CN220067238U - Solar inverter installation mechanism - Google Patents

Abstract

The utility model discloses a solar inverter mounting mechanism which comprises a heat dissipation assembly, wherein the heat dissipation assembly comprises an inverter body, a heat dissipation fan, a heat dissipation fin, a heat absorption fan, a connecting plate, a conversion piece, a connecting piece, a ventilation piece and a rain shielding piece, the heat dissipation fan is positioned on the inner wall of the inverter body, the heat dissipation fin is positioned in the inverter body, the heat absorption fan is positioned on the inner wall of the heat dissipation fin, the connecting plate is fixed on one side of the inverter body, and the conversion piece and the connecting piece are both positioned on the inner wall of the inverter body. According to the device, the heat dissipation assembly is arranged, so that the inverter body can be conveniently dissipated, the heat dissipation effect is good, the service life of equipment is prolonged, the installation assembly is arranged, the inverter can be conveniently installed and fixed, the later disassembly and maintenance are convenient, the working efficiency is improved, and the practicability is high.

Description

Solar inverter installation mechanism

Technical Field

The utility model relates to the technical field of solar equipment, in particular to a solar inverter mounting mechanism.

Background

The solar inverter is also called a power regulator and a power regulator, is an indispensable part of a photovoltaic system, has the main functions of converting direct current generated by a solar panel into alternating current used by household appliances, and the electricity generated by the solar panel can be output outwards only through the treatment of the inverter; through the heliciform trachea, further strengthened waterproof performance, but, above-mentioned scheme does not possess to maintain the maintenance to the dc-to-ac converter, and solar inverter is the environment of working in the open air for a large number, because outdoor condition is comparatively complicated, so need regularly maintain the maintenance to the dc-to-ac converter, current dc-to-ac converter casing and cap are mostly fixed through the fixing bolt of a plurality of equidimension, and it is comparatively loaded down with trivial details to install and dismantle like this, and installation and dismantlement are comparatively slow, and the practicality is not high.

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 problems occurring in the prior art solar inverter mounting mechanisms.

Therefore, the utility model aims to solve the problems that the installation and the disassembly are slow and the practicability is not high.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides a solar inverter installation mechanism, its includes, the radiating component, including inverter body, heat dissipation fan, radiating fin, heat absorption fan, connecting plate, conversion piece, connecting piece, ventilative piece and weather shield, the heat dissipation fan is located the inner wall of inverter body, the radiating fin is located the inside of inverter body, the heat absorption fan is located the inner wall of radiating fin, the connecting plate is fixed in one side of inverter body, conversion piece and connecting piece all are located the inner wall of inverter body, ventilative piece is located the top of inverter body, weather shield is located the top of connecting plate; and the installation assembly comprises a sliding block, a limiting part, an installation plate, a fixing part, a vertical plate, a base and a supporting part, wherein the sliding block slides on the inner wall of the connecting plate, the limiting part is positioned in the sliding block, the installation plate is fixed on one side of the sliding block, the fixing part is positioned on the top of the installation plate, the vertical plate is fixed on one side of the installation plate, the base is fixed on the bottom of the vertical plate, and the supporting part is positioned on the top of the base.

As a preferable embodiment of the solar inverter mounting mechanism of the present utility model, wherein: the conversion piece comprises a conversion pipe and a fixing bolt, wherein the conversion pipe is communicated with the inner wall of the inverter body, and the fixing bolt is positioned on the inner wall of the conversion pipe.

As a preferable embodiment of the solar inverter mounting mechanism of the present utility model, wherein: the connecting piece comprises a connecting pipe and an insulating sleeve, wherein the connecting pipe is communicated with the inner wall of the inverter body, and the insulating sleeve is sleeved on the outer side of the connecting pipe.

As a preferable embodiment of the solar inverter mounting mechanism of the present utility model, wherein: the ventilation part comprises ventilation holes and a dust screen, the ventilation holes are formed in the inner wall of the inverter body, and the dust screen is fixed to the inner wall of the ventilation holes.

As a preferable embodiment of the solar inverter mounting mechanism of the present utility model, wherein: the rain shield comprises a fixing plate and a rain shield plate, wherein the fixing plate is fixed at the top of the connecting plate, and the rain shield plate is fixed at one side of the fixing plate.

As a preferable embodiment of the solar inverter mounting mechanism of the present utility model, wherein: the limiting piece comprises a groove and a spring, the groove is formed in the inner wall of the sliding block, and the spring is fixed to the inner wall of the groove.

