CN212921160U - Equipment mounting platform and battery charging and replacing bin - Google Patents

Abstract

The utility model discloses an equipment fixing platform and storehouse of changing electricity that charges, equipment fixing platform includes the bottom plate, form drainage area and non-drainage area on the bottom plate, drainage area is less than non-drainage area, drainage area is equipped with along the vertical outlet that runs through the bottom plate. According to the equipment mounting platform and the charging and converting bin, as the drainage area with lower height is arranged on the bottom plate of the equipment mounting platform, rainwater can flow to the drainage area from the non-drainage area and then flow out from the drainage port positioned in the drainage area; the equipment mounting platform can be used when the equipment needing drainage is mounted in the charging and replacing cabin, for example, liquid cooling equipment, an air conditioner and the like, so that accumulated water near the equipment can be discharged to the outside of the charging and replacing cabin through the equipment mounting platform.

Description

Equipment mounting platform and battery charging and replacing bin

Technical Field

The utility model relates to an equipment fixing platform and charging and power-exchanging storehouse.

Background

With the supply pressure and exhaust pollution brought by the consumption of traditional fossil energy, the development of traditional fuel oil vehicles has entered a lag phase. For the favor of green energy prospect, the electric automobile shows blowout type development in recent years by virtue of energy conservation and environmental protection. And the electric automobile has promoted the appearance of quick change electric automobile because of its short plate to battery charge time, and the battery package on the quick change electric automobile is promptly quick replacement, unloads the insufficient voltage battery package and installs full charge battery package. The battery pack of the electric vehicle is very heavy due to the requirement of the driving mileage, so that the battery pack needs to be replaced by special equipment, and the battery replacement station is a service place for providing replacement of the battery pack of the electric vehicle in a professional manner.

The battery replacement station generally has functions of replacing a battery pack, charging the battery pack, and the like. Due to the influence of the external environment and the operation of the equipment in the power exchanging station, temperature control equipment needs to be installed in the power exchanging station, so that the temperature in the power exchanging station is controlled. And the installation of temperature control equipment inevitably needs to install an air outlet or an air inlet communicated with the external environment. However, after the air outlet or the air inlet is arranged, rainwater in the external environment can enter the battery replacement station, and condensate water can also be formed around the temperature control equipment. How to set up the drainage structures who trades the power station, make the waste water that trades in the power station can discharge trades the power station smoothly, be the technological problem that needs to solve when trading the power station design.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an equipment fixing platform and charge and trade storehouse in order to overcome the drainage problem of the temperature control equipment who trades the power station among the prior art.

The utility model discloses an above-mentioned technical problem is solved through following technical scheme:

the utility model provides an equipment mounting platform, equipment mounting platform includes the bottom plate, form drainage area and non-drainage area on the bottom plate, drainage area is less than non-drainage area, drainage area is equipped with along the vertical outlet that runs through the bottom plate.

In this technical scheme, owing to set up a high lower drainage zone on the bottom plate, the rainwater can flow to drainage zone from non-drainage zone, flows out from the outlet that is located drainage zone again.

Preferably, a water storage box which is concave downwards is further formed on the bottom plate, the water storage box is located in the drainage area, and the drainage port is arranged at the bottom of the water storage box.

In the technical scheme, under the condition of large rainwater, the rainwater which cannot be discharged temporarily can be collected into the water storage box firstly; through setting up the retaining box, avoided the rainwater to amass on the bottom plate, reduced because of intaking the possibility that leads to equipment trouble.

Preferably, the equipment mounting platform further comprises a support frame, and the support frame is positioned on the bottom plate; the support frame is used for mounting equipment, so that a water flow channel is formed between the equipment and the bottom plate and communicated to the drainage area.

In the technical scheme, a gap is formed between the equipment and the bottom plate through the support frame, and the gap is used for draining water to form a water flow channel; the water flow channel is communicated with the drainage area, and when rainwater flows onto the bottom plate, the rainwater flows to the drainage area through the water flow channel and then flows out through the drainage outlet.

Preferably, the number of the support frames is two, the two support frames are oppositely arranged on two sides of the bottom plate, and the water flow channel is located between the two support frames.

In this technical scheme, through setting up in two support frames of the both sides of bottom plate, form the rivers passageway of broad when supporting equipment, it is less to the influence of drainage.

Preferably, the support frame is provided with a circulation space penetrating through the support frame, and the circulation space is arranged along the water flow direction of the water flow channel.

In this technical scheme, through setting the support frame to the frame-type, make the rainwater can also flow to drainage area from the circulation space that the support frame formed, reduced because of set up the support frame on the bottom plate and to the influence that the drainage produced.

