CN218367393U - New energy automobile is with cable assembly - Google Patents

Abstract

The application provides a guy cable assembly for a new energy automobile, which comprises a first guy cable, a second guy cable and an adjusting component, wherein the adjusting component is connected with the first guy cable and the second guy cable respectively; the adjusting assembly comprises a shell, a first sliding groove and a second sliding groove are formed in the top wall of the shell, a limiting column is arranged on the inner top wall, and an accommodating cavity is formed in the inner top wall; the first adjusting block and the second adjusting block are arranged in the accommodating cavity, adjusting holes matched with the limiting columns are formed in the top walls of the first adjusting block and the second adjusting block, the first adjusting block and the second adjusting block are in sliding fit with the inner bottom wall of the shell, and the first adjusting block and the second adjusting block can move longitudinally in the accommodating cavity; the first pressing piece and the second pressing piece are respectively arranged in the first sliding groove and the second sliding groove and can axially move and longitudinally move in the first sliding groove and the second sliding groove, and the first pressing piece and the second pressing piece are respectively and fixedly connected with the first adjusting piece and the second adjusting piece; the first adjusting block and the second adjusting block are respectively connected with the first inhaul cable and the second inhaul cable.

Description

New energy automobile is with cable assembly

Technical Field

The application relates to a vehicle cable technical field, concretely relates to cable assembly for new energy automobile.

Background

With the development of the times, new energy automobiles occupy a place on the market by virtue of the advantages of environmental protection, energy conservation and low noise, compared with traditional automobiles, the new energy automobiles mostly adopt automatic gear shifting, and partial new energy automobiles such as minivans still use the traditional handle stop lever and a cable assembly to perform partial gear shifting operation.

For the cable assembly, because the cable assembly is mainly used for structures such as gear shifting, braking and the like of a vehicle, damage and faults can be avoided in the frequent use process, at present, most of cable assemblies are usually failed due to bending caused by overlong cable length or over-stretching caused by overlong cable length, and for the problem, the cable assembly with the proper length is generally directly replaced and customized or the cable assembly with the length capable of being adjusted is used in the prior art; however, when the length of the inhaul cable assembly in the prior art is adjusted, tools such as a wrench and the like are generally needed, the operation is complex, the cable assembly preparation efficiency is low, and the labor cost is high; and because the length adjustment scope of prior art's cable assembly is too big, lead to in the cable adjustment process, often need artificially to carry out the fine setting of cable length, guarantee to the at utmost that the cable reaches suitable length, the adjustment accuracy is lower.

Thus, the prior art is subject to further improvement and advancement.

SUMMERY OF THE UTILITY MODEL

The application provides a cable assembly for new energy automobile to solve at least one technical problem among the above-mentioned technical problem.

The technical scheme adopted by the application is as follows:

the application provides a cable assembly for a new energy automobile, which comprises a first cable, a second cable and an adjusting component, wherein the adjusting component is connected with the first cable and the second cable respectively; the adjusting assembly comprises: the top wall of the shell is provided with a first sliding chute and a second sliding chute, the inner top wall of the shell is provided with a limiting column, and an accommodating cavity is formed in the shell; the first adjusting block and the second adjusting block are arranged in the accommodating cavity, the top walls of the first adjusting block and the second adjusting block are provided with adjusting holes matched with the limiting columns, and the first adjusting block and the second adjusting block are in sliding fit with the inner bottom wall of the shell and can move longitudinally in the accommodating cavity; the first pressing piece and the second pressing piece are respectively arranged in the first sliding groove and the second sliding groove and can axially move and longitudinally move in the first sliding groove and the second sliding groove, and the first pressing piece and the second pressing piece are respectively and fixedly connected with the first adjusting piece and the second adjusting piece; first regulating block, second regulating block are connected with first cable, second cable respectively, and under the slip of first pressing part, second pressing part and the action of pressing down, first regulating block and second regulating block drive first cable and the motion of second cable respectively for first regulating block and second regulating block have cable extension position respectively, and initial position and cable shorten the position.

As a preferred embodiment that this application provided, spacing post all is provided with a plurality ofly with the regulation hole, and the quantity of regulation hole is greater than the quantity of spacing post, under the cooperation between first regulating block, second regulating block respectively and first pressing member, the second pressing member, spacing post cooperates with the regulation hole of difference respectively for first regulating block, second regulating block carry out the position switch.