As a preferable embodiment of the solar inverter mounting mechanism of the present utility model, wherein: the limiting piece further comprises a limiting nail and a limiting block, wherein the limiting nail is fixed at one end of the spring, and the limiting block is fixed at one side of the limiting nail.

As a preferable embodiment of the solar inverter mounting mechanism of the present utility model, wherein: the mounting comprises a limiting plate and a screw rod, wherein the limiting plate is fixed at the top of the mounting plate, and the screw rod is positioned on the inner wall of the mounting plate.

As a preferable embodiment of the solar inverter mounting mechanism of the present utility model, wherein: the fixing piece further comprises a fixing nut and a limiting piece, wherein the fixing nut and the limiting piece are sleeved on the outer side of the screw rod, and the limiting piece is located at the top of the limiting plate.

As a preferable embodiment of the solar inverter mounting mechanism of the present utility model, wherein: the support piece comprises a support plate and a support block, wherein the support plate is fixed at the top of the base, and the support block is fixed at one side of the support plate.

The utility model has the beneficial effects that: through setting up radiating component, can conveniently dispel the heat to the dc-to-ac converter body, and the radiating effect is good, has improved the life of equipment, through setting up installation component, can conveniently install and fix the dc-to-ac converter, and make things convenient for the later stage to dismantle and maintain, improved work efficiency, the practicality is high.

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 structural view of a solar inverter mounting mechanism;

FIG. 2 is a block diagram of a heat sink assembly of a solar inverter mounting mechanism;

FIG. 3 is an overall block diagram of the ventilation and rain shield of the solar inverter mounting mechanism;

FIG. 4 is a block diagram of a mounting assembly of a solar inverter mounting mechanism;

FIG. 5 is a cross-sectional view of the interior of a slider of the solar inverter mounting mechanism;

fig. 6 is an enlarged structural view at a shown in fig. 1.

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 to 4, a first embodiment of the present utility model provides a solar inverter mounting mechanism, a heat dissipation assembly 100 and a mounting assembly 200.

Specifically, the heat dissipation assembly 100 includes an inverter body 101, a heat dissipation fan 102, a heat dissipation fin 103, a heat absorption fan 104, a connection plate 105, a conversion piece 106, a connection piece 107, a ventilation piece 108 and a rain shielding piece 109, wherein the heat dissipation fan 102 is located on the inner wall of the inverter body 101, the heat dissipation fin 103 is located inside the inverter body 101, the heat absorption fan 104 is located on the inner wall of the heat dissipation fin 103, the connection plate 105 is fixed on one side of the inverter body 101, the conversion piece 106 and the connection piece 107 are located on the inner wall of the inverter body 101, the ventilation piece 108 is located on the top of the inverter body 101, and the rain shielding piece 109 is located on the top of the connection plate 105.

Through setting up inverter body 101, can conveniently fix radiator fan 102, radiator fin 103 and connecting plate 105, through setting up radiator fan 102, can conveniently discharge the heat in the inverter body 101, through setting up the cooperation of radiator fin 103 and heat absorption fan 104 and use, can conveniently absorb the conversion with the heat in the inverter body 101, and then improved the radiating effect, through setting up conversion piece 106 and connecting piece 107, can make things convenient for inverter body 101 to be connected with external power source, through setting up ventilative piece 108, can make things convenient for the inside circulation of air of inverter body 101, through setting up weather shield 109, can prevent that the rainwater from getting into in the inverter body 101.

Specifically, the mounting assembly 200 includes a slider 201, a limiting member 202, a mounting plate 203, a fixing member 204, a vertical plate 205, a base 206 and a supporting member 207, wherein the slider 201 slides on an inner wall of the connecting plate 105, the limiting member 202 is located inside the slider 201, the mounting plate 203 is fixed on one side of the slider 201, the fixing member 204 is located at the top of the mounting plate 203, the vertical plate 205 is fixed on one side of the mounting plate 203, the base 206 is fixed on the bottom of the vertical plate 205, and the supporting member 207 is located at the top of the base 206.

Through setting up slider 201, can make things convenient for connecting plate 105 to slide, and then can make things convenient for inverter body 101 to install, through setting up locating part 202, can conveniently carry out spacingly to inverter body 101, through setting up mounting panel 203, can conveniently fix slider 201, through setting up mounting 204, can conveniently improve the stability when mounting panel 203 is connected with riser 205, through setting up base 206, can conveniently fix riser 205, through setting up support 207, can conveniently improve riser 205's stability.