The utility model provides a trade storehouse of charging, it includes at least one above-mentioned technical scheme to trade the storehouse of charging equipment fixing platform.

In the technical scheme, the equipment installation platform can be used when equipment needing drainage is installed, such as liquid cooling equipment, an air conditioner and the like; and the equipment is arranged on the equipment mounting platform, so that accumulated water near the equipment can be discharged to the outside of the charging and converting bin through the equipment mounting platform.

Preferably, the number of the equipment installation platforms is two, the two equipment installation platforms are respectively a first installation platform and a second installation platform, and a bottom plate of the second installation platform is higher than that of the first installation platform.

In the technical scheme, the number of the equipment installation platforms can be determined according to the number of the equipment to be installed, and the height of the equipment installation platforms can be determined according to the height of the equipment to be installed.

Preferably, the battery charging and replacing bin is further provided with a drain pipe, a water outlet of the second mounting platform is communicated with one end of the drain pipe, and the other end of the drain pipe is communicated with a water outlet of the first mounting platform.

In this technical scheme, in order to discharge the ponding of the higher second mounting platform of height, be equipped with the drain pipe between first mounting platform and the second mounting platform, ponding on the second mounting platform passes through the drain pipe and flows to first mounting platform's outlet, discharges from first mounting platform's outlet again.

Preferably, the drain pipe further comprises a first vertical section, a first horizontal section, a second vertical section, a second horizontal section and a third vertical section, the first vertical section, the second vertical section and the third vertical section are vertically arranged, the first horizontal section and the second horizontal section are horizontally arranged, the first vertical section, the first horizontal section, the second vertical section, the second horizontal section and the third vertical section are sequentially communicated, the upper end of the first vertical section is communicated with the water outlet of the second mounting platform, and the lower end of the third vertical section is communicated with the water outlet of the first mounting platform;

the bottom plate of the second mounting platform is higher than the lowest point of the second horizontal section, and the lowest point of the second horizontal section is higher than the lowest point of the first horizontal section.

In this technical scheme, through the shape setting of above-mentioned drain pipe, can guarantee that ponding can flow out smoothly and can not take place the backward flow phenomenon.

Preferably, the bottom plate of the second mounting platform is higher than the highest point of the second horizontal section; and/or the lowest point of the second horizontal segment is higher than the highest point of the first horizontal segment.

In this technical scheme, through the shape setting of above-mentioned drain pipe, under the prerequisite of guaranteeing that ponding flows out smoothly and do not flow backward, still accelerate the speed of drainage.

On the basis of the common knowledge in the field, the above preferred conditions can be combined at will to obtain the preferred embodiments of the present invention.

The utility model discloses an actively advance the effect and lie in:

according to the equipment mounting platform and the charging and converting bin, as the drainage area with lower height is arranged on the bottom plate of the equipment mounting platform, rainwater can flow to the drainage area from the non-drainage area and then flow out from the drainage port positioned in the drainage area; the equipment mounting platform can be used when the equipment needing drainage is mounted in the charging and replacing cabin, for example, liquid cooling equipment, an air conditioner and the like, so that accumulated water near the equipment can be discharged to the outside of the charging and replacing cabin through the equipment mounting platform.

Drawings

Fig. 1 is a schematic structural view of the charging and exchanging bin of the present invention.

Fig. 2 is a schematic diagram of an internal structure of the charging and discharging bin shown in fig. 1.

Fig. 3 is a schematic structural diagram of the equipment mounting platform of the present invention.

Fig. 4 is a schematic structural view of the support frame of the equipment mounting platform shown in fig. 3.

Fig. 5 is a schematic diagram of an internal structure of the charging and discharging bin shown in fig. 1.

Fig. 6 is a schematic combination view of the first mounting platform and the second mounting platform of the charging and discharging bin shown in fig. 1.

Fig. 7 is a schematic combination view of the first mounting platform and the second mounting platform of the charging and discharging bin shown in fig. 1.

Fig. 8 is a schematic structural view of a drain pipe between the first mounting platform and the second mounting platform of the charging and transforming bin shown in fig. 1.

Description of the reference numerals

Charging and battery-changing bin 100

Charging chamber 101

Liquid cooling chamber 102

Equipment room 103

Charging stand 104

Battery access port 105

Walking channel 106

Fume hood 107

Charging cabinet 108

Distribution box 109

Liquid cooling apparatus 110

Air-conditioning room 111

Wind shield 112

Air outlet 113

Equipment mounting platform 200

Base plate 201

Drainage area 202

Non-drainage area 203

Drainage port 204

Water storage box 205

Support frame 206

Water flow channel 207

Flow-through space 208

Lower fixing plate 209

Upper fixing plate 210

Middle connecting plate 211

First mounting platform 300

Second mounting platform 400

Drain pipe 500

First vertical segment 501

First horizontal segment 502

Second vertical section 503

Second horizontal segment 504

Third vertical segment 505

First highest point 506

First lowest point 507

Second highest point 508

Second lowest point 509

Detailed Description

The present invention is further illustrated by way of the following examples, which are not intended to limit the scope of the invention.

