CN220190689U - Energy storage inverter cabinet - Google Patents

Abstract

The utility model discloses an energy storage inverter cabinet which comprises a cabinet body, a cabinet door, an inverter body, a wire inlet hole and a heat dissipation piece, wherein the cabinet door rotates on the outer side of the cabinet body, the inverter body is arranged in the cabinet body, the wire inlet hole is formed in the outer side of the cabinet body, and the heat dissipation piece is arranged at the bottom of the cabinet body. According to the device, the inserting plates on the limiting plates are inserted into different clamping grooves, the positions of the limiting plates can be adjusted, so that the distance between the wire harnesses is adjusted, the connecting rods on two sides of the limiting plates are pulled to drive the springs to contract, then the wire harnesses pass through the space between the two clamping plates, the connecting rod springs are loosened to lose tension and reset, the clamping plates are driven to contract together, the wire harnesses are clamped and fixed, the wire harnesses attached to the back of the cabinet body are combed and clamped in the second clamping buckle, and the wire harnesses are separated from the wire harnesses on two sides of the cabinet body, so that the wire harnesses are more convenient to arrange.

Description

Energy storage inverter cabinet

Technical Field

The utility model relates to the technical field of solar power generation, and is applied to the aspects of solar energy storage, power conversion and power transmission, in particular to an energy storage inverter cabinet.

Background

The inverter is a converter for converting direct current energy into alternating current with fixed frequency and fixed voltage or frequency and voltage. The inverter comprises an inverter bridge, control logic and a filter circuit. The cabinet structure of the energy storage inverter is widely applicable to air conditioners, home theatres, electric grinding wheels, electric tools, sewing machines, DVDs, VCDs, computers, televisions, washing machines, smoke exhaust hoods, refrigerators, video recorders, massagers, fans, illumination and the like, and compared with a document CN214070334U, the cabinet structure of the energy storage inverter is provided with a dust-proof plate at an air inlet of equipment, and a moisture-proof aerogel felt is arranged at an air outlet, so that mosquitoes and dust can be effectively prevented from entering the equipment, and the service life of the equipment is greatly prolonged. However, in the existing cabinet, due to the dispersed arrangement of the connecting wires, the adhesiveness of dust is increased, and the dust is easy to move on the circuit board when the cabinet is opened for maintenance, so that the dust deposited on the connecting wires is scattered in the circuit space, the circuit pollution is increased, the circuit performance is reduced, and the electrical appliance is easy to fail.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the utility model and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the utility model and in the title of the utility model, which may not be used to limit the scope of the utility model.

The present utility model has been made in view of the above and/or existing problems in energy storage inverter cabinets.

Therefore, the utility model aims to solve the problems that a mechanism for arranging a wire is not arranged in a cabinet in the prior device, the wiring of a power cable and a signal cable in the cabinet is messy, and the maintenance is inconvenient, so that the utility model has room for improvement.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides an energy storage inverter rack, its includes, the rack includes the cabinet body, cabinet door, dc-to-ac converter body, entrance hole and radiating piece, the cabinet door rotate in the outside of the cabinet body, the dc-to-ac converter body set up in the inside of the cabinet body, the entrance hole set up in the outside of the cabinet body, the radiating piece set up in the bottom of the cabinet body, and; the wire arrangement assembly comprises a supporting rod, a jack, a first wire harness piece, a second wire harness piece and a binding belt, wherein the jack is arranged in the supporting rod, the first wire harness piece is arranged on the outer side of the supporting rod, the second wire harness piece is arranged in the cabinet, and the binding belt is arranged in the jack.

As a preferred solution of the energy storage inverter cabinet of the present utility model, the following applies: the cabinet door comprises a door body and an observation port, wherein the door body rotates on the outer side of the cabinet body, and the observation port is fixed in the door body.

As a preferred solution of the energy storage inverter cabinet of the present utility model, the following applies: the heat dissipation piece comprises a heat dissipation box, a heat dissipation fan and a through hole, wherein the heat dissipation box is fixed on the outer side of the cabinet body, the heat dissipation fan is fixed on the inner wall of the heat dissipation box, and the through hole is formed in the top of the heat dissipation box.

As a preferred solution of the energy storage inverter cabinet of the present utility model, the following applies: the support rod comprises a cross rod and a vertical rod, the vertical rod is fixed in the cabinet body, and the cross rod is inserted into the outer side of the vertical rod.

As a preferred solution of the energy storage inverter cabinet of the present utility model, the following applies: the first wire harness piece comprises a clamping groove, a limiting plate and an inserting plate, wherein the clamping groove is formed in the vertical rod, the limiting plate is inserted into the outer side of the clamping groove, and the inserting plate is fixed to the outer side of the limiting plate.