Example 2

Referring to fig. 2 to 3, a second embodiment of the present utility model is based on the previous embodiment.

Specifically, the conversion member 106 includes a conversion tube 106a and a fixing bolt 106b, the conversion tube 106a is connected to the inner wall of the inverter body 101, and the fixing bolt 106b is located on the inner wall of the conversion tube 106 a.

Through setting up transfer pipe 106a, can conveniently be with the electric current in the dc-to-ac converter principal 101 and external power source connection conversion, through setting up fixing bolt 106b, can conveniently fix external power source, and in this text, owing to be provided with the insulating pad on the fixing bolt 106b, and then can prevent that fixing bolt 106b from appearing leaking the danger of electric current.

Specifically, the connecting member 107 includes a connecting tube 107a and an insulating sleeve 107b, the connecting tube 107a is connected to the inner wall of the inverter body 101, and the insulating sleeve 107b is sleeved on the outer side of the connecting tube 107 a.

By providing the connection pipe 107a, the inverter body 101 can be conveniently connected to an external power source, and by providing the insulating cover 107b, leakage of the connection pipe 107a can be prevented.

Specifically, the ventilation member 108 includes ventilation holes 108a and a dust-proof net 108b, the ventilation holes 108a are opened on the inner wall of the inverter body 101, and the dust-proof net 108b is fixed on the inner wall of the ventilation holes 108 a.

By providing the ventilation holes 108a, ventilation inside the inverter body 101 can be improved conveniently, and by providing the dust-proof net 108b, dust can be prevented from entering the inverter body 101.

Specifically, the weather shield 109 includes a fixing plate 109a and a weather shield 109b, the fixing plate 109a is fixed to the top of the connection plate 105, and the weather shield 109b is fixed to one side of the fixing plate 109 a.

By providing the connection plate 105, the fixing plate 109a can be fixed conveniently, by providing the fixing plate 109a, the rain shield 109b can be fixed conveniently, and by providing the rain shield 109b, rainwater can be prevented from entering the inverter body 101.

Example 3

Referring to fig. 4 to 6, a third embodiment of the present utility model is based on the first two embodiments.

Specifically, the limiting member 202 includes a groove 202a and a spring 202b, the groove 202a is formed on the inner wall of the slider 201, and the spring 202b is fixed on the inner wall of the groove 202 a.

By providing the recess 202a, the spring 202b can be easily fixed, and by providing the spring 202b, the stopper nail 202c can be easily fixed.

Specifically, the limiting member 202 further includes a limiting pin 202c and a limiting block 202d, the limiting pin 202c is fixed at one end of the spring 202b, and the limiting block 202d is fixed at one side of the limiting pin 202 c.

By arranging the limiting nail 202c, the connecting plate 105 can be conveniently limited, and by arranging the limiting block 202d, the limiting nail 202c can be conveniently limited.

Specifically, the fixing member 204 includes a limiting plate 204a and a screw rod 204b, the limiting plate 204a is fixed on the top of the mounting plate 203, and the screw rod 204b is located on the inner wall of the mounting plate 203.

By arranging the mounting plate 203, the limiting plate 204a can be conveniently fixed, and by arranging the limiting plate 204a, the screw rod 204b can be conveniently limited.

Specifically, the fixing member 204 further includes a fixing nut 204c and a limiting plate 204d, where the fixing nut 204c and the limiting plate 204d are sleeved on the outer side of the screw rod 204b, and the limiting plate 204d is located at the top of the limiting plate 204 a.

Through the cooperation of the fixed nut 204c and the limiting piece 204d, the screw rod 204b can be conveniently limited, and the screw rod 204b is prevented from falling off from the mounting plate 203.

Specifically, the support 207 includes a support plate 207a and a support block 207b, the support plate 207a is fixed to the top of the base 206, and the support block 207b is fixed to one side of the support plate 207 a.

By providing the support plate 207a and the support block 207b for use in cooperation, the stability of the riser 205 can be improved.

When the inverter is used, the heat radiating fan 102 and the heat absorbing fan 104 are started firstly, the heat radiating fan 102 rotates, heat in the inverter body 101 can be discharged, the heat absorbing fan 104 and the heat radiating fins 103 are matched for use, the inverter body 101 can be sucked, when the inverter body 101 needs to be installed, the vertical plate 205 is firstly installed on the base 206, the installation plate 203 is installed on the vertical plate 205, the sliding block 201 is installed on the installation plate 203, and the connecting plate 105 on the inverter body 101 is slid outside the sliding block 201, so that the inverter can be installed.

