereto.
Also, as shown in fig. 1, in order to ensure that the insulating tape moves stably, the insulating tape cutting apparatus 1 in the present embodiment may further include: and a pressing mechanism 80 which may be disposed between the first insulating strip placing wheel mechanism 50, the second insulating strip placing wheel mechanism 60, and the insulating strip shearing mechanism 30, and is configured to limit the movement of the insulating strips, specifically, to prevent the insulating strips from moving in the process of being gripped, thereby ensuring the stability of the subsequent gripping and shearing processes. In the present embodiment, two pressing mechanisms may be provided to place the insulating tapes on the wheel mechanism in correspondence with the two insulating tapes, respectively.
Further, the insulating tape cutting apparatus 1 of the present embodiment may further include a controller (not shown) which may be configured to control the movement and cutting action of the insulating tape cutting mechanism 30, and may also control the movement and gripping action of the gripper mechanism.
In practical operation, an insulating strip with a specific width is selected for cutting according to the requirement of welding the battery string, and before the insulating strip is clamped by the clamping jaw mechanism 20, the insulating strip shearing mechanism 30 can be driven by an air cylinder to slide along the first slide rail from an initial position to a working position, wherein the initial position is located at the left side of the working position in fig. 1. In order to clamp the insulating tape, the insulating tape needs to pass through the insulating tape shearing mechanism 30, so that the insulating tape can also extend out of a part after the insulating tape shearing mechanism 30 moves to the working position. The controller may control the jaw mechanism 20 to move to a corresponding position in the first direction according to a predetermined length of the insulation strip to be cut, and to grip the insulation strip. After the insulating strips are clamped, the clamping jaw mechanism 20 moves in the opposite direction along the first direction to a position determined according to the preset length, the insulating strip cutting mechanism 30 cuts the insulating strips at the working position, and after the cutting is finished, the controller can control the insulating strip cutting mechanism 30 to return to the initial position, so that the insulating strips pass through the insulating strip cutting mechanism 30, and the next cutting is facilitated.
In addition, the insulation strip after cutting may be moved to a welding device (e.g., a stitch welding machine) of the battery string by a mechanism such as a robot arm for subsequent operations, thereby improving the work efficiency, which is not limited by the present embodiment.
This embodiment provides an equipment is tailor to insulated strip, removes the predetermined length clamp as required through clamping jaw mechanism and gets the insulated strip, cuts the insulated strip by cutting mechanism to can repeatedly carry out above-mentioned process, tailor the insulated strip of different width for different length, solve prior art's following problem: adopt artifical mode to tailor the insulated strip, efficiency is lower.
Further, in the present embodiment, the insulating strip shearing mechanism 30 may include: the cutting tool comprises a cutting tool base plate 301, a first slide rail 302, a lower tool holder 303, a lower cutting tool 304, an upper tool holder 305, an upper cutting tool 306 and a wheel shaft group 307.
Specifically, the cutter base plate 301 may be fixedly coupled to the base plate 10. The first slide rail 302 may be fixedly provided on the cutter base plate 301 such that the insulating strip shearing mechanism 30 can move between the initial position and the working position along the first slide rail 302. The lower tool post 303 may be disposed on the first slide rail 302, and configured to be driven by an air cylinder of the insulating strip cutting mechanism 30 to slide in a first direction along the first slide rail 302 by a slider. The lower cutter 304 may be fixedly connected to the lower cutter holder 303 and configured to cut the insulating strip. The upper tool apron 305 is vertically slidably disposed on one side of the motor fixing plate 308 of the insulation strip cutting mechanism 30. The upper cutter 306 may be fixedly attached to the upper blade holder 305 and may be configured to cut the insulating strip in cooperation with the lower cutter 304. The axle group 307 may be disposed in a hole of the upper tool apron 305, for example, the hole may be rectangular in shape and may be configured to be driven to rotate by a motor (in this embodiment, the motor may be a reduction motor), the motor may be disposed on the other side of the motor fixing plate 308, and the axle group 307 may be an eccentric shaft group, and the eccentric shaft group may drive the upper tool apron 305 to slide in the vertical direction by rotating.
