KR102371352B1 - Transportation vehicle, battery box and waterproof structure thereof - Google Patents

Abstract

The present invention provides a transport vehicle, a battery box, and a waterproof structure thereof. The waterproof structure of the present invention includes a box body having a receiving cavity, a power plug connector having a plug holder disposed in the receiving cavity, a first sealing member for sealingly cooperating with the plug holder with an inner wall of the receiving cavity, and below the box body and a power distribution housing disposed and sealingly connected to the box body. The waterproof structure can effectively prevent water from flowing into the power distribution housing, and thus has excellent waterproof performance. Accordingly, the battery box using the present waterproof structure has excellent waterproof performance. Accordingly, a transport vehicle using the present battery box can operate reliably.

Description

TRANSPORTATION VEHICLE, BATTERY BOX AND WATERPROOF STRUCTURE THEREOF

The present invention relates to the technical field of a battery box, and more particularly, to a transportation vehicle, a battery box, and a waterproof structure thereof.

A battery box is a key part of a transportation vehicle such as an electric vehicle or electric motorcycle that uses electric energy as driving energy. The operating performance of the battery box directly affects the operating state of the transport vehicle. In order to ensure reliable operation of the transport vehicle, it is necessary to prevent water from entering into the power distribution housing of the battery box, so as to avoid the problem of short circuits of electrical elements in the power distribution housing. The conventional method is to increase the installation height of the battery box as much as possible to avoid the possibility of water entering the power distribution housing. This conventional method cannot effectively prevent water from flowing into the power distribution housing, and the waterproof performance is poor.

Based on the above background art, the present invention provides a transportation vehicle, a battery box, and a waterproof structure thereof. The waterproof structure of the present invention has excellent waterproof performance as it can effectively prevent water from flowing into the power distribution housing. Accordingly, the battery box using the present waterproof structure has excellent waterproof performance. Accordingly, a transport vehicle using the present battery box can operate reliably.

The technical solution is:

In one aspect, a box body having a receiving cavity, a power plug connector having a plug holder disposed in the receiving cavity, a first sealing member for sealingly cooperating with the plug holder with an inner wall of the receiving cavity, and disposed below the box body, There is provided a waterproof structure including a power distribution housing sealingly connected to a box body.

In the waterproof structure of the above embodiment, upon installation, the plug holder of the power plug connector is mounted on a bottom wall of the receiving cavity, and the first sealing member is used to seal the plug holder and the bottom wall of the receiving cavity, This prevents water from entering the power distribution housing from the receiving cavity and damaging the electrical components in the power distribution housing. At the same time, the sealing connection between the power distribution housing and the box body also prevents water from entering into the power distribution housing and damaging the electrical components in the power distribution housing. The waterproof structure of the above embodiment uses not only the sealing connection between the power distribution housing and the box body, but also the sealing cooperation between the plug holder and the bottom wall of the receiving cavity by the first sealing member, so that water inflow into the power distribution housing is effectively prevented. To prevent it, it has excellent waterproof performance.

Other technical solutions are described below.

In one embodiment, the waterproof structure further comprises a second sealing member for causing the inner wall of the receiving cavity to cooperate sealingly with the battery.

In one embodiment, the inner wall of the receiving cavity is provided with a drain groove.

In one embodiment, the waterproof structure further includes a drain pipe and a blocking member, one end of the drain pipe communicates with the drain groove, and the blocking member is disposed at the other end of the drain pipe.

In one embodiment, the bottom wall of the receiving cavity is provided with a first mounting groove for mounting the plug holder, and the inner wall of the first mounting groove is provided with a second mounting groove for mounting the first sealing member, the first The sealing member protrudes from the second mounting groove.

In one embodiment, the bottom wall of the receiving cavity is provided with a third mounting groove for mounting the second sealing member, the second sealing member protruding from the third mounting groove, the third mounting groove being in the second mounting groove relatively close to the sidewall of the receiving cavity.

In one embodiment, the power distribution housing includes a housing body having a mounting cavity and a lid body for closing the mounting cavity, the housing body sealingly connected with the box body.

In one embodiment, the waterproof structure further includes a third sealing member for sealingly cooperating the housing body with the lid body.

In another aspect, there is provided a battery box including the waterproof structure.