The battery replacement station is used for taking out the old battery pack from the electric automobile and reloading the new battery pack into the electric automobile; at the same time, the removed old battery pack also needs to be recharged. Therefore, the charging station needs to be provided with a charging chamber 100, as shown in fig. 1 to 2.

As shown in fig. 1 to 2, the charging and replacing cabin 100 is provided with a charging chamber 101, a liquid cooling chamber 102 and an equipment room 103, wherein a plurality of charging racks 104 are arranged in the charging chamber 101, and the charging racks 104 are used for placing and charging and discharging battery packs. A battery access opening 105 is formed on both sides of the charging chamber 101, the charging rack 104 is disposed facing the battery access opening 105, and the battery replacement device can extend from the battery access opening 105 and remove a battery pack from the charging rack 104 or place the battery pack on the charging rack 104.

The charging frames 104 are arranged in two rows in the charging chamber 101, the two rows of charging frames 104 are respectively located at two sides of the charging chamber 101, and a walking channel 106 for workers to walk is formed between the two rows of charging frames 104. The two rows of charging racks 104 respectively correspond to the two battery taking and placing ports 105, and are respectively used for the battery replacing equipment at two sides to extend into and take and place the battery pack.

A ventilation cabinet 107 and a charging cabinet 108 are placed in the equipment room 103, and a ventilation pipeline of the ventilation cabinet 107 extends into the charging room 101 to ventilate the internal space of the charging room 101; charging wires of the charging cabinet 108 extend to the charging rack 104, and the charging wires are used for charging and discharging the battery pack located on the charging rack 104. The charging frame 104 is provided with a distribution box 109, the distribution box 109 is connected with a charging wire, and the distribution box 109 is used for controlling charging and discharging of the battery pack. The ventilation duct of the ventilation hood 107 passes above the equipment room 103, the charging room 101, and the liquid cooling room 102, and ventilates the air in the equipment room 103, the charging room 101, and the liquid cooling room 102.

The battery pack can generate high heat in the charging process, and the temperature of the battery pack can be influenced when the external environment temperature is too high. To ensure proper operation of the battery pack, the temperature of the battery pack on the charging rack 104 must be controlled within an allowable range. Therefore, a liquid cooling device 110 is disposed in the liquid cooling chamber 102 of the charging and replacing cabin 100, a liquid cooling pipeline of the liquid cooling device 110 extends to the charging rack 104, and the liquid cooling pipeline is used for cooling the battery pack located on the charging rack 104. In addition to the liquid cooling device 110, an air conditioning chamber 111 for placing an air conditioner is provided above the charging chamber 101, and a hood 112 is provided on the top of the air conditioning chamber 111.

As shown in fig. 1, an air outlet 113 is provided at the top of the liquid cooling chamber 102, and when it rains, rainwater enters the liquid cooling chamber 102 through the air outlet 113, so that the equipment installation platform for installing the liquid cooling equipment 110 needs to have a function of draining water.

As shown in fig. 3, the apparatus mounting platform 200 for mounting the liquid cooling apparatus 110 includes a bottom plate 201, a drainage area 202 and a non-drainage area 203 are formed on the bottom plate 201, the drainage area 202 is lower than the non-drainage area 203, and the drainage area 202 is provided with a drainage port 204 vertically penetrating through the bottom plate 201. When entering the liquid cooling chamber 102 through the air outlet 113, the rainwater will collect on the bottom plate 201. Due to the provision of a lower level drain area 202, rainwater will flow from the non-drain area 203 to the drain area 202 and out of the drain opening 204 located in the drain area 202.

Wherein, a water storage box 205 which is concave downwards is also formed on the bottom plate 201, the water storage box 205 is positioned in the drainage area 202, and the drainage port 204 is arranged at the bottom of the water storage box 205. Rainwater is collected in the water storage box 205 and then drained from the drainage port 204. In the case of large rainwater, rainwater that cannot be drained temporarily may be collected into the water storage box 205 first; by arranging the water storage box 205, rainwater is prevented from being accumulated on the bottom plate 201, and the possibility of the liquid cooling device 110 failure caused by water inflow is reduced.