As a preferred embodiment provided by the application, the bottom walls of the first adjusting block and the second adjusting block are respectively provided with a buffer component, and the bottom walls of the buffer components are in sliding connection with the inner bottom wall of the shell.

As a preferred embodiment provided herein, a cushion assembly includes: the top plate is connected with the bottom walls of the first adjusting block and the second adjusting block; the bottom plate is connected with the inner bottom wall of the shell in a sliding manner; the elastic piece is arranged between the top plate and the bottom plate.

As a preferred embodiment provided by the application, the inner bottom wall of the shell is provided with a slide way and a slide block which are matched with each other, and the slide block is connected with the bottom plate so as to realize the sliding of the first adjusting block and the second adjusting block.

As a preferred embodiment provided by the present application, the bottom walls of the first pressing piece and the second pressing piece are both provided with a connecting rod, the connecting rod penetrates through the first sliding groove, the second sliding groove and the top wall of the housing, and the connecting rod is respectively fixedly connected with the first adjusting block and the second adjusting block.

As an optimal implementation mode that this application provided, the interior diapire of first spout and second spout all seted up with connecting rod matched with bar hole, the connecting rod can carry out axial motion along bar hole.

As a preferred embodiment that this application provided, the surface of first spout and second spout all is provided with the scale, and the scale of scale corresponds with the position of adjusting the hole.

As a preferred embodiment that this application provided, the both sides of casing are provided with respectively and enable the connecting hole that first cable and second cable passed through, and the diameter of connecting hole is greater than the diameter of first cable and the second cable.

As a preferred embodiment provided by the application, the ends of the first pull cable and the second pull cable far away from the adjusting assembly are both provided with pull heads.

Due to the adoption of the technical scheme, the technical effects obtained by the application are as follows:

1. the application provides a cable assembly for a new energy automobile, which can enable a first pressing piece and a second pressing piece to respectively drive the first adjusting block and the second adjusting block to move through the matching of the first adjusting block and the second adjusting block with the first pressing piece and the second pressing piece, and enable a user to adjust the length of the cable without the help of other auxiliary tools (such as a wrench, a screwdriver and the like) due to the arrangement of the pressing pieces; specifically, a user can press the first pressing piece and the second pressing piece to enable the first adjusting block and the second adjusting block to move longitudinally on the inner bottom wall of the shell and enable the adjusting hole to be separated from the limiting column, under the axial movement of the first pressing piece and the second pressing piece, the first adjusting block and the second adjusting block move to a preset inhaul cable extending position, an initial position and an inhaul cable shortening position are shortened, the pressing pieces are loosened, the adjusting hole and the limiting column can be inserted again, and the first adjusting block and the second adjusting block are fixed; this application is through the setting of three preset position, provides different cable length options for the user, can avoid the user to carry out loaded down with trivial details fine setting work when carrying out length adjustment in the at utmost, only need carry out the length adjustment that the cable can be accomplished in the switching between the three position through the pressing piece, can be so that the length adjustment of cable is more accurate to can reduce the adjust time of cable assembly as far as.

2. As an optimal implementation mode of this application, this application is greater than the quantity of spacing post through the quantity that sets up the regulation hole, can ensure first regulating block and second regulating block in the regulation that carries out the position to the at utmost for every spacing post all can cooperate with the regulation hole, can improve the bulk strength of cable assembly, with prevent length adjustment back to the at utmost, partial spacing post does not peg graft with the regulation hole, the condition that leads to the tensile messenger of cable to take place fracture or slippage between regulation hole and the spacing post.

3. As a preferred embodiment of the inhaul cable assembly, the buffering assembly is arranged, so that after the first pressing piece and the second pressing piece respectively press the first adjusting block and the second adjusting block and move to different positions, the first pressing piece and the second pressing piece can quickly rebound, the inhaul cable assembly can be adjusted more conveniently, and the inhaul cable assembly can be moved to other positions conveniently; further, in the normal course of operation of cable assembly, the buffering subassembly can also prevent to the at utmost that first pressing piece and second pressing piece from taking place because of the condition that the collision pressed respectively in first spout and the second spout, can reduce the incidence of accident, can also play certain buffering and inhale shake effect in the use of cable.

4. As an optimal implementation mode of this application, this application can make more audio-visual observation cable extension position of user through the setting of scale, and initial position and cable shorten the concrete position of position, can improve the length adjustment precision of cable assembly.