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. A solar inverter installation mechanism, characterized in that: comprising the steps of (a) a step of,

the heat dissipation assembly (100) comprises an inverter body (101), a heat dissipation fan (102), a heat dissipation fin (103), a heat absorption fan (104), a connecting plate (105), a conversion piece (106), a connecting piece (107), a ventilation piece (108) and a rain shielding piece (109), wherein the heat dissipation fan (102) is positioned on the inner wall of the inverter body (101), the heat dissipation fin (103) is positioned in the inverter body (101), the heat absorption fan (104) is positioned on the inner wall of the heat dissipation fin (103), the connecting plate (105) is fixed on one side of the inverter body (101), the conversion piece (106) and the connecting piece (107) are both positioned on the inner wall of the inverter body (101), the ventilation piece (108) is positioned on the top of the inverter body (101), and the rain shielding piece (109) is positioned on the top of the connecting plate (105). The method comprises the steps of,

installation component (200), including slider (201), locating part (202), mounting panel (203), mounting (204), riser (205), base (206) and support piece (207), slider (201) slide in the inner wall of connecting plate (105), locating part (202) are located the inside of slider (201), mounting panel (203) are fixed in one side of slider (201), mounting panel (204) are located the top of mounting panel (203), riser (205) are fixed in one side of mounting panel (203), base (206) are fixed in the bottom of riser (205), support piece (207) are located the top of base (206).

2. The solar inverter mounting mechanism of claim 1, wherein: the conversion piece (106) comprises a conversion pipe (106 a) and a fixing bolt (106 b), wherein the conversion pipe (106 a) is communicated with the inner wall of the inverter body (101), and the fixing bolt (106 b) is positioned on the inner wall of the conversion pipe (106 a).

3. The solar inverter mounting mechanism of claim 1, wherein: the connecting piece (107) comprises a connecting pipe (107 a) and an insulating sleeve (107 b), wherein the connecting pipe (107 a) is communicated with the inner wall of the inverter body (101), and the insulating sleeve (107 b) is sleeved on the outer side of the connecting pipe (107 a).

4. The solar inverter mounting mechanism of claim 1, wherein: the ventilation piece (108) comprises ventilation holes (108 a) and a dust screen (108 b), the ventilation holes (108 a) are formed in the inner wall of the inverter body (101), and the dust screen (108 b) is fixed to the inner wall of the ventilation holes (108 a).

5. The solar inverter mounting mechanism of claim 1, wherein: the rain shield (109) comprises a fixing plate (109 a) and a rain shield (109 b), wherein the fixing plate (109 a) is fixed on the top of the connecting plate (105), and the rain shield (109 b) is fixed on one side of the fixing plate (109 a).

6. The solar inverter mounting mechanism of claim 1, wherein: the limiting piece (202) comprises a groove (202 a) and a spring (202 b), the groove (202 a) is formed in the inner wall of the sliding block (201), and the spring (202 b) is fixed to the inner wall of the groove (202 a).

7. The solar inverter mounting mechanism of claim 6, wherein: the limiting piece (202) further comprises a limiting nail (202 c) and a limiting block (202 d), wherein the limiting nail (202 c) is fixed to one end of the spring (202 b), and the limiting block (202 d) is fixed to one side of the limiting nail (202 c).

8. The solar inverter mounting mechanism of claim 1, wherein: the fixing piece (204) comprises a limiting plate (204 a) and a screw rod (204 b), wherein the limiting plate (204 a) is fixed at the top of the mounting plate (203), and the screw rod (204 b) is located on the inner wall of the mounting plate (203).

9. The solar inverter mounting mechanism of claim 8, wherein: the fixing piece (204) further comprises a fixing nut (204 c) and a limiting piece (204 d), the fixing nut (204 c) and the limiting piece (204 d) are sleeved on the outer side of the screw rod (204 b), and the limiting piece (204 d) is located at the top of the limiting plate (204 a).

10. The solar inverter mounting mechanism of claim 1, wherein: the support member (207) comprises a support plate (207 a) and a support block (207 b), wherein the support plate (207 a) is fixed on the top of the base (206), and the support block (207 b) is fixed on one side of the support plate (207 a).