CN215850828U - Charging module mounting frame, charging module mounting structure and charging pile - Google Patents

Abstract

The utility model discloses a charging module mounting rack, a charging module mounting structure and a charging pile, wherein the charging module mounting rack comprises a rack body, and the rack body is provided with: the charging rack comprises a placing structure for placing a charging module, a module fixing structure for fixing the charging module, and a mounting rack fixing structure for rack body, wherein the rack body is of an integrated structure. The charging module mounting frame realizes the placement and fixation of the charging module by arranging the placement structure and the module fixing structure on the frame body, and realizes the fixation of the frame body by arranging the mounting frame fixing structure on the frame body; meanwhile, the frame body is of an integrated structure, the frame body does not need to be assembled, and compared with an existing mounting frame needing to be assembled, parts are effectively reduced, the structure is simplified, so that the assembly efficiency is improved, the labor cost is reduced, and the manufacturing cost is also reduced.

Description

Charging module mounting frame, charging module mounting structure and charging pile

Technical Field

The utility model relates to the technical field of charging piles, in particular to a charging module mounting frame, a charging module mounting structure and a charging pile.

Background

Along with the popularization and the use of electric motor cars, fill electric pile by wide application gradually. In filling electric pile, the module that charges mainly installs through the mounting bracket.

At present, an installation frame is mainly formed by assembling a plurality of sheet metal parts, so that the installation efficiency is low, and the labor cost is high; the number of parts of the mounting bracket is large, resulting in high manufacturing cost.

In addition, the mounting frame needs a plurality of screws to fix in the assembling process, and the mounting effect of the mounting frame on the charging module is easily influenced by the assembling precision.

In addition, the sheet metal part has certain processing and assembling errors, so that the structure of the whole mounting frame has errors, and the charging module is not easy to insert, pull and fasten; vibration is easy to generate in the transportation or operation process, so that the structure of the mounting frame is easy to loosen and fall off, and potential safety hazards exist.

To sum up, how to design the charging module mounting rack to improve the assembly efficiency and reduce the labor cost and the manufacturing cost is a problem to be solved urgently by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a charging module mounting rack to improve assembly efficiency and reduce labor cost and manufacturing cost. Another object of the present invention is to provide a charging module mounting structure including the above charging module mounting bracket, and a charging pile including the above charging module mounting structure.

In order to achieve the purpose, the utility model provides the following technical scheme:

a charging module mounting bracket, includes a bracket body, the bracket body is provided with: the structure of placing, be used for fixing for placing the module of charging the module fixed knot who charges constructs and is used for the mounting bracket fixed knot who puts up the body constructs, just put up body formula structure as an organic whole.

Optionally, the placing structure includes at least one placing position for placing the charging module, and the placing positions are in one-to-one correspondence with the charging modules;

the charging module mounting frame further comprises a guide component arranged on the frame body, the guide component is located on two sides of the placing position and used for guiding the charging module to come in and go out, and the guide component and the frame body are of an integrated structure.

Optionally, if the number of the placing positions is one, the guide component is a structural member manufactured by a stamping process and a bending process on the frame body, or the guide component is a structural member manufactured by a bending process on the frame body;

if the number of the placing positions is more than two, at least one guide part is a structural part manufactured by the frame body through a stamping process and a bending process.

Optionally, the rack body is provided with: the input fixing structure is used for fixing the input piece of the charging module, and the output fixing structure is used for fixing the output piece of the charging module.

Optionally, the placing structure includes at least one placing position for placing the charging module, and the input fixing structure and the output fixing structure are respectively located at two sides of the placing position.

Optionally, the input fixing structure and the output fixing structure are both first press-riveting nuts press-riveted to the frame body.

Optionally, the rack body is provided with a vent for exposing the charging module.

Optionally, the rack body is provided with: an input fixing structure for fixing an input member of the charging module, and an output fixing structure for fixing an output member of the charging module; wherein the input securing structure and the output securing structure are both located at the vent.

Optionally, the inner wall of the vent is provided with a reinforcing flange, and the reinforcing flange and the frame body are of an integrated structure.

Optionally, the module fixing structure is a second press-riveting nut press-riveted to the frame body, and the mounting frame fixing structure is a fixing hole.

Optionally, the frame body is a bent structure.

Optionally, the placing structure is a structure for vertically placing the charging module.

Optionally, the rack body comprises: the top of the side plate is fixedly connected with the top plate, the bottom of the side plate is fixedly connected with the bottom plate, the bottom connecting plate is fixedly connected with the bottom plate, and the top connecting plate is fixedly connected with the top;

the bottom plate, the side plates and the top plate form the placing structure, the module fixing structure is arranged on the bottom connecting plate and the top connecting plate, and the mounting frame fixing structure is arranged on the bottom connecting plate and the top connecting plate.