In the battery box of the above embodiment, in use, the plug holder of the power plug connector is mounted on the bottom wall of the receiving cavity, and the first sealing member is used to seal the plug holder and the bottom wall of the receiving cavity, whereby water It is prevented from entering the power distribution housing from the receiving cavity and damaging the electrical components in the power distribution housing. At the same time, the sealing connection between the power distribution housing and the box body also prevents water from entering into the power distribution housing and damaging the electrical components in the power distribution housing. The battery box of the above embodiment uses not only the sealing connection between the power distribution housing and the box body, but also the sealing cooperation between the plug holder and the bottom wall of the receiving cavity by the first sealing member, so that water inflow into the power distribution housing is effectively prevented. To prevent it, it has excellent waterproof performance.

In another aspect, a transportation vehicle comprising the battery box is provided.

The transport vehicle of the above embodiment uses not only the sealing connection between the power distribution housing and the box body, but also the sealing cooperation between the plug holder and the bottom wall of the receiving cavity by the first sealing member, so that water inflow into the power distribution housing is effectively prevented. It has good waterproof performance and can be operated reliably.

1 is a schematic structural diagram of a battery box according to an embodiment.
FIG. 2 is a cross-sectional view taken along line AA of the battery box of FIG. 1 ;
3 is a partially enlarged view of part B of the battery box of FIG. 2 .
FIG. 4 is a cross-sectional view taken along line AA of the battery box of FIG. 1 , showing a box body and a power distribution housing of the battery box;
5 is a partially enlarged view of a portion C of the battery box of FIG. 4 .
6 is an exploded view of a box body, a power plug connector, and a first sealing member of the battery box of FIG. 1 .
7 is an exploded view of a box body and a power distribution housing of the battery box of FIG. 1 .

Objects, technical solutions, and advantages of the present invention will become more apparent and understandable by describing the present invention in more detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments exemplified herein are for illustrative purposes only and should not be construed as limiting the protection scope of the present disclosure.

When an element is defined as being “disposed” or “fixed” to another element, it should be understood that it may directly overlie on the element or indirectly lie on the element through an intervening element. When an element is referred to as being "fixed" or "fixedly connected" to another element, the elements may be separable or non-separable. When an element is considered to be “connected” or “rotatably connected” to another element, the one element may be directly connected to the other element, or may be indirectly connected to the other element with an intervening element interposed therebetween. there is. As used herein, terms such as “vertical”, “horizontal”, “left”, “right”, “top”, “bottom” and the like are for descriptive purposes only, and are not intended to be the sole embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the specification of the present disclosure herein is for the purpose of describing particular examples only, and is not intended to limit the present disclosure. As used herein, the term “and/or” includes any and all combinations of one or more related enumerated items.

Terms such as “first,” “second,” “third,” and the like herein do not indicate a specific number and order, and are merely intended to distinguish names.

It should also be understood that, when interpreting an element, even if not explicitly stated, that element is to be construed as including a range of error, which should be within the range of acceptable deviation of the specific value as determined by one of ordinary skill in the art. . For example, “about”, “approximately” or “substantially” may mean within one or more standard deviations, which is not limited herein.

1 to 3 , in one embodiment, a waterproof structure including a box body 100 , a power plug connector 200 , a first sealing member 300 , and a power distribution housing 400 is provided do. The box body 100 has a receiving cavity 110 . The power plug connector 200 includes a plug holder 210 disposed within the receiving cavity 110 . The first sealing member 300 is used to allow the plug holder 210 to cooperate sealingly with the inner wall of the receiving cavity 110 . The power distribution housing 400 is disposed under the box body 100 , and the power distribution housing 400 is sealedly connected to the box body 100 .

In the waterproof structure of the above embodiment, upon installation, the plug holder 210 of the power plug connector 200 is mounted on the bottom wall of the receiving cavity 110 , and the first sealing member 300 is connected to the plug holder 210 and Used to seal the bottom wall of the receiving cavity 110 , thereby preventing water from entering the power distribution housing 400 from the receiving cavity 110 and damaging the electrical components in the power distribution housing 400 . At the same time, the sealing connection between the power distribution housing 400 and the box body 100 also prevents water from flowing into the power distribution housing 400 to damage the electrical components in the power distribution housing 400 . The waterproof structure of the above embodiment not only uses the sealing connection between the power distribution housing 400 and the box body 100 , but also between the plug holder 210 by the first sealing member 300 and the bottom wall of the receiving cavity 110 . By using the sealing cooperation of the water distribution housing 400, it is effectively prevented from flowing into the power distribution housing 400, thereby exhibiting excellent waterproof performance.