5. As a preferred embodiment of the present application, the diameter of the connection hole is larger than the diameters of the first cable and the second cable, so that the first cable and the second cable can easily pass through the connection hole; on the other hand, can carry out longitudinal movement when first regulating block and second regulating block, provide sufficient space for first cable and second cable and move, can reduce the wearing and tearing that first cable and second cable take place because of the longitudinal movement of regulating block and the inner wall of connecting hole to a certain extent, can improve the life of first cable and second cable.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the application and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of a cable assembly for a new energy vehicle provided by the present application;

FIG. 2 is a schematic structural view of an adjustment assembly provided herein;

FIG. 3 is a schematic structural view of another adjustment assembly provided herein;

FIG. 4 is a schematic structural view of yet another adjustment assembly provided herein;

fig. 5 is a schematic connection diagram of a cable assembly and other components of a new energy vehicle provided by the present application.

Reference numerals:

100 first pull ropes, 110 pull heads, 120 balancing weights and 200 second pull ropes;

300 adjusting component, 301 shell, 302 first sliding chute, 303 second sliding chute, 304 first adjusting block, 305 second adjusting block, 306 first pressing piece, 307 second pressing piece, 308 spacing post, 3081 first spacing post, 3082 second spacing post, 309 adjusting hole, 3091 shortening adjusting hole, 3092 first middle adjusting hole, 3093 second middle adjusting hole, 3094 extending adjusting hole and connecting rod 310;

401 bottom plate, 402 elastic element, 403 sliding block, 404 slideway, 405 wear ring, 500 gear box, 600 handle gear lever.

Detailed Description

In order to more clearly explain the overall concept of the present application, the following detailed description is given by way of example in conjunction with the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, however, the present application may be practiced in other ways than those described herein, and therefore the scope of the present application is not limited by the specific embodiments disclosed below.

In addition, in the description of the present application, it is to be understood that the terms "top," "bottom," "inner," "outer," "axial," "radial," "circumferential," and the like refer to orientations or positional relationships based on those illustrated in the drawings, merely to facilitate description of the application and to simplify description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered limiting of the present application.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; the connection can be mechanical connection, electrical connection or communication; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, a first feature is "on" or "under" a second feature such that the first and second features are in direct contact, or the first and second features are in indirect contact via an intermediary. In the description of the present specification, reference to the description of "one embodiment," "some embodiments," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

As shown in fig. 1, the present application provides a cable assembly for a new energy vehicle, which may include a first cable 100, a second cable 200, and an adjusting assembly 300 connected to the first cable 100 and the second cable 200, respectively.

The first cable 100 and the second cable 200 can be both steel wire inner cores (not shown in the figure), and are made by wrapping rubber soft sleeves (not shown in the figure), the steel wire inner cores can improve the strength of the first cable 100 and the second cable 200, and the rubber soft sleeves can reduce the abrasion of the first cable 100 and the second cable 200 to the maximum extent; optionally, a spiral supporting wire (not shown in the figure) may be further disposed between the steel wire inner core and the inner wall of the rubber soft sleeve, so that the bending resistance of the first cable 100 and the second cable 200 can be improved to a certain extent, and the occurrence of breakage is reduced.

Further, as shown in fig. 2, the adjusting assembly 300 includes: a housing 301, a first adjustment block 304, a second adjustment block 305, a first pressing piece 306, and a second pressing piece 307. The top wall of the shell 301 is provided with a first sliding chute 302 and a second sliding chute 303, the inner top wall of the shell 301 is provided with a limiting column 308, and the interior of the shell 301 is provided with an accommodating cavity (not marked in the figure).

It is understood that the top wall of the housing 301 is not a smooth planar structure, and a portion of the side walls of the first sliding chute 302 and the second sliding chute 303 may protrude from the top wall of the housing 301, and another portion may extend into the accommodating cavity.

The first adjusting block 304 and the second adjusting block 305 are both disposed in the accommodating cavity, the top walls of the first adjusting block and the second adjusting block are both provided with adjusting holes 309 matched with the limiting posts 308, and both are in sliding fit with the inner bottom wall of the housing 301 and can move longitudinally in the accommodating cavity. The limiting column 308 and the adjusting hole 309 can be connected in a plugging (clearance fit) manner, so that the limiting column 308 and the adjusting hole 309 can be connected and separated conveniently.

It should be noted that a certain gap is formed between the side walls of the first adjusting block 304 and the second adjusting block 305 and the inner wall of the accommodating cavity, so that the movement of the first adjusting block 304 and the second adjusting block 305 in the accommodating cavity can be ensured to the greatest extent.