According to the charging module mounting frame provided by the utility model, the placing structure and the module fixing structure are arranged on the frame body to realize the placing and fixing of the charging module, and the mounting frame fixing structure on the frame body is used for fixing the frame body; meanwhile, the frame body is of an integrated structure, the frame body does not need to be assembled, and compared with an existing mounting frame needing to be assembled, parts are effectively reduced, the structure is simplified, so that the assembly efficiency is improved, the labor cost is reduced, and the manufacturing cost is also reduced.

Based on the charging module mounting rack provided above, the utility model also provides a charging module mounting structure, which includes: the charging pile comprises a charging pile box body, a mounting frame fixed on the charging pile box body, and a charging module fixed on the mounting frame; wherein, the mounting bracket is any one of the above-mentioned charging module mounting bracket.

Based on the charging module installation structure, the utility model also provides a charging pile which comprises the charging module installation structure.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a charging module mounting rack according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a charging module mounting rack in another direction according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a charging module mounted on a charging module mounting bracket according to an embodiment of the present invention;

fig. 4 is a front view of the structure shown in fig. 3.

Detailed Description

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

As shown in fig. 1 to 4, the charging module mounting bracket provided in the embodiment of the present invention includes a bracket body, and the bracket body is provided with: a placing structure for placing the charging module 200, a module fixing structure 109 for fixing the charging module 200, and a mounting bracket fixing structure 106 for fixing the charging module mounting bracket, and the bracket body is of an integral structure.

In the charging module mounting frame provided in the above embodiment, the placement and fixation of the charging module 200 are realized by providing the placement structure and the module fixing structure 109 on the frame body, and the fixation of the frame body is realized by mounting the frame fixing structure 106 on the frame body; meanwhile, the frame body is of an integrated structure, the frame body does not need to be assembled, and compared with an existing mounting frame needing to be assembled, parts are effectively reduced, the structure is simplified, so that the assembly efficiency is improved, the labor cost is reduced, and the manufacturing cost is also reduced.

Meanwhile, in the charging module mounting frame provided by the embodiment, the frame body is of an integrated structure, so that the mounting precision is improved, and the quick mounting and fastening of the charging module 200 can be ensured, thereby ensuring the mounting effect of the charging module 200 and facilitating the plugging and unplugging of the charging module 200.

The specific structure of the placing structure is selected according to actual needs. To facilitate the installation of the charging module 200, the placement structure may include at least one placement position a for placing the charging module 200, and the placement position a is configured to correspond to the charging module 200 one to one.

The number of the placing positions A can be one, or more than two, and the placing positions A can be selected according to actual needs. If the number of the placing positions a is two or more, the distribution direction of any two placing positions a is perpendicular to the entrance and exit direction of the charging module 200. The entrance and exit direction of the charging module 200 is the direction in which the charging module 200 enters and exits the placement position a.

In order to facilitate the charging module 200 to come in and go out and place position A, the above-mentioned module mounting bracket that charges still includes the guide part 111 that sets up in the frame body, and this guide part 111 is located the both sides of placing position A, and guide part 111 is used for providing the direction for the discrepancy of charging module 200, and guide part 111 and frame body formula structure as an organic whole.

It is understood that the guide member 111 on one side of the placing position a is a first guide member, the guide member 111 on the other side of the placing position a is a second guide member, and the distribution direction of the first guide member and the second guide member is perpendicular to the entering and exiting direction of the charging module 200. The number of the guide members 111 may be one or more than two along the moving direction of the charging module 200, and is selected according to actual needs, which is not limited in this embodiment.

If the placing position a is one, the selectable guide part 111 is a structural member manufactured by a stamping process and a bending process on the frame body, and at the moment, the frame body is provided with stamping holes, so that the weight of the whole frame body is reduced, and the heat dissipation of the charging module 200 is facilitated; alternatively, the guide member 111 may be a structural member formed by bending the frame body.

If the number of the placing positions a is two or more, the at least one guide member 111 is a structural member manufactured by a stamping process and a bending process on the frame body. At this time, there are at least three guide members 111, wherein two guide members 111 are located at both ends and at least one guide member 111 is located in the middle in the distribution direction of the first and second guide members. For convenience of description, the guide members 111 located at the end portions are referred to as end portion guide members, the guide members 111 located at the middle portions are referred to as middle guide members, the end portion guide members may be selected as structural members manufactured by a bending process on the shelf body, and the middle guide members may be selected as structural members manufactured by a stamping process and a bending process on the shelf body.