The first sealing member 300 may be a sealing ring or a gasket, as long as it can effectively seal the plug holder 210 and the bottom wall of the receiving cavity 110 to prevent water from entering the power distribution housing 400 . should be noted The first sealing member 300 is preferably a sealing ring or gasket made of an elastic material such as rubber or silicone. When the plug holder 210 is detachably mounted to the bottom wall of the receiving cavity 110 in a manner such as bolt locking or clamping connection, subsequent replacement and maintenance of the power plug connector 200 is convenient. The plug holder 210 may apply a corresponding force to the first sealing member 300 , and accordingly, the first sealing member 300 is elastically deformed, and the first sealing member 300 and the plug holder 210 are elastically deformed. and by increasing the contact area of the bottom wall of the receiving cavity 110 , the sealing effect is improved. The sealing connection between the power distribution housing 400 and the box body 100 is made by welding (eg, ultrasonic welding), or by adding an intermediate sealing element (eg, a sealing ring or gasket to the power distribution housing ( 400) and the box body 100)). Since the bottom wall of the battery box is provided with a plug through hole 115 through which the plug terminals of the power plug connector 200 pass, water passes through the receiving cavity 110 and then through the plug through hole 115 to the power distribution housing ( 400) go inside. The first sealing member 300 is used to seal the plug holder 210 and the bottom wall of the receiving cavity 110 , which can effectively block water from flowing into the power distribution housing 400 and damaging the electrical components. can

6 , the plug terminal of the power plug connector 200 includes a positive plug terminal 220 and a negative plug terminal 230 . Both the positive plug terminal 220 and the negative plug terminal 230 are disposed on the plug holder 210 . One end of both plug terminals 220 may be electrically connected to both output ends of the battery, and the other end of both plug terminals 220 passes through the plug through hole 115 to be connected to the electrical element in the power distribution housing 400 . connected The R end of the negative plug terminal 230 may be electrically connected to the negative output end of the battery, and the other end of the negative plug terminal 230 passes through the plug through hole 115 to the electrical element in the power distribution housing 400 . connected

3 , in one embodiment, the waterproof structure further includes a second sealing member 500 , wherein the second sealing member 500 has an inner wall of the receiving cavity 110 between the battery 900 and the battery 900 . It is used to allow hermetically cooperating. In this way, the battery 900 is disposed in the receiving cavity 110 of the box body 100, and the second sealing member 500 effectively seals the battery 900 and the box body 100, so that water It is prevented from flowing into the bottom of the receiving cavity 110 and affecting the operation of the power plug connector 200 . The second sealing member 500 may be a sealing ring or a gasket as long as it can effectively seal the battery 900 and the inner wall of the accommodating cavity 110 to prevent water from flowing into the accommodating cavity 110 .

In addition, as shown in FIGS. 3 and 5 , a drain groove 111 is provided on the inner wall of the receiving cavity 110 . In this way, even if water flows into the receiving cavity 110 , it can be immediately and quickly discharged by the drain groove 111 , so that water accumulates in the receiving cavity 110 and affects the operation of the power plug connector 200 . You can avoid situations that make you crazy. Preferably, the drain groove 111 is disposed on the bottom wall of the receiving cavity 110 , and the drain groove 111 is preferably disposed around the side wall of the receiving cavity 110 . In addition, in order to allow the water in the drainage groove to be smoothly discharged when a side brace or main ladder of a motorcycle is used, on the inner wall of the receiving cavity 110, it communicates with the drainage groove 111 and an outlet hole (not shown) capable of discharging water in a timely manner is further provided. The outlet hole is preferably disposed close to the left front of the box body (100). In this way, when the motorcycle is parked using the side stand or the main ladder, the left front position of the box body 100 becomes the lowest point when parking, so that the water remaining on the floor of the receiving cavity 110 is faster can be discharged.

In addition, as shown in FIG. 3 , the waterproof structure further includes a drain pipe 600 communicating with the drain groove 111 . By using the drain pipe 600 , water can be conveniently drained from the receiving cavity 110 in a timely manner. One end of the drain pipe 600 communicates with the drain groove 111 , and a blocking member 700 is provided at the other end of the drain pipe 600 . In this manner, the drain 600 may be used to collect water escaping from the receiving cavity 110 in order to be able to prevent the water from spilling out randomly and interfering with the normal operation of other components (drain pipe (drain pipe) 600) can be of a predetermined length and can store a small amount of accumulated water). At the same time, the drain pipe 600 is preferably made of a transparent material (such as a transparent plastic material), so that the water storage situation in the drain pipe 600 can be clearly seen, so as to avoid water backflow due to excessive water accumulation. It may be possible to pull out the blocking member 700 so that it can be discharged in a timely manner. The blocking member 700 may be provided as a blocking plug or blocking cap.