The first pressing element 306 and the second pressing element 307 are respectively disposed in the first sliding slot 302 and the second sliding slot 303, and can axially move and longitudinally move in the first sliding slot 302 and the second sliding slot 303, and the first pressing element 306 and the second pressing element 307 are respectively fixedly connected with the first adjusting element and the second adjusting element.

The bottom walls of the first pressing piece 306 and the second pressing piece 307 are both provided with a connecting rod 310, the connecting rod 310 penetrates through the first sliding chute 302, the second sliding chute 303 and the top wall of the housing 301, and the connecting rod 310 is respectively fixedly connected with the first adjusting block 304 and the second adjusting block 305.

Further, the inner bottom walls of the first sliding chute 302 and the second sliding chute 303 are provided with strip-shaped holes matched with the connecting rod 310, and the connecting rod 310 can move axially along the strip-shaped holes. It can be understood that the connecting rod 310 and the limiting column 308 are distributed in a staggered manner, so that the connecting rod 310 and the limiting column can be prevented from being influenced with each other to the greatest extent in the moving process of the first pressing piece 306 and the second pressing piece 307.

As a preferred embodiment of the present application, as shown in fig. 2 to 4, a plurality of limiting posts 308 and a plurality of adjusting holes 309 are provided, and the number of the adjusting holes 309 is greater than the number of the limiting posts 308, so that the limiting posts 308 can be prevented from being broken due to the fact that the limiting posts 308 are not disposed in the adjusting holes 309 to the greatest extent.

Under the condition that the first adjusting block 304 and the second adjusting block 305 can be respectively matched with the first pressing piece 306 and the second pressing piece 307, the limiting columns 308 are respectively matched with different adjusting holes 309, so that the first adjusting block 304 and the second adjusting block 305 can be switched in position.

Specifically, the first adjusting block 304 and the second adjusting block 305 may be connected to the first cable 100 and the second cable 200, respectively, and under the sliding and pressing actions of the first pressing piece 306 and the second pressing piece 307, the first adjusting block 304 and the second adjusting block 305 drive the first cable 100 and the second cable 200 to move, respectively, so that the first adjusting block 304 and the second adjusting block 305 have a cable extending position, an initial position, and a cable shortening position, respectively.

It should be noted that, stay cable extension position, initial position with the stay cable shortens the cable assembly length adjustment position of the mainstream motorcycle type that the position was released for the energy car manufacturer, can respond to the cable length problem of mainstream motorcycle type to the at utmost to this satisfies most of customer's demand, and then avoids time, the cost of labor that special customization and maintenance brought to the at utmost.

As shown in fig. 2 to 4, as a specific embodiment of the present application, the limiting post 308 may be divided into a first limiting post 3081 and a second limiting post 3082, the adjusting hole 309 may be divided into a shortened adjusting hole 3091, a first middle adjusting hole 3092, a second middle adjusting hole 3093 and an extended adjusting hole 3094, and the adjusting holes 309 of the first adjusting block 304 and the second adjusting block 305 are symmetrically disposed along the center of the axis of the housing 301, that is, the first adjusting block 304 and the second adjusting block 305 are each provided with the extended adjusting hole 3094, the first middle adjusting hole 3092, the second middle adjusting hole 3093 and the shortened adjusting hole 3091; similarly, first spacing post 3081, second spacing post 3082 can be provided with two respectively equally, follow equally the axis central symmetry of casing 301 sets up, and respectively with first regulating block 304, the regulation hole 309 phase-match of second regulating block 305, make first regulating block 304 correspond one first spacing post 3081, the spacing post 3082 of a second, second regulating block 305 corresponds one similarly first spacing post 3081, the spacing post 3082 of second.

As a preferred embodiment of the present application, scales (not shown in the figure) are disposed on the surfaces of the first sliding chute 302 and the second sliding chute 303, and the scales of the scales correspond to the positions of the adjusting holes 309. That is, the scale may have marks indicating the shortening adjustment hole 3091, the first intermediate adjustment hole 3092, the second intermediate adjustment hole 3093 and the extension adjustment hole 3094 on the surface thereof, and may have marks indicating the cable extending position, the cable shortening position and the initial position on the surface thereof.

As a specific embodiment of the present application, as shown in fig. 2, when the first adjusting block 304 and the second adjusting block 305 are at the initial positions, the first limiting post 3081 and the second limiting post 3082 are respectively inserted into the first middle adjusting hole 3092 and the second middle adjusting hole 3093.