As shown in fig. 3, the equipment mounting platform 200 further includes a support bracket 206, the support bracket 206 being located on the bottom plate 201; the support frame 206 is used for mounting the liquid cooling apparatus 110, so that a water flow channel 207 is formed between the liquid cooling apparatus 110 and the bottom plate 201, and the water flow channel 207 is communicated to the drainage area 202. The liquid cooling device 110 is supported by the support frame 206, so that a gap is formed between the liquid cooling device 110 and the bottom plate 201, and the gap is used for draining water to form a water flow channel 207. The water channel 207 is connected to the drainage area 202, and when rainwater enters the liquid cooling chamber 102 and reaches the bottom plate 201, the rainwater flows to the drainage area 202 through the water channel 207 and then flows out through the drainage port 204.

In this embodiment, the number of the supporting frames 206 is two, the two supporting frames 206 are oppositely disposed on two sides of the bottom plate 201, and the water flow channel 207 is located between the two supporting frames 206. By the two support frames 206 disposed on both sides of the base plate 201, a wide water flow passage 207 is formed while supporting the liquid cooling device 110, and the influence on drainage is small.

As shown in fig. 4, the supporting frame 206 may be designed in a frame type, and the supporting frame 206 forms a flow space 208 penetrating the supporting frame 206, and the flow space 208 is arranged along the water flow direction of the water flow channel 207. The supporting frame 206 includes a lower fixing plate 209, an upper fixing plate 210 and a middle connecting plate 211, the middle connecting plate 211 connects the lower fixing plate 209 and the upper fixing plate 210, the lower fixing plate 209 is fixed on the bottom plate 201, the upper fixing plate 210 is used for fixing the liquid cooling device 110, and the upper fixing plate 210, the middle connecting plate 211 and the lower fixing plate 209 enclose a circulation space 208. By arranging the support frames 206 in a frame-like manner, rainwater can flow from the flow space 208 formed by the support frames 206 to the drainage area 202, and the influence on drainage caused by arranging the support frames 206 on the bottom plate 201 is reduced.

In other embodiments, the supporting frame 206 may be designed to have other structures according to the installation requirements of the device to be installed, and is not limited to the structure in this embodiment. The above-mentioned equipment installation platform is not limited to installing the liquid cooling equipment 110, and any equipment that needs to be provided with drainage can be installed on the above-mentioned equipment installation platform.

As shown in fig. 1 to 2, an air conditioning room 111 for placing an air conditioner is further provided above the charging room 101, and the air conditioning room 111 is provided beside the liquid cooling room 102. Since the air-conditioning chamber 111 also has a problem of rainwater, and the air-conditioning condenses during operation, the equipment-mounting platform in the air-conditioning chamber 111 also needs to be provided with a drainage structure. Since the air-conditioning chamber 111 is located above the charging chamber 101, it is also necessary to lead out water discharged from the equipment mounting platform of the air conditioner to the outside of the charging chamber 101.

As shown in fig. 5 to 7, the battery charging and replacing bin 100 is provided with two equipment mounting platforms 200, the two equipment mounting platforms 200 are a first mounting platform 300 and a second mounting platform 400, respectively, and a bottom plate 201 of the second mounting platform 400 is higher than a bottom plate 201 of the first mounting platform 300. The first mounting platform 300 is used for mounting the liquid cooling device 110, and the second mounting platform 400 is used for mounting an air conditioner.

In order to drain accumulated water of the second mounting platform 400 with a higher height, a drain pipe 500 is arranged between the first mounting platform 300 and the second mounting platform 400, the drain port 204 of the second mounting platform 400 is communicated with one end of the drain pipe 500, and the other end of the drain pipe 500 is communicated with the drain port 204 of the first mounting platform 300. The accumulated water on the second mounting platform 400 flows to the drain port 204 of the first mounting platform 300 through the drain pipe 500 and is discharged from the drain port 204 of the first mounting platform 300. The lower end of the drain pipe 500 may be suspended above the drain port 204 of the first mounting platform 300, and water drained by the drain pipe 500 is collected into the water storage box 205 of the first mounting platform 300 and then drained from the drain port 204 of the first mounting platform 300.

As shown in fig. 7 to 8, the water drainage pipe 500 further includes a first vertical section 501, a first horizontal section 502, a second vertical section 503, a second horizontal section 504 and a third vertical section 505, the first vertical section 501, the second vertical section 503 and the third vertical section 505 are vertically arranged, the first horizontal section 502 and the second horizontal section 504 are horizontally arranged, the first vertical section 501, the first horizontal section 502, the second vertical section 503, the second horizontal section 504 and the third vertical section 505 are sequentially communicated, the upper end of the first vertical section 501 is communicated with the water drainage port 204 of the second installation platform 400, and the lower end of the third vertical section 505 is communicated with the water drainage port 204 of the first installation platform 300.