As a preferred solution of the energy storage inverter cabinet of the present utility model, the following applies: the first wire harness piece further comprises a connecting rod, a spring and a clamping plate, wherein the connecting rod is inserted into the limiting plate, the spring is sleeved on the outer side of the connecting rod, and the clamping plate is fixed on the outer side of the connecting rod.

As a preferred solution of the energy storage inverter cabinet of the present utility model, the following applies: the second wire harness piece comprises a fixing plate and a second buckle, wherein the fixing plate is fixed on the inner wall of the cabinet body, and the second buckle is fixed on the outer side of the fixing plate.

As a preferred solution of the energy storage inverter cabinet of the present utility model, the following applies: the second wire harness piece further comprises a slot, and the slot is formed in the top of the fixing plate.

As a preferred solution of the energy storage inverter cabinet of the present utility model, the following applies: the second wire harness part further comprises a mounting block, and the mounting block is fixed on the outer side of the fixing plate.

As a preferred solution of the energy storage inverter cabinet of the present utility model, the following applies: the heat dissipation piece further comprises supporting legs, and the supporting legs are fixed to the bottom of the heat dissipation box.

The utility model has the beneficial effects that: the wire harnesses of the electric elements on the supporting rods are separated and straightened, the wire harnesses are fixed through the through holes in the limiting plates, the positions of the limiting plates can be adjusted by inserting the inserting plates on the limiting plates into different clamping grooves, the distance between the wire harnesses is adjusted, the connecting rods on two sides of the limiting plates are pulled to drive the springs to contract, then the wire harnesses pass through the space between the two clamping plates, the connecting rod springs are loosened to lose tension and reset, the clamping plates are driven to contract together, the wire harnesses are clamped and fixed, the wire harnesses with different thickness and quantity can be clamped and fixed through the elasticity of the springs, the binding belts pass through the inserting holes and are then bound on the outer sides of the wire harnesses, one-layer binding is applied to the wire harnesses, the wire harnesses are prevented from falling and scattering from the inside the limiting plates, the wire harnesses attached to the back of the cabinet body are combed and clamped inside the second clamping buckles, the wire harnesses on two sides of the cabinet body are separated, and the wire harnesses are more convenient to arrange.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

FIG. 1 is a block diagram of an energy storage inverter cabinet;

FIG. 2 is an enlarged structural view of the portion A in FIG. 1;

FIG. 3 is a first wire harness structural view of an energy storage inverter cabinet;

FIG. 4 is a block diagram of an energy storage inverter cabinet;

fig. 5 is a second wire harness structural diagram of an energy storage inverter cabinet.

Detailed Description

In order that the above-recited objects, features and advantages of the present utility model will become more readily apparent, a more particular description of the utility model will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the utility model. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 and 3, a first embodiment of the present utility model provides an energy storage inverter cabinet, which includes a cabinet 100 and a wire arrangement assembly 200, wherein the wire arrangement assembly 200 is used to generalize the wire harness arrangement inside the cabinet 100.

The cabinet 100 comprises a cabinet body 101, a cabinet door 102, an inverter body 103, a wire inlet hole 104 and a heat dissipation piece 105, wherein the cabinet door 102 rotates on the outer side of the cabinet body 101, the inverter body 103 is arranged in the cabinet body 101, the wire inlet hole 104 is formed in the outer side of the cabinet body 101, and the heat dissipation piece 105 is arranged at the bottom of the cabinet body 101.

Cabinet door 102 seals cabinet 101, provides the protection to electrical apparatus such as inside dc-to-ac converter body 103, and entrance hole 104 is used for connecting outside pencil to cabinet 101 inside, and radiator 105 is used for the heat dissipation to cabinet 101 to handle, avoids cabinet 101 inside high temperature to lead to electrical apparatus impaired.

The flat cable assembly 200 comprises a supporting rod 201, an inserting hole 202, a first wire harness 203, a second wire harness 204 and a binding belt 205, wherein the inserting hole 202 is arranged in the supporting rod 201, the first wire harness 203 is arranged on the outer side of the supporting rod 201, the second wire harness 204 is arranged in the cabinet 101, and the binding belt 205 is arranged in the inserting hole 202.

The bracing piece 201 is used for supporting fixed electrical apparatus, and jack 202 can adjust the position of bracing piece 201, and first bundle wire piece 203 is separately arranged fixedly with power cable and the signal cable that is close to bracing piece 201, and second bundle wire piece 204 is used for the pencil induction arrangement to cabinet body 101 back, and ribbon 205 is binded in the outside of power cable and signal cable, applys one deck constraint more to power cable and signal cable, avoids the pencil to drop scattered.