In the above-mentioned charging module fixing frame, a gap is formed between the guiding component 111 and the charging module 200, so that the charging module 200 can be inserted and pulled out conveniently. Of course, the guide member 111 may be in contact with the charging module 200, and is not limited to the above limitation.

In the above-mentioned module mount that charges, treat the installation back of charging module 200, guide part 111 can realize the spacing to charging module 200, and charging module 200 is difficult for receiving the vibration and the pine takes off in transportation or use, has reduced the potential safety hazard, has improved fail safe nature.

Above-mentioned charging module 200 has input piece and output piece, in order to improve fixed effect, can select above-mentioned frame body to be provided with: an input fixing structure 107 for fixing an input of the charging module 200, and an output fixing structure 108 for fixing an output of the charging module 200.

It is understood that the input fixing structure 107 and the output fixing structure 108 are in one-to-one correspondence with the charging modules 200.

For improving safety reliability, the input fixing structure 107 and the output fixing structure 108 may be selected to be respectively located at both sides of the placement position a.

Further, the height of the input fixing structure 107 and the output fixing structure 108 is different, for example, the input fixing structure 107 is higher than the output fixing structure 108.

The specific structure of the input fixing structure 107 and the output fixing structure 108 is selected according to actual needs. Specifically, the input fixing structure 107 and the output fixing structure 108 are both fixing holes, or the input fixing structure 107 and the output fixing structure 108 are both first press-riveting nuts press-riveted to the frame body. The latter may be chosen in order to simplify the installation. At this time, the entire frame body may be an integrated structural member manufactured by a bending process, a stamping process, and a press-riveting process.

It should be noted that, if the input fixing structure 107 and the output fixing structure 108 are both fixing holes, the fixing holes may be holes formed by a punching process.

The configuration of the input and output fixtures 107, 108 described above also depends on the specific configuration of the inputs and outputs.

Specifically, if the input member of the charging module 200 is an input terminal, the input fixing structure 107 may include two fixing holes, and an accommodating structure for accommodating the input terminal is provided between the two fixing holes, such as a through hole or an opening; alternatively, the input fixing structure 107 includes two first clinch nuts, and a receiving structure, such as a through hole or an opening, for receiving the input terminal is provided between the two first clinch nuts.

If the output member of the charging module 200 is an output terminal, the output fixing structure 108 may include two fixing holes, and an accommodating structure for accommodating the output terminal is provided between the two fixing holes, such as a through hole or an opening; alternatively, the output fixing structure 108 includes two first clinch nuts, and a receiving structure, such as a through hole or an opening, for receiving the input terminal is provided between the two first clinch nuts.

In order to improve the heat dissipation effect and improve the operation efficiency of the charging module 200, the frame body is provided with a vent 110 for exposing the charging module 200.

It should be noted that the provision of the ventilation opening 110 is required to ensure the structural strength of the entire rack body. The size, shape and number of the vents 110 are selected according to actual needs. For ease of manufacturing, the vent 110 may be selected to be a hole made by a stamping process. The ventilation opening 110 may be an air outlet or an air inlet, which is selected according to actual needs and is not limited in this embodiment.

In order to reduce wind resistance, improve heat dissipation effect, and simplify the structure, the vent 110 and the placement position a may be selected to correspond one to one, that is, the vent 110 is used to correspond one to one with the charging module 200. In this case, the larger the vent 110, the better the structural strength is ensured.

If the rack body is provided with an input fixing structure 107 and an output fixing structure 108, the input fixing structure 107 and the output fixing structure 108 may be selected to be located at the vent 110.

In the above-mentioned module mounting bracket that charges, if set up vent 110, then can reduce the structural strength of whole frame body, then at the in-process of plug module 200 that charges, the in-process of putting the structure in cominging in and going out of module 200 that charges promptly, easily assaults a body more, leads to putting up the body and is easily out of shape. In order to solve the above problems, the inner wall of the ventilation opening 110 is provided with a reinforcing flange 112, and the reinforcing flange 112 and the frame body are of an integral structure.

In the above structure, the structural strength of the entire rack body is improved by reinforcing the flanges 112, thereby reducing the probability of deformation of the rack body.

In practical applications, the reinforcing flange 112 may be a structural member manufactured by a bending process.

In the charging module mounting bracket, the specific structure of the module fixing structure 109 is selected according to actual needs, for example, the module fixing structure 109 may be a second press-riveting nut press-riveted to the bracket body, or the module fixing structure 109 may be a fixing hole.