To ensure that the insulating strip clamping process is stable, the insulating strip shearing mechanism 30 may further include: a carrier block 309, a platen 310, and a width adjustment plate 311.
Specifically, the holder block 309 may be fixedly disposed at the lower tool post 303 and configured to support the insulating strip. The platen 310 may be disposed on the pallet 309 and configured to form a space with the pallet 309 to accommodate the insulating strip. The number of the width adjustment plates 311 may be 2, which are respectively inserted into spaces between the holder blocks 309 and the pressing plates 310 to form 2 hollow portions, and the width adjustment plates 311 may be configured to adjust the widths of the two hollow portions. In this embodiment, the width of well kenozooecium is adjusted according to the insulated strip width for the insulated strip is not squinted at the removal in-process of pressing from both sides and getting, goes on smoothly with the assurance clamp, thereby obtains the insulated strip that length is accurate.
In the present embodiment, in order to allow the insulating tape to pass through the insulating tape shearing mechanism 30 after the insulating tape shearing mechanism 30 cuts the insulating tape, the upper cutter 306 and the lower cutter 304 may be controlled to be separated so that the insulating tape can pass through the gap between the upper cutter 306 and the lower cutter 304 after the insulating tape shearing mechanism 30 returns to the initial position.
In the present embodiment, the gripper mechanism 20 may include: a jaw fixing plate 201, a second slide rail 202, a lower jaw 203 and an upper jaw 204.
Specifically, the jaw fixing plate 201 may be provided at the bottom of the jaw mechanism 20. The second slide rail 202 may be fixedly disposed on the jaw securing plate 201 and configured to slide the jaw mechanism 20 along the second slide rail 202 in a second direction of the insulating strip cutting apparatus 20. In the present embodiment, the second direction is a direction perpendicular to the first direction, i.e., the front-rear direction in fig. 1, or is understood to be along the width direction of the base plate 10, and the above definitions are substantially the same. The lower jaw 203 may be fixedly connected to a bracket provided on the slider, and the lower jaw 203 is driven by an air cylinder provided on the jaw fixing plate 201 such that the lower jaw 203 is slidable along the second slide rail 202 in the second direction by the slider, the sliding of the lower jaw 203 in the second direction being for placing a wheel mechanism corresponding to the insulation strips in different positions so as to be able to grip the corresponding insulation strips. The upper end of the upper jaw 204 may be hinged with a double elbow joint 205 and the lower end of the upper jaw 204 may be hinged with the lower jaw 203, and the upper jaw 204 may be configured to be driven by a cylinder connected with the double elbow joint 205 to cooperate with the lower jaw 203 to grip or release the insulating strip.
Further, in the jaw mechanism 20 of the present embodiment, the double elbow joint 205 may be a Y-type double elbow joint, so that the lower jaw 203, the upper jaw 204, and the double elbow joint 205 are connected as a toggle link mechanism to clamp or unclamp the insulating strip.
Specifically, before the jaw mechanism 20 grips the insulation bar, the upper jaw 204 and the lower jaw 203 may form a predetermined angle so that the insulation bar is located between the upper jaw 204 and the lower jaw 203 when the jaw mechanism is moved to the position of the insulation bar.
Thereafter, when the clamping jaw mechanism 20 is to clamp the insulating strip, the air cylinder drives the upper end of the upper clamping jaw 204 to rotate, so as to drive the lower end of the upper clamping jaw 204 to move towards the lower clamping jaw 203, and the insulating strip between the upper clamping jaw 204 and the lower clamping jaw 203 is clamped.
Wherein two air cylinders may be provided in the jaw mechanism 20 to drive the lower jaw 203 to slide in the second direction and to drive the movement of the double toggle joint 205, respectively.
The utility model provides an insulating strip equipment of tailorring gets and tailors the insulating strip through automatic clamp, overcomes the artifical lower shortcoming of insulating strip efficiency of tailorring to can realize drawing, tailor and the position transfer to the insulating strip, establish the basis for subsequent handling. The insulating strip cutting equipment has the advantages of wide application range and high working efficiency, and can effectively replace manual operation for cutting the insulating strip.
The above embodiments are intended to exemplify the principles of the present invention and its effects, but the present invention is not limited to the above embodiments. Those skilled in the art will recognize that changes may be made in the embodiments described above without departing from the spirit and scope of the invention, which is set forth in the following claims. Therefore, the scope of the present invention should be covered by the appended claims.

Claims (10)

1. An insulating strip tailoring apparatus, comprising:
the bottom plate is arranged at the bottom of the insulating strip cutting equipment;
a gripper mechanism disposed on the base plate and driven by a timing belt transfer mechanism to slide in a first direction of the insulating strip cutting apparatus, and configured to grip out an insulating strip according to a preset length;
an insulating strip cutting mechanism arranged on the bottom plate and positioned on one side and configured to cut the insulating strip at a working position after the clamping jaw mechanism clamps and takes out the insulating strip;
the supporting plate is arranged on the bottom plate, is arranged between the insulating strip shearing mechanism and the clamping jaw mechanism, and is configured to be driven by a cylinder to move so as to receive the insulating strip clamped and stretched by the clamping jaw mechanism;
at least one insulating strip placing wheel mechanism which is rotatably arranged on the mounting vertical plate connected with the bottom plate and is configured to place an insulating strip;
a controller configured to control movement and cutting of the insulating strip shearing mechanism and movement and gripping of the gripper mechanism;
before the clamping jaw mechanism clamps and takes out the insulating strip, the insulating strip shearing mechanism is driven by an air cylinder to slide along a first sliding rail from an initial position to the working position;
after the insulating strip shearing mechanism cuts the insulating strips at the working position, the insulating strip shearing mechanism returns to the initial position through the driving of the air cylinder, and the insulating strips penetrate through the insulating strip shearing mechanism.
2. The insulating strip trimming apparatus according to claim 1, wherein the insulating strip cutting mechanism comprises:
a cutter base plate fixedly connected to the base plate;
a first slide rail fixedly disposed on the cutter substrate;
a lower tool apron arranged on the first slide rail and configured to be driven by a cylinder to slide along the first slide rail in the first direction through a slider;
a lower cutter fixedly connected to the lower cutter holder and configured to cut an insulation strip;
the upper cutter holder is vertically and slidably arranged on one side of a motor fixing plate of the insulating strip shearing mechanism;
an upper cutter fixedly connected to the upper cutter holder and configured to cut an insulating strip in cooperation with the lower cutter;
and the wheel shaft group is arranged in the hole of the upper tool apron and is configured to be driven to rotate by a motor connected to the other side of the motor fixing plate so as to drive the upper tool apron to slide in the vertical direction.
3. The insulating strip trimming apparatus according to claim 2, further comprising:
and the pressing mechanism is arranged between the insulating strip placing wheel mechanism and the insulating strip shearing mechanism and is configured to limit the movement of the insulating strips.
4. The insulating strip trimming apparatus according to claim 2, wherein the insulating strip cutting mechanism further comprises:
a holder block fixedly disposed on the lower tool holder and configured to support an insulating strip;
the pressing plate is arranged on the support block and is configured to form a space with the support block so as to accommodate the insulating strip;
a width adjustment plate inserted into a space between the holder block and the pressing plate to form two hollow portions, the width adjustment plate being configured to adjust widths of the two hollow portions;
wherein the widths of the two hollow parts are changed according to the width of the insulating strip, so that the insulating strip is not deviated in the clamping movement process.
5. The insulating tape cutting apparatus as claimed in claim 2, wherein the upper cutter is separated from the lower cutter after the insulating tape cutting mechanism cuts the insulating tape, so that the insulating tape passes between the upper cutter and the lower cutter after the insulating tape cutting mechanism returns to the initial position.
6. An insulation strip trimming apparatus according to claim 1, wherein the jaw mechanism comprises:
the clamping jaw fixing plate is arranged at the bottom of the clamping jaw mechanism;
a second slide rail fixedly disposed on the jaw securing plate and configured to slide the jaw mechanism along the second slide rail in a second direction of the insulating strip cutting apparatus;
a lower jaw fixedly connected to a bracket provided on the slider and slidably driven by a cylinder along the second slide rail in the second direction through the slider;
the upper clamping jaw is hinged with the double-elbow joint at the upper end and hinged with the lower clamping jaw at the lower end, and is configured to be driven by a cylinder connected with the double-elbow joint so as to be matched with the lower clamping jaw to clamp or unclamp the insulating strip;
the lower clamping jaw, the upper clamping jaw and the double-elbow joint are connected to form a crank connecting rod mechanism so as to clamp or loosen the insulating strip.
7. The insulating strip trimming apparatus according to claim 6, wherein the upper jaw forms a predetermined angle with the lower jaw before the jaw mechanism grips the insulating strip so that the insulating strip is positioned between the upper jaw and the lower jaw.
8. The insulating strip cutting apparatus as claimed in claim 6, wherein the double knuckle joint rotates the upper end of the upper jaw to move the lower end of the upper jaw toward the lower jaw to grip the insulating strip while the clamping jaw mechanism grips the insulating strip.
9. The insulating strip trimming apparatus according to claim 1, wherein the first direction of the insulating strip trimming apparatus is a length direction of the base plate.
10. The insulating strip trimming apparatus according to claim 6, wherein the second direction of the insulating strip trimming apparatus is a width direction of the base plate.
CN201921105194.6U 2019-07-15 2019-07-15 Insulating strip cutting equipment Active CN210589452U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921105194.6U CN210589452U (en) 2019-07-15 2019-07-15 Insulating strip cutting equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921105194.6U CN210589452U (en) 2019-07-15 2019-07-15 Insulating strip cutting equipment

Publications (1)

Publication Number Publication Date
CN210589452U true CN210589452U (en) 2020-05-22

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Application Number Title Priority Date Filing Date
CN201921105194.6U Active CN210589452U (en) 2019-07-15 2019-07-15 Insulating strip cutting equipment

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110253647A (en) * 2019-07-15 2019-09-20 河北羿珩科技有限责任公司 Insulation strip cuts equipment
CN112164578A (en) * 2020-10-09 2021-01-01 常德国力变压器有限公司 Automatic machining equipment for winding heat dissipation oil duct on oil-immersed transformer

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110253647A (en) * 2019-07-15 2019-09-20 河北羿珩科技有限责任公司 Insulation strip cuts equipment
CN110253647B (en) * 2019-07-15 2024-05-31 河北羿珩科技有限责任公司 Equipment is tailor to insulating strip
CN112164578A (en) * 2020-10-09 2021-01-01 常德国力变压器有限公司 Automatic machining equipment for winding heat dissipation oil duct on oil-immersed transformer

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