The first horizontal segment 502 has a first highest point 506 of highest height and a first lowest point 507 of lowest height; second horizontal segment 504 has a second highest point 508 of highest elevation and a second lowest point 509 of lowest elevation. In order to ensure that the accumulated water can flow out smoothly without flowing backward, the bottom plate 201 of the second mounting platform 400 is higher than the second lowest point 509 of the second horizontal segment 504, and the second lowest point 509 of the second horizontal segment 504 is higher than the first lowest point 507 of the first horizontal segment 502.

Under the prerequisite of guaranteeing that ponding flows out smoothly and not flowing backward, in order to accelerate drainage speed, can also carry out following setting to each section of drain pipe 500: the bottom plate 201 of the second mounting platform 400 is higher than the second highest point 508 of the second horizontal section 504; and/or second nadir 509 of second level segment 504 is higher than first nadir 506 of first level segment 502.

The first horizontal section 502, the second vertical section 503 and the second horizontal section 504 are arranged as close to the second mounting platform 400 as possible, and the length of the third vertical section 505 is far greater than that of the first vertical section 501, so that the backflow preventing effect of the structure is ensured.

The combination structure of the first mounting platform 300 and the second mounting platform 400 is not limited to the mounting of the liquid cooling device 110 and the air conditioner in the present embodiment, and the combination structure of the first mounting platform 300 and the second mounting platform 400 may be applied to any case where two device mounting platforms having different heights and requiring drainage are required to be installed.

Although specific embodiments of the present invention have been described above, it will be understood by those skilled in the art that this is by way of example only and that the scope of the invention is defined by the appended claims. Various changes and modifications to these embodiments may be made by those skilled in the art without departing from the spirit and the principles of the present invention, and these changes and modifications are all within the scope of the present invention.

Claims (10)

1. An equipment mounting platform, its characterized in that: the equipment mounting platform comprises a bottom plate, a drainage area and a non-drainage area are formed on the bottom plate, the drainage area is lower than the non-drainage area, and the drainage area is provided with a drainage port which vertically penetrates through the bottom plate.

2. The equipment mounting platform of claim 1, wherein: the bottom plate is also provided with a water storage box which is sunken downwards, the water storage box is positioned in the drainage area, and the drainage port is arranged at the bottom of the water storage box.

3. The equipment mounting platform of claim 1 further comprising a support bracket positioned on the base plate; the support frame is used for mounting equipment, so that a water flow channel is formed between the equipment and the bottom plate and communicated to the drainage area.

4. The equipment mounting platform of claim 3 wherein said number of said support brackets is two, two of said support brackets being oppositely disposed on opposite sides of said base plate, said water flow channel being disposed between said two of said support brackets.

5. The equipment mounting platform of claim 4 wherein said support frame defines a flow space extending through said support frame, said flow space being oriented in a direction of flow of said water flow passage.

6. A charging and conversion battery compartment, characterized in that it comprises at least one equipment mounting platform according to any one of claims 1 to 5.

7. The charging and converting bin according to claim 6, wherein the number of the equipment mounting platforms is two, the two equipment mounting platforms are a first mounting platform and a second mounting platform respectively, and a bottom plate of the second mounting platform is higher than a bottom plate of the first mounting platform.

8. The charging and replacing bin as claimed in claim 7, wherein the charging and replacing bin is further provided with a drain pipe, the drain port of the second mounting platform is communicated with one end of the drain pipe, and the other end of the drain pipe is communicated with the drain port of the first mounting platform.

9. The charging and replacing bin according to claim 8, wherein the water draining pipe further comprises a first vertical section, a first horizontal section, a second vertical section, a second horizontal section and a third vertical section, wherein the first vertical section, the second vertical section and the third vertical section are vertically arranged, the first horizontal section and the second horizontal section are horizontally arranged, the first vertical section, the first horizontal section, the second vertical section, the second horizontal section and the third vertical section are sequentially communicated, the upper end of the first vertical section is communicated with the water draining port of the second mounting platform, and the lower end of the third vertical section is communicated with the water draining port of the first mounting platform;

the bottom plate of the second mounting platform is higher than the lowest point of the second horizontal section, and the lowest point of the second horizontal section is higher than the lowest point of the first horizontal section.

10. The charging and discharging bin according to claim 9, wherein the bottom plate of the second mounting platform is higher than the highest point of the second horizontal section; and/or the lowest point of the second horizontal segment is higher than the highest point of the first horizontal segment.

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