Example 2

Referring to fig. 1, a second embodiment of the present utility model is based on the previous embodiment.

The cabinet door 102 includes a door body 102a and an observation port 102b, the door body 102a rotates outside the cabinet body 101, and the observation port 102b is fixed inside the door body 102 a.

The door 102a closes the cabinet 101, and the observation port 102b is used for observing the condition inside the cabinet 101.

The heat sink 105 includes a heat dissipation case 105a, a heat dissipation fan 105b, and a through hole 105c, the heat dissipation case 105a is fixed to the outside of the cabinet 101, the heat dissipation fan 105b is fixed to the inner wall of the heat dissipation case 105a, and the through hole 105c is opened at the top of the heat dissipation case 105 a.

The heat dissipation fan 105b inside the heat dissipation box 105a starts to accelerate the air exchange inside and outside the cabinet 101 through the through hole 105c, so that the hot air inside the cabinet 101 is cooled, the temperature inside the cabinet 101 is reduced, and the electric protection is provided.

The heat sink 105 further includes support legs 105d, and the support legs 105d are fixed to the bottom of the heat sink 105 a.

The whole cabinet 100 is supported and fixed by the support legs 105d, so that the firmness of the cabinet 100 during operation is improved.

Example 3

Referring to fig. 2 to 5, a third embodiment of the present utility model is based on the first two embodiments.

The supporting rod 201 comprises a cross rod 201a and a vertical rod 201b, the vertical rod 201b is fixed inside the cabinet 101, and the cross rod 201a is inserted into the outer side of the vertical rod 201 b.

The cross bar 201a can be inserted into the corresponding insertion holes 202 on the upright bar 201b according to the required height, so that the electric appliance component with different volumes is suitable for.

The first wire binding member 203 includes a clamping groove 203a, a limiting plate 203b and a plugboard 203f, the clamping groove 203a is formed in the upright 201b, the limiting plate 203b is inserted into the outer side of the clamping groove 203a, and the plugboard 203f is fixed to the outer side of the limiting plate 203 b.

The wire harnesses of the electric elements on the supporting rod 201 are separated and straightened, pass through the through holes in the limiting plate 203b, are fixed, and the positions of the limiting plate 203b can be adjusted by inserting the inserting plates 203f on the limiting plate 203b into different clamping grooves 203a, so that the distance between the wire harnesses is adjusted.

The first wire binding member 203 further includes a connecting rod 203c, a spring 203d, and a clamping plate 203e, wherein the connecting rod 203c is inserted into the limiting plate 203b, the spring 203d is sleeved outside the connecting rod 203c, and the clamping plate 203e is fixed outside the connecting rod 203 c.

The connecting rods 203c on two sides of the limiting plate 203b are pulled to drive the springs 203d to shrink, then the wire harness passes through between the two clamping plates 203e, the connecting rods 203c are loosened, the springs 203d lose tension to reset, the clamping plates 203e are driven to shrink together, the wire harness is clamped and fixed, and the wire harnesses with different thickness and number can be clamped and fixed through the elasticity of the springs 203 d.

The second wire binding member 204 includes a fixing plate 204a and a second buckle 204b, the fixing plate 204a is fixed on the inner wall of the cabinet 101, and the second buckle 204b is fixed on the outer side of the fixing plate 204 a.

The wire harnesses attached to the back of the cabinet body 101 are carded, generalized and clamped in the second buckle 204b, and are separated from the wire harnesses on two sides of the cabinet body 101, so that the arrangement is facilitated.

The second wire harness 204 further includes a slot 204c, and the slot 204c is formed on the top of the fixing plate 204 a.

The slot 204c facilitates the wire harness to be snapped into the interior of the second snap 204 b.

The second wire harness 204 further includes a mounting block 204d, and the mounting block 204d is fixed to the outer side of the fixing plate 204 a.

Bolts are fixed to the inside of the cabinet 101 through the mounting blocks 204d, thereby fixing the fixing plate 204a to the inside of the cabinet 101.