In the above-mentioned charging module mounting frame, for the specific structure of the mounting frame fixing structure 106, it is selected according to actual needs, for example, the mounting frame fixing structure 106 may be selected as a fixing hole, or the mounting frame fixing structure 106 may be a second press-riveting nut press-riveted to the frame body. At this time, the entire frame body may be an integrated structural member manufactured by a bending process, a stamping process, and a press-riveting process.

It should be noted that the fixing hole may be a hole formed by a punching process.

In the above-mentioned module mounting bracket that charges, to the specific type of frame body, select according to actual need. In order to facilitate the realization of an integrated structure, the optional frame body is a bending structural part. Further, the frame body is a sheet metal bending piece. Of course, the rack body is also selected to be a structural member manufactured by wire cutting, and is not limited to the above limitation.

In the above-mentioned charging module mounting bracket, the placing structure may be a structure for placing the charging module 200 horizontally, or a structure for placing the charging module 200 vertically. To facilitate the installation, the latter, i.e., the placement structure, may be selected as a structure for vertically placing the charging module 200, as shown in fig. 3 and 4, in which the long side of the end surface of the charging module 200 is in the vertical direction and the narrow side of the end surface of the charging module 200 is in the horizontal direction. The end surface of the charging module 200 is perpendicular to the length direction of the charging module 200.

Among the above-mentioned module mounting bracket that charges, to the concrete structure of frame body, select according to actual need. For the convenience of installation, the rack body can be selected to comprise: the bottom plate 101, the side plate 102, the top plate 103, the bottom connecting plate 104 and the top connecting plate 105, the top of the side plate 102 is fixedly connected with the top plate 103, the bottom of the side plate 102 is fixedly connected with the bottom plate 101, the bottom connecting plate 104 is fixedly connected with the bottom plate 101, and the top connecting plate 105 is fixedly connected with the top 103.

Specifically, the bottom plate 101, the side plate 102 and the top plate 103 form a placement structure, the module fixing structure 109 is disposed on the bottom connecting plate 104 and the top connecting plate 105, and the mounting bracket fixing structure 106 is disposed on the bottom connecting plate 104 and the top connecting plate 105.

It will be appreciated that the top plate 103 and the bottom plate 101 are on the same side of the side plate 102, and for ease of installation, it is optional that the top plate 103 and the bottom plate 101 are both perpendicular to the side plate 102, and the top web 105 and the bottom web 104 are both parallel to the side plate 102, i.e. the top web 105 is perpendicular to the top plate 103 and the bottom web 104 is perpendicular to the bottom plate 101.

The bottom plate 101, the side plate 102, the top plate 103, the bottom connecting plate 104 and the top connecting plate 105 are of an integrated structure. Alternatively, the bottom plate 101, the side plate 102, the top plate 103, the bottom connecting plate 104, and the top connecting plate 105 are formed as an integral bent structure, that is, the frame body is a bent structural member.

If the rack body is provided with an input fixing structure 107 and an output fixing structure 108, the input fixing structure 107 and the output fixing structure 108 are provided on the side plate 102; if the frame body is provided with the ventilation opening 110, the ventilation opening 110 is arranged on the side plate 102; if the frame body is provided with the reinforcing flange 112, the reinforcing flange 112 is disposed on the side plate 102, i.e., the reinforcing flange 112 and the side plate 102 are of an integral structure.

If the charging module mounting bracket includes the guide member 111, the guide member 111 is provided on the base plate 101, and the guide member 111 and the base plate 101 are integrally formed. At this time, the guide member 111 may be a guide plate.

In the actual installation process, the charging module 200 may be optionally placed in the placement position a along the guide member 111, and then fixed in the module fixing structure 109 by the floating screw on the charging module 200, where the module fixing structure 109 is a second rivet pressing nut. Like this, the vertical installation of the module 200 that charges is fixed, only need from the outside with several floating screw with the module 200 that charges fix on the frame body can, the structure of assembling of no complicacy has simply installed, has improved assembly efficiency, has reduced the cost of labor.

Based on the module mounting bracket that charges that above-mentioned embodiment provided, this embodiment still provides a module mounting structure charges, and this module mounting structure that charges includes: the charging pile comprises a charging pile box body, an installation frame 100 fixed on the charging pile box body, and a charging module 200 fixed on the installation frame 100; the mounting block 100 is the charging module mounting block according to the above embodiment.

Among the above-mentioned module mounting structure that charges, only need in the assembling process with put up the body fix fill electric pile box on and will charge the module fix on putting up the body can, need not to assemble mounting bracket 100 self, improved assembly efficiency.

