CN212986485U - Mounting structure and support of dc-to-ac converter - Google Patents

Abstract

The utility model discloses a mounting structure and a bracket of an inverter, which comprises inverter mounting frames, wherein the inverter mounting frames are provided with two groups, the inverter mounting frames are horizontally connected, a visible converter is connected between the inverter mounting frames, a clamping groove which is communicated up and down is arranged on the inverter mounting frames, an extrusion gasket is arranged in the clamping groove, a moving bolt is arranged on the back surface of the extrusion gasket, the moving bolt penetrates through the side frame of the inverter mounting frames, a fixing bolt is arranged on the inverter mounting frames, the fixing bolt penetrates through the clamping groove and the extrusion gasket in the clamping groove, the utility model discloses a detachable electric push rod is arranged, the detachable electric push rod is connected with an external head outside a connector, the inverter mounting frame for mounting the inverter is arranged between the connectors, the inverter is firstly arranged on the inverter mounting frames, and then the detachable electric push rod is moved to a required position for fixing, the fixing of the inverter can be reduced in the installation process, and the labor is saved.

Description

Mounting structure and support of dc-to-ac converter

Technical Field

The utility model relates to an inