CN219287055U - Limiting structure for new energy high-voltage wire harness - Google Patents
Limiting structure for new energy high-voltage wire harness Download PDFInfo
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- CN219287055U CN219287055U CN202222778836.7U CN202222778836U CN219287055U CN 219287055 U CN219287055 U CN 219287055U CN 202222778836 U CN202222778836 U CN 202222778836U CN 219287055 U CN219287055 U CN 219287055U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/60—Other road transportation technologies with climate change mitigation effect
- Y02T10/70—Energy storage systems for electromobility, e.g. batteries
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Abstract
The utility model relates to a limit structure for a high-voltage wire harness of new energy, which comprises an upper limit seat, wherein the back surface of the upper limit seat is rotationally connected with a lower limit seat through a pin shaft, lug seats are uniformly formed on two sides of the front surfaces of the upper limit seat and the lower limit seat, fastening screws are connected with inner cavities of the lug seats in a threaded manner, circular threading holes are formed on the peripheries of the outer rings of the inner cavities of the upper limit seat and the lower limit seat, semicircular threading holes are formed in the centers of the inner cavities of the upper limit seat and the lower limit seat, and limit structures matched with the circular threading holes and the semicircular threading holes are arranged in the upper limit seat and the lower limit seat. Through setting up limit structure, by the cooperation of inflation inlet, total passageway, branch channel, circular gasbag, connecting channel, semi-circular gasbag and gas vent, carry out synchronous pneumatic spacing operation to many high-tension lines, replace traditional bolt tightening formula line row step, shorten the spacing man-hour of high-tension line, satisfy the spacing demand of big high-tension line in batches.
Description
Technical Field
The utility model relates to the technical field of new energy, in particular to a limiting structure for a high-voltage wire harness of new energy.
Background
New energy: the energy source is characterized in that the energy source is in various energy forms except the traditional energy source, such as solar energy, geothermal energy, wind energy, ocean energy, biomass energy, nuclear fusion energy and the like, which are just developed and utilized or are actively researched, and a plurality of new energy products are derived along with the development of the existing new energy technology, wherein high-voltage wires are needed for ensuring the normal power supply and transmission of the new energy products, contact serial power between the high-voltage wires is prevented, accidents are prevented, and the high-voltage wires are limited by using wire harnesses.
Most of the prior limit structures used in the market are bolt tightening type line rows, synchronous pneumatic limit treatment cannot be carried out on a plurality of high-voltage lines, a rapid limit effect cannot be achieved, and labor hour is consumed when the traditional line rows are screwed one by one.
Disclosure of Invention
The utility model aims to solve the defect that synchronous pneumatic limiting treatment cannot be carried out on a plurality of high-voltage wires in the prior art, and provides a limiting structure for a new energy high-voltage wire harness.
In order to achieve the above purpose, the present utility model adopts the following technical scheme:
the utility model provides a limit structure for new forms of energy high-voltage wire harness, includes spacing seat, the back of going up spacing seat is connected with down spacing seat through the round pin axle rotation, it has the ear seat to go up spacing seat and the positive both sides homogeneous body shaping of spacing seat down, and the inner chamber threaded connection of ear seat has fastening screw, go up spacing seat and down circular through wires hole all has been seted up all around of spacing seat inner chamber outer lane, the center department of going up spacing seat and spacing seat inner chamber down has seted up semicircular through wires hole, upward be provided with the limit structure that uses with circular through wires hole and semicircular through wires hole cooperation in spacing seat down.
Preferably, the limit structure comprises an inflation port, the inflation port is arranged on the back of the upper limit seat and the lower limit seat, a total channel is arranged on the outer ring of the inner cavities of the upper limit seat and the lower limit seat, one end of the total channel, which is close to the circular threading hole, is communicated with a branch channel, the inner cavity of the circular threading hole is fixedly connected with a circular air bag which is communicated with the branch channel, two ends of the total channel, which are close to the semicircular threading hole, are respectively communicated with a connecting channel, the inner cavity of the semicircular threading hole is fixedly connected with a semicircular air bag which is communicated with the connecting channel, and one end, which is far away from the inflation port, of the total channel is communicated with an exhaust port.
Preferably, the total channel adopts an arc-shaped design, and the branch channel and the circular air bag are circumferentially distributed along the center of the semicircular threading hole.
Preferably, the connecting channels and the semicircular air bags are distributed in an axisymmetric mode along the center of the semicircular threading hole, and the connecting channels are located at the center positions of adjacent intervals of the branch channels.
Preferably, the inner ends of the air charging port and the air discharging port are respectively provided with a screw thread, and the inner ends of the screw thread, which are close to the air charging port and the air discharging port, are respectively in threaded connection with an air charging port plug and an air discharging port plug.
Preferably, the inner cavities of the circular air bag and the semicircular air bag are respectively provided with an insulating rubber ring, and the length of the insulating rubber ring is larger than that of the circular air bag and the semicircular air bag.
Preferably, the threading end integrated into one piece of insulating rubber circle has the threading head, the wire end integrated into one piece of insulating rubber circle has out the line head, the horn form design is all adopted to the line head and the line head that goes out.
According to the limit structure for the new energy high-voltage wire harness, through the arrangement of the limit structure, the synchronous pneumatic limit operation is carried out on a plurality of high-voltage wires through the cooperation of the charging port, the main channel, the branch channel, the circular air bag, the connecting channel, the semicircular air bag and the exhaust port, the step of tightening the wire harness by the traditional bolts is replaced, the limit man-hour of the high-voltage wires is shortened, and the limit requirement of a large number of high-voltage wires is met.
Through screw thread, inflation inlet end cap and gas vent end cap, carry out sealed shutoff processing to inflation inlet and gas vent position respectively, avoid inflation inlet and gas vent department to take place gas leakage, through the insulating rubber circle, carry out insulating protection to the high-voltage line in circular gasbag and the semicircular gasbag and handle, play the effect to the effective isolation of many high-voltage lines, through threading head and play the end of a thread, in the high-voltage line of being convenient for pierces into the insulating rubber circle, shorten the time of leading of high-voltage line.
Drawings
Fig. 1 is a schematic structural diagram of a limiting structure for a new energy high-voltage wire harness;
fig. 2 is a rear view of a limiting structure for a new energy high-voltage wire harness according to the present utility model;
FIG. 3 is a schematic view illustrating the opening of the upper and lower limiting seats according to the present utility model;
FIG. 4 is a partial cross-sectional view of the structure of the upper and lower limiting seats according to the present utility model;
fig. 5 is a front view of the structure of the insulating rubber ring, the threading head and the wire outlet head according to the present utility model.
In the figure: 1. an upper limit seat; 2. a lower limit seat; 3. fastening a screw; 4. a limit structure; 41. an inflation inlet; 42. a total channel; 43. a branch channel; 44. a circular balloon; 45. a connection channel; 46. a semicircular air bag; 47. an exhaust port; 5. an inflation inlet plug; 6. an exhaust port plug; 7. an insulating rubber ring; 8. threading head; 9. and (5) outputting the wire heads.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.
Example 1
Referring to fig. 1-5, a limit structure for new forms of energy high voltage wire harness, including last limit seat 1, the back of going up limit seat 1 is connected with down limit seat 2 through the round pin axle rotation, go up the positive both sides of limit seat 1 and lower limit seat 2 and all integrated into one piece have the ear seat, and the inner chamber threaded connection of ear seat has fastening screw 3, go up limit seat 1 and lower limit seat 2 inner chamber outer lane all offer circular through wires hole all around, go up limit seat 1 and lower limit seat 2 inner chamber center department and offered semicircular through wires hole, be provided with the limit structure 4 that uses with circular through wires hole and semicircular through wires hole cooperation in going up limit seat 1 and the lower limit seat 2, through setting up limit structure 4, by the cooperation of inflation inlet 41, total passageway 42, branch passageway 43, circular gasbag 44, connecting channel 45, semicircular gasbag 46 and gas vent 47, carry out synchronous pneumatic spacing operation to many high voltage wires, replace traditional bolt tightening formula line row step, shorten the spacing man-hour of high voltage wires, satisfy the spacing demand of big high-pressure line.
Example two
Improvement on the basis of the first embodiment: the utility model provides a limit structure for new forms of energy high voltage harness, including last limit seat 1, the back of going up limit seat 1 is connected with lower limit seat 2 through the round pin axle rotation, the positive both sides of going up limit seat 1 and lower limit seat 2 all integrated into one piece has the ear seat, and the inner chamber threaded connection of ear seat has fastening screw 3, circular through wires hole has all been seted up around the inner chamber outer lane of going up limit seat 1 and lower limit seat 2, semicircular through wires hole has been seted up in the center department of going up limit seat 1 and lower limit seat 2 inner chamber, be provided with in going up limit seat 1 and the lower limit seat 2 with circular through wires hole cooperation use limit structure 4, limit structure 4 includes inflation inlet 41, inflation inlet 41 has been seted up at the back of last limit seat 1 and lower limit seat 2, total passageway 42 has been seted up to the outer lane of going up limit seat 1 and lower limit seat 2 inner chamber, total passageway 42 adopts the arc design, the one end intercommunication that total passageway 42 is close to circular through wires hole has a passageway 43, the inner cavity of the circular threading hole is fixedly connected with a circular air bag 44 communicated and matched with the branch passage 43, the branch passage 43 and the circular air bag 44 are distributed in a circumferential shape along the center of the semicircular threading hole, a plurality of high-voltage wires are extruded in a circular limiting mode, the two ends of the total passage 42 close to the semicircular threading hole are communicated with a connecting passage 45, the inner cavity of the semicircular threading hole is fixedly connected with a semicircular air bag 46 communicated and matched with the connecting passage 45, the inner cavities of the circular air bag 44 and the semicircular air bag 46 are respectively provided with an insulating rubber ring 7, the length of the insulating rubber ring 7 is larger than that of the circular air bag 44 and the semicircular air bag 46, the high-voltage wires in the circular air bag 44 and the semicircular air bag 46 are subjected to insulating protection treatment, the effect of effectively isolating the plurality of high-voltage wires is achieved, the threading end of the insulating rubber ring 7 is integrally formed with a threading head 8, the wire outlet end of the insulating rubber ring 7 is integrally formed with a wire outlet head 9, the wire outlet head 8 and the wire outlet head 9 are both in a horn-shaped design, so that a high-voltage wire can conveniently penetrate into the insulating rubber ring 7, the threading time of the high-voltage wire is shortened, wherein the diameter of the insulating rubber ring 7 positioned in the semicircular air bag 46 is larger than that of the insulating rubber ring 7 positioned in the circular air bag 44, the connecting channel 45 and the semicircular air bag 46 are distributed in an axisymmetric manner along the center of the semicircular threading hole, the connecting channel 45 is positioned at the center of the adjacent interval of the branch channel 43, the high-voltage wire in the semicircular air bag 46 is extruded and limited in an up-down balancing manner, one end of the total channel 42, which is far away from the air charging port 41, is communicated with an air outlet 47, the screw thread has all been seted up to the inner of inflation inlet 41 and gas vent 47, and the screw thread is close to inflation inlet 41 and gas vent 47's inner threaded connection respectively has inflation inlet end cap 5 and gas vent end cap 6, carry out sealed shutoff processing to inflation inlet 41 and gas vent 47 position respectively, avoid inflation inlet 41 and gas vent 47 department to take place gas leakage, through setting up limit structure 4, by inflation inlet 41, total passageway 42, branch passageway 43, circular gasbag 44, connecting channel 45, semicircular gasbag 46 and gas vent 47's cooperation, carry out synchronous pneumatic spacing operation to many high-voltage lines, replace traditional bolt tightening formula line row step, shorten the spacing man-hour of high-voltage line, satisfy the spacing demand of big high-pressure line in batches.
In the utility model, a user firstly takes down the fastening screw 3, lifts the upper limit seat 1 from the lower limit seat 2 through the running fit of a pin shaft, then correspondingly passes a plurality of insulating rubber rings 7 into the upper limit seat 1 and the circular air bags 44 and the semicircular air bags 46 in the reserved circular threading holes and the semicircular threading holes of the lower limit seat 2, then tightens the upper limit seat 1 and the lower limit seat 2, then sequentially passes a plurality of high-voltage wires through the threading heads 8 into the insulating rubber rings 7, then passes the wire outlet 9, then respectively takes down the inflation inlet plugs 5 at the positions of the inflation openings 41 on the upper limit seat 1 and the lower limit seat 2, then uses an external small air pump to inject air into the total channel 42, and then correspondingly feeds the air into the circular air bags 44 and the semicircular air bags 46 through the branch channels 43 and the connecting channels 45, and the circular air bags 44 and the semicircular air bags 46 in the same expansion state along with the injection of the air, then the circular extrusion force 44 and the semicircular air bags 46 in the expansion state are applied to the insulating rubber rings 7, then the high-voltage wires can be sequentially threaded into the insulating rubber rings 7 through the threading heads 8, then pass through the inflation inlet plugs 5 at the positions of the inflation inlet 41 and the upper limit seat 2, and the inflation outlet plug 5 can be removed after the high-voltage wires are correspondingly removed from the positions of the air bags 4 and the air bags 4, and the air bags are correspondingly removed from the total channel 4 and the air outlet 4, and the air bag 4 can be completely removed through the position of the inflation outlet plug and the air bags 4 after the high-pressure is completely and the inflation outlet 4, the high-voltage wires are directly drawn out from the insulating rubber ring 7.
The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.
Claims (7)
1. Limiting structure for new energy high-voltage wire harness comprises an upper limiting seat (1), and is characterized in that: the back of going up spacing seat (1) is connected with spacing seat (2) down through the round pin axle rotation, go up spacing seat (1) and spacing seat (2) positive both sides all integrated into one piece down and have the ear seat, and the inner chamber threaded connection of ear seat has fastening screw (3), go up round wire hole all has been seted up around spacing seat (1) and spacing seat (2) inner chamber outer lane down, the center department of going up spacing seat (1) and spacing seat (2) inner chamber down has seted up semicircular wire hole, be provided with in spacing seat (1) and the spacing structure (4) that use with round wire hole and semicircular wire hole cooperation down in spacing seat (2).
2. The limiting structure for the new energy high-voltage wire harness according to claim 1, wherein the limiting structure (4) comprises an inflation inlet (41), the inflation inlet (41) is formed in the back of an upper limiting seat (1) and a lower limiting seat (2), a total channel (42) is formed in the outer ring of the inner cavities of the upper limiting seat (1) and the lower limiting seat (2), one end, close to a circular threading hole, of the total channel (42) is communicated with a branch channel (43), the inner cavity of the circular threading hole is fixedly connected with a circular air bag (44) which is communicated with the branch channel (43), two ends, close to the semicircular threading hole, of the total channel (42) are respectively communicated with a connecting channel (45), the inner cavity of the semicircular threading hole is fixedly connected with a semicircular air bag (46) which is communicated with the connecting channel (45), and one end, far away from the inflation inlet (41), of the total channel (42) is communicated with an exhaust port (47).
3. The limiting structure for the new energy high-voltage wire harness according to claim 2, wherein the total channel (42) is in an arc-shaped design, and the branch channels (43) and the circular air bags (44) are circumferentially distributed along the center of the semicircular threading hole.
4. The limiting structure for the high-voltage wire harness of the new energy source according to claim 2, wherein the connecting channels (45) and the semicircular air bags (46) are distributed in an axisymmetric mode along the center of the semicircular threading hole, and the connecting channels (45) are located at the center of the adjacent intervals of the branch channels (43).
5. The limiting structure for the new energy high-voltage wire harness according to claim 2, wherein screw teeth are respectively arranged at the inner ends of the air charging port (41) and the air discharging port (47), and the inner ends of the screw teeth, which are close to the air charging port (41) and the air discharging port (47), are respectively connected with an air charging port plug (5) and an air discharging port plug (6) in a threaded manner.
6. The limiting structure for the new energy high-voltage wire harness is characterized in that the inner cavities of the circular air bag (44) and the semicircular air bag (46) are respectively provided with an insulating rubber ring (7), and the length of the insulating rubber ring (7) is larger than that of the circular air bag (44) and the semicircular air bag (46).
7. The limiting structure for the new energy high-voltage wire harness is characterized in that a threading head (8) is integrally formed at the threading end of the insulating rubber ring (7), a wire outlet head (9) is integrally formed at the wire outlet end of the insulating rubber ring (7), and both the threading head (8) and the wire outlet head (9) are in a horn-shaped design.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222778836.7U CN219287055U (en) | 2022-10-21 | 2022-10-21 | Limiting structure for new energy high-voltage wire harness |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202222778836.7U CN219287055U (en) | 2022-10-21 | 2022-10-21 | Limiting structure for new energy high-voltage wire harness |
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CN219287055U true CN219287055U (en) | 2023-06-30 |
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CN202222778836.7U Active CN219287055U (en) | 2022-10-21 | 2022-10-21 | Limiting structure for new energy high-voltage wire harness |
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2022
- 2022-10-21 CN CN202222778836.7U patent/CN219287055U/en active Active
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