As shown in fig. 3, a user may press the first pressing member 306 and the second pressing member 307, so that the first adjusting block 304 and the second adjusting block 305 move downward, and the first retaining pin 3081 and the second retaining pin 3082 are separated from the first intermediate adjusting hole 3092 and the second intermediate adjusting hole 3093, respectively; the first pressing piece 306 and the second pressing piece 307 move back to the mark of the shortened position of the scale cable, so that the first adjusting block 304 and the second adjusting block 305 can be driven to move respectively, the first pressing piece 306 and the second pressing piece 307 are loosened, the first adjusting block 304 and the second adjusting block 305 can move upwards, the first limiting column 3081 and the second limiting column 3082 are connected with the shortened adjusting hole 3091 and the first middle adjusting hole 3092 respectively, the first adjusting block 304 and the second adjusting block 305 can be fixed at the shortened position of the scale cable, and the total length of the scale cable is shortened.

As shown in fig. 4, the first adjusting block 304 and the second adjusting block 305 are located at the cable extending position, and compared with the first adjusting block 304 and the second adjusting block 305 located at the cable shortening position, the difference is that the first pressing piece 306 and the second pressing piece 307 move relatively to the mark of the scale cable extending position, so that the first limiting post 3081 and the second limiting post 3082 are respectively connected with the second middle adjusting hole 3093 and the cable extending adjusting hole 3094, and the first adjusting block 304 and the second adjusting block 305 can be fixed at the cable extending position, and the overall length of the cable is extended.

It can be understood that the first adjusting block 304 and the second adjusting block 305 can move synchronously or individually, for example, the first adjusting block 304 is in the initial position, and the second adjusting block 305 is in the cable shortening position, which can also achieve the effect of shortening the cable length; or, the first adjusting block 304 is in the cable extending position, and the second adjusting block 305 is in the initial position, so that the effect of extending the length of the cable can be achieved. Through this kind of mode of setting, can be when the cable assembly of new forms of energy car goes wrong, under the prerequisite that does not destroy cable assembly's regulation precision, for it provides more optional regulation length.

As shown in fig. 1 to 4, as a preferred embodiment of the present application, the bottom walls of the first adjusting block 304 and the second adjusting block 305 are respectively provided with a buffer assembly (not marked in the figures), and the bottom wall of the buffer assembly is slidably connected with the inner bottom wall of the housing 301.

As shown in fig. 2, the buffer assembly includes a top plate (not labeled), a bottom plate 401 and an elastic member 402; the top plate is connected with the bottom walls of the first regulating block 304 and the second regulating block 305; the bottom plate 401 is slidably connected with the inner bottom wall of the shell 301; the elastic member 402 is disposed between the top plate and the bottom plate 401. Furthermore, the top plate and the bottom plate 401 may be made of elastic materials such as rubber resin, etc., so as to improve the buffering effect of the buffering assembly; the elastic member 402 may be a compression spring, which can rapidly return the first pressing member 306 and the second pressing member 307 to the initial position.

As an alternative embodiment of the present application, the inner bottom wall of the housing 301 is provided with a slide 404 and a slide 403 which are matched with each other, and the slide 403 is connected with the bottom plate 401 to realize the sliding of the first adjusting block 304 and the second adjusting block 305.

Preferably, both sides of the housing 301 are respectively provided with a connection hole (not marked in the figures) through which the first cable 100 and the second cable 200 can pass, and the diameter of the connection hole is larger than that of the first cable 100 and the second cable 200. In addition, the joints of the first adjusting block 304 and the second adjusting block 305 with the first cable 100 and the second cable 200, respectively, and the joints of the connecting holes with the first cable 100 and the second cable 200, respectively, may be provided with wear-resistant rings 405, and the wear-resistant rings 405 may be made of rubber materials, so that the wear resistance of the first cable 100 and the second cable 200 can be improved, and the connection strength between the first cable 100 and the second cable 200 and the first adjusting block 304 and the second adjusting block 305 can be improved to a certain extent.

As shown in fig. 1, as a specific embodiment of the present application, the ends of the first cable 100 and the second cable 200 away from the adjusting assembly 300 are each provided with a slider 110. The slider 110 may be detachably connected to the first cable 100 and the second cable 200, for example, by a bolt connection or a snap connection, and the slider 110 may be replaced and adjusted when damaged or different models of new energy vehicles are used.

As shown in fig. 5, it can be understood that either one of the sliders 110 at the first cable 100 or the second cable 200 may be connected to a manual control element such as a handle lever 600, and the other slider 110 may be connected to an internal structure such as a transmission case 500, so as to implement functions such as shifting.