When the wire harness clamping device is used, the position of the supporting rod 201 is adjusted, then the wire harnesses of the electric components on the supporting rod 201 are separated and straightened, the wire harnesses pass through the through holes in the limiting plate 203b, the wire harnesses are fixed, the inserting plate 203f on the limiting plate 203b is inserted into the different clamping grooves 203a, the position of the limiting plate 203b can be adjusted, the distance between the wire harnesses is adjusted, the connecting rods 203c on two sides of the limiting plate 203b are pulled to drive the springs 203d to shrink, then the wire harnesses pass through the two clamping plates 203e, the connecting rods 203c are loosened, the springs 203d lose tension to reset, the clamping plates 203e are driven to shrink together, the wire harnesses are clamped and fixed, the wire harnesses with different thickness and quantity can be clamped and clamped through the elastic force of the springs 203d, the wire harnesses pass through the inserting holes 202 and then are bound on the outer sides of the wire harnesses, one layer of binding tape is applied to the wire harnesses, the wire harnesses are prevented from falling and scattering from the inner part of the limiting plate, the wire harnesses are clamped in the second clamping buckle 204b, the wire harnesses attached to the back of the cabinet 101 are separated from the two sides of the cabinet body, and the wire harnesses are more convenient to arrange.

It should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present utility model may be modified or substituted without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered in the scope of the claims of the present utility model.

Claims (10)

1. An energy storage inverter cabinet, characterized in that: comprising the steps of (a) a step of,

the cabinet (100) comprises a cabinet body (101), a cabinet door (102), an inverter body (103), a wire inlet hole (104) and a heat dissipation piece (105), wherein the cabinet door (102) rotates on the outer side of the cabinet body (101), the inverter body (103) is arranged in the cabinet body (101), the wire inlet hole (104) is formed in the outer side of the cabinet body (101), and the heat dissipation piece (105) is arranged at the bottom of the cabinet body (101);

the wire arrangement assembly (200) comprises a supporting rod (201), a jack (202), a first wire harness piece (203), a second wire harness piece (204) and a binding belt (205), wherein the jack (202) is arranged in the supporting rod (201), the first wire harness piece (203) is arranged on the outer side of the supporting rod (201), the second wire harness piece (204) is arranged in the cabinet body (101), and the binding belt (205) is arranged in the jack (202).

2. The energy storage inverter cabinet of claim 1, wherein: the cabinet door (102) comprises a door body (102 a) and an observation port (102 b), the door body (102 a) rotates on the outer side of the cabinet body (101), and the observation port (102 b) is fixed in the door body (102 a).

3. The energy storage inverter cabinet of claim 1, wherein: the heat dissipation piece (105) comprises a heat dissipation box (105 a), a heat dissipation fan (105 b) and a through hole (105 c), wherein the heat dissipation box (105 a) is fixed on the outer side of the cabinet body (101), the heat dissipation fan (105 b) is fixed on the inner wall of the heat dissipation box (105 a), and the through hole (105 c) is formed in the top of the heat dissipation box (105 a).

4. The energy storage inverter cabinet of claim 1, wherein: the support rod (201) comprises a cross rod (201 a) and a vertical rod (201 b), the vertical rod (201 b) is fixed inside the cabinet body (101), and the cross rod (201 a) is inserted into the outer side of the vertical rod (201 b).

5. The energy storage inverter cabinet of claim 4, wherein: the first wire harness part (203) comprises a clamping groove (203 a), a limiting plate (203 b) and an inserting plate (203 f), wherein the clamping groove (203 a) is formed in the vertical rod (201 b), the limiting plate (203 b) is inserted into the outer side of the clamping groove (203 a), and the inserting plate (203 f) is fixed to the outer side of the limiting plate (203 b).

6. The energy storage inverter cabinet of claim 5, wherein: the first wire harness (203) further comprises a connecting rod (203 c), a spring (203 d) and a clamping plate (203 e), wherein the connecting rod (203 c) is inserted into the limiting plate (203 b), the spring (203 d) is sleeved on the outer side of the connecting rod (203 c), and the clamping plate (203 e) is fixed on the outer side of the connecting rod (203 c).

7. The energy storage inverter cabinet of claim 1, wherein: the second wire harness piece (204) comprises a fixing plate (204 a) and a second buckle (204 b), the fixing plate (204 a) is fixed on the inner wall of the cabinet body (101), and the second buckle (204 b) is fixed on the outer side of the fixing plate (204 a).

8. The energy storage inverter cabinet of claim 7, wherein: the second wire harness (204) further comprises a slot (204 c), and the slot (204 c) is formed in the top of the fixing plate (204 a).

9. The energy storage inverter cabinet of claim 7, wherein: the second wire harness (204) further includes a mounting block (204 d), and the mounting block (204 d) is fixed to the outer side of the fixing plate (204 a).

10. The energy storage inverter cabinet of claim 3, wherein: the heat dissipation element (105) further comprises a support leg (105 d), and the support leg (105 d) is fixed to the bottom of the heat dissipation box (105 a).