4 and 5 , in one embodiment, the bottom wall of the receiving cavity 110 is provided with a first mounting groove 112 for mounting the plug holder 210 . According to this method, the plug holder 210 can be accurately and securely mounted in the first mounting groove 112, so that the plug holder 210 is prevented from slipping, so that the power plug holder 210 is connected to the battery ( It is ensured that the power of 900 is reliably delivered to the electrical components in the power distribution housing 400 . A second mounting groove 113 for mounting the first sealing member 300 is provided on the inner wall of the first mounting groove 112 , and the first sealing member 300 protrudes from the second mounting groove 113 . I'm out. In this way, it is ensured that the first sealing member 300 can be mounted accurately and reliably, so that the first sealing member 300 can effectively seal the plug holder 210 and the box body 100 . Thus, water is prevented from entering the bottom of the plug holder 210 and entering the power distribution housing 400 through the plug through hole 115 .

In addition, as shown in FIGS. 4 and 5 , a third mounting groove 114 for mounting the second sealing member 500 is provided on the bottom wall of the receiving cavity 110 . In this way, the second sealing member 500 can be mounted accurately and reliably, so that the second sealing member 500 is prevented from moving during the mounting process, thereby ensuring the sealing effect. The second sealing member 500 protrudes from or comes out of the third mounting groove 114 . In this way, when the battery 900 is placed in the receiving cavity 110 under the action of gravity, the bottom of the battery 900 and the second sealing member 500 contact, so that the second sealing member 500 is It is possible to effectively seal the battery 900 and the box body 100 , so that water is prevented from flowing into the receiving cavity 110 and contacting the power plug connector 200 . The second sealing member 500 may be a sealing ring or gasket made of an elastic material such as rubber or silicone. When the battery 900 is disposed on the second sealing member 500 , the second sealing member 500 is deformed, which is the bottom wall of the receiving cavity 110 and the battery 900 and the second sealing member 500 . ) to increase the contact area, which improves the sealing effect. The third mounting groove 114 is disposed relatively close to the sidewall of the receiving cavity 110 compared to the second mounting groove 113 . In this way, when the battery is in the operating state, first the second sealing member 500 is used to prevent water from coming into contact with the power plug connector 200, and then the first sealing member 300 is used to Water is prevented from flowing into the power distribution housing through the plug through hole 115 under the plug holder 210, and accordingly, the waterproof performance can be effectively improved in the double sealing manner.

5 and 7 , based on any one of the embodiments described above, the power distribution housing 400 includes a housing body 410 having a mounting cavity 411 and closing the mounting cavity 411 . and a cover body 420 for doing so, and the housing body 410 is sealingly connected to the box body 100 . In this way, the lid body 420 is used to close the mounting cavity 411 after the housing body 410 and the box body 100 are hermetically connected, which is the disassembly of the electrical components in the mounting cavity 411 . and assembling, as well as ensuring the waterproof performance of the mounting cavity 411 . The sealing connection between the housing body 410 and the box body 100 is made by welding (eg, ultrasonic welding), or by adding an intermediate sealing element (eg, a sealing ring or gasket to the housing body 410 ). ) and the box body (100) by adding).

In addition, as shown in FIG. 7 , the waterproof structure further includes a third sealing member 800 , and the third sealing member 800 is configured such that the housing body 410 is sealed and cooperated with the cover body 420 . used for In this way, the third sealing member 800 can effectively seal the housing body 410 and the cover body 420 to prevent water from flowing into the receiving cavity 411 from the bottom of the power distribution housing 400 . Therefore, it has excellent waterproof performance. The third sealing member 800 may be a sealing ring or a gasket as long as it can effectively seal the cover body 420 and the housing body 410 to prevent water from flowing into the receiving cavity 411 . The third sealing member 800 is preferably a sealing ring or gasket made of an elastic material such as rubber or silicone. When the lid body 420 is covered in a removable manner, such as a bolt locking or clamping connection, etc. to the housing body 410 , the lid body 420 may apply a corresponding force against the third sealing member 800 , thereby Accordingly, the third sealing member 800 is elastically deformed, and the contact area between the cover body 420 and the housing body 410 and the third sealing member 800 is increased, so that the sealing effect is improved.