Further, as shown in fig. 1, the cable assembly may further include a weight block 120 disposed between the slider 110 and the adjusting component 300, and the weight block 120 may be disposed near the slider 110 to increase the weight of the first cable 100 and the second cable 200 through the weight block 120, so as to reduce the vibration of the cable assembly.

Where not mentioned in this application, can be accomplished using or referencing existing technology.

The embodiments in the present specification are described in a progressive manner, and the same and similar parts among the embodiments are referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement or the like made within the spirit and principle of the present application shall be included in the scope of the claims of the present application.

Claims (10)

1. The inhaul cable assembly for the new energy automobile is characterized by comprising a first inhaul cable, a second inhaul cable and an adjusting component, wherein the adjusting component is connected with the first inhaul cable and the second inhaul cable respectively;

the adjustment assembly includes:

the top wall of the shell is provided with a first sliding chute and a second sliding chute, the inner top wall of the shell is provided with a limiting column, and an accommodating cavity is formed in the shell;

the first adjusting block and the second adjusting block are arranged in the accommodating cavity, adjusting holes matched with the limiting columns are formed in the top walls of the first adjusting block and the second adjusting block, the first adjusting block and the second adjusting block are in sliding fit with the inner bottom wall of the shell, and the first adjusting block and the second adjusting block can move longitudinally in the accommodating cavity;

the first pressing piece and the second pressing piece are respectively arranged in the first sliding groove and the second sliding groove and can axially move and longitudinally move in the first sliding groove and the second sliding groove, and the first pressing piece and the second pressing piece are respectively and fixedly connected with the first adjusting piece and the second adjusting piece;

the first adjusting block and the second adjusting block are respectively connected with the first cable and the second cable, and under the sliding and pressing actions of the first pressing piece and the second pressing piece, the first adjusting block and the second adjusting block respectively drive the first cable and the second cable to move, so that the first adjusting block and the second adjusting block respectively have cable extending positions, and initial positions and cable shortening positions.

2. The cable assembly according to claim 1, wherein a plurality of limiting posts and a plurality of adjusting holes are provided, and the number of adjusting holes is greater than that of limiting posts, and when the first adjusting block and the second adjusting block are respectively engaged with the first pressing member and the second pressing member, the limiting posts are respectively engaged with different adjusting holes, so that the first adjusting block and the second adjusting block are switched between positions.

3. The cable assembly for the new energy automobile as claimed in claim 2, wherein the bottom walls of the first adjusting block and the second adjusting block are respectively provided with a buffer component, and the bottom wall of the buffer component is slidably connected with the inner bottom wall of the housing.

4. The cable assembly for a new energy automobile of claim 3, characterized in that, the buffer component comprises:

the top plate is connected with the bottom walls of the first adjusting block and the second adjusting block;

the bottom plate is connected with the inner bottom wall of the shell in a sliding mode;

and the elastic piece is arranged between the top plate and the bottom plate.

5. The cable assembly according to claim 4, wherein the inner bottom wall of the housing is provided with a slide rail and a slide block which are matched with each other, and the slide block is connected with the bottom plate to realize sliding of the first adjusting block and the second adjusting block.

6. The cable assembly for a new energy automobile as claimed in claim 2, wherein a connecting rod is disposed on each of bottom walls of the first pressing member and the second pressing member, the connecting rod penetrates through the first sliding groove, the second sliding groove and a top wall of the housing, and the connecting rod is fixedly connected to the first adjusting block and the second adjusting block respectively.

7. The guy cable assembly for the new energy automobile as claimed in claim 6, wherein the inner bottom walls of the first and second chutes are both provided with a strip-shaped hole matched with the connecting rod, and the connecting rod can move axially along the strip-shaped hole.

8. The cable assembly for the new energy automobile as claimed in claim 7, wherein a graduated scale is disposed on each of the surfaces of the first sliding groove and the second sliding groove, and the graduation of the graduated scale corresponds to the position of the adjusting hole.

9. The cable assembly for a new energy vehicle as claimed in claim 8, wherein connecting holes through which the first cable and the second cable can pass are respectively provided at both sides of the housing, and a diameter of the connecting holes is larger than a diameter of the first cable and a diameter of the second cable.

10. The cable assembly for the new energy automobile as claimed in claim 1, wherein a slider is disposed at each end of the first cable and the second cable away from the adjusting component.

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