Because the module mounting bracket that charges that above-mentioned embodiment provided has above-mentioned technological effect, above-mentioned module mounting structure that charges includes above-mentioned module mounting bracket that charges, then above-mentioned module mounting structure that charges also has corresponding technological effect, and this text is no longer repeated.

Based on the module mounting structure that charges that above-mentioned embodiment provided, this embodiment still provides a fill electric pile, should fill electric pile and include the module mounting structure that charges, this module mounting structure that charges be the module mounting structure that charges that above-mentioned embodiment.

Because the module mounting structure that charges that above-mentioned embodiment provided has above-mentioned technological effect, the above-mentioned electric pile that fills includes the above-mentioned module mounting structure that charges, then the above-mentioned electric pile that fills also has corresponding technological effect, and this text is no longer repeated.

The specific type and structure of the charging pile are selected according to actual needs, and the charging pile is not limited in this embodiment.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (15)

1. The utility model provides a module mounting bracket charges which characterized in that, includes the frame body, the frame body is provided with: the rack body comprises a placing structure for placing a charging module (200), a module fixing structure (109) for fixing the charging module (200), and a mounting rack fixing structure (106) for the rack body, and the rack body is of an integrated structure.

2. The charging module mounting bracket of claim 1,

the placing structure comprises at least one placing position (A) for placing the charging modules (200), and the placing positions (A) are in one-to-one correspondence with the charging modules (200);

the charging module mounting frame further comprises a guide component (111) arranged on the frame body, the guide component (111) is located on two sides of the placing position (A), the guide component (111) is used for guiding the charging module (200) to enter and exit, and the guide component (111) and the frame body are of an integrated structure.

3. The charging module mounting bracket of claim 2,

if the placing position (A) is one, the guide part (111) is a structural part manufactured by a stamping process and a bending process on the frame body, or the guide part (111) is a structural part manufactured by a bending process on the frame body;

if the number of the placing positions (A) is more than two, at least one guide part (111) is a structural part manufactured by a stamping process and a bending process on the frame body.

4. The charging module mounting frame as claimed in claim 1, wherein the frame body is provided with: an input fixing structure (107) for fixing an input of the charging module (200), and an output fixing structure (108) for fixing an output of the charging module (200).

5. The charging module mounting frame according to claim 4, wherein the placement structure comprises at least one placement location (A) for placing the charging module (200), the input fixing structure (107) and the output fixing structure (108) being located on either side of the placement location (A).

6. The charging module mounting frame according to claim 4, wherein the input fixing structure (107) and the output fixing structure (108) are each a first clinch nut clinched to the frame body.

7. A charging module mounting frame as claimed in claim 1, characterized in that the frame body is provided with ventilation openings (110) for exposing the charging modules (200).

8. A charging module mounting frame as claimed in claim 7, characterized in that the frame body is provided with: an input fixing structure (107) for fixing an input of the charging module (200), and an output fixing structure (108) for fixing an output of the charging module (200); wherein the input fixture (107) and the output fixture (108) are both located at the vent (110).

9. The charging module mounting frame as claimed in claim 7, wherein the inner wall of the ventilation opening (110) is provided with a reinforcing flange (112), and the reinforcing flange (112) and the frame body are of an integral structure.

10. The charging module mounting frame according to claim 1, wherein the module fixing structure (109) is a second press-rivet nut press-riveted to the frame body, and the mounting frame fixing structure (106) is a fixing hole.

11. A charging module mounting frame as claimed in claim 1, characterized in that the frame body is a bent structure.

12. The charging module mounting frame according to claim 1, wherein the placement structure is a structure for vertically placing the charging module (200).

13. A charging module mounting frame as claimed in any one of claims 1-12, wherein the frame body comprises: the top of the side plate (102) is fixedly connected with the top plate (103), the bottom of the side plate (102) is fixedly connected with the bottom plate (101), the bottom connecting plate (104) is fixedly connected with the bottom plate (101), and the top connecting plate (105) is fixedly connected with the top (103);

wherein the bottom plate (101), the side plates (102) and the top plate (103) form the placement structure, the module fixing structure (109) is disposed on the bottom connecting plate (104) and the top connecting plate (105), and the mount fixing structure (106) is disposed on the bottom connecting plate (104) and the top connecting plate (105).

14. A charging module mounting structure comprising: the charging pile comprises a charging pile box body, an installation frame (100) fixed on the charging pile box body, and a charging module (200) fixed on the installation frame (100); mounting (100) for a charging module according to any one of claims 1-13.

15. A charging pile comprising a charging module mounting structure, wherein the charging module mounting structure is the charging module mounting structure according to claim 14.

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