1 to 3 , in one embodiment, a battery box 10 including the waterproof structure of any one of the above embodiments is provided.

In the battery box 10 of the above embodiment, in use, the plug holder 210 of the power plug connector 200 is mounted on the bottom wall of the receiving cavity 110, and the first sealing member 300 is the plug holder ( 210 and the bottom wall of the receiving cavity 110 , thereby preventing water from entering the power distribution housing 400 from the receiving cavity 110 and damaging the electrical components in the power distribution housing 400 . At the same time, the sealing connection between the power distribution housing 400 and the box body 100 also prevents water from flowing into the power distribution housing 400 to damage the electrical components in the power distribution housing 400 . The battery box 10 of the above embodiment uses the sealing connection between the power distribution housing 400 and the box body 100 as well as the plug holder 210 by the first sealing member 300 and the bottom of the receiving cavity 110 . The sealing cooperation between the walls is also used to effectively prevent water from flowing into the power distribution housing 400, thereby exhibiting excellent waterproof performance.

In one embodiment, there is provided a transportation vehicle comprising the battery box of any one of the above embodiments.

The transport vehicle of the above embodiment not only utilizes the sealing connection between the power distribution housing 400 and the box body 100 , but also between the plug holder 210 by the first sealing member 300 and the bottom wall of the receiving cavity 110 . The sealing cooperation is also used to effectively prevent water from entering into the power distribution housing 400, thereby achieving excellent waterproof performance.

The transportation vehicle may be an automobile, an electric vehicle, a motorcycle, or other means capable of using the electrical energy of the battery 900 as a driving energy source.

The technical features of the above-described embodiments may be arbitrarily combined. In order to simplify the description, not all possible combinations of technical features in the above embodiments have been described. However, all combinations of these technical features should be considered to be within the scope of the present disclosure unless they contradict each other.

The above-described embodiments merely represent various embodiments of the present disclosure, and the description thereof, although more specific and detailed, should not be construed as limiting the scope of the present disclosure. It should be noted that various modifications and improvements can be made by those skilled in the art without departing from the spirit of the present disclosure, all of which fall within the protection scope of the present disclosure. Accordingly, the protection scope of the present disclosure shall be subject to the appended claims.

10 battery box
100 box body
110 accommodating cavity
111 drain groove
112 first mounting groove
113 2nd mounting groove
114 Third mounting groove
115 plug through hole
200 power plug connector
210 plug holder
220 positive plug terminals
230 um plug terminal
300 first sealing member
400 power distribution housing
410 housing body
411 mounting cavity
420 cover body
500 second sealing member
600 drain pipe
700 blocking member
800 third sealing member
900 battery

Claims (10)

A waterproof structure comprising:
a box body having a receiving cavity;
a power plug connector including a plug holder disposed within the receiving cavity;
a first sealing member configured to sealingly connect the plug holder with the inner wall of the receiving cavity; and
and a power distribution housing disposed under the box body and sealingly connected to the box body.
According to claim 1,
The waterproof structure according to claim 1, further comprising a second sealing member configured to seal the inner wall of the receiving cavity with the battery.
3. The method of claim 2,
A waterproof structure, characterized in that a drainage groove is provided on the inner wall of the receiving cavity.
4. The method of claim 3,
Further comprising a drain pipe and a blocking member,
One end of the drain pipe communicates with the drain groove, and the blocking member is disposed at the other end of the drain pipe.
3. The method of claim 2,
A bottom wall of the receiving cavity is provided with a first mounting groove for mounting the plug holder, and an inner wall of the first mounting groove is provided with a second mounting groove for mounting the first sealing member; The sealing member protrudes from the second mounting groove.
6. The method of claim 5,
The bottom wall of the receiving cavity is provided with a third mounting groove for mounting the second sealing member, the second sealing member protruding from the third mounting groove, the third mounting groove being the second mounting groove A waterproof structure, characterized in that it is disposed relatively close to the side wall of the receiving cavity compared to the groove.
7. The method according to any one of claims 1 to 6,
The power distribution housing includes a housing body having a mounting cavity and a cover body for closing the mounting cavity, wherein the housing body is sealingly connected to the box body.
8. The method of claim 7,
The waterproof structure according to claim 1, further comprising a third sealing member configured such that the housing body is sealingly connected to the cover body.
A battery box comprising the waterproof structure according to claim 1 .
A transport vehicle comprising the battery box according to claim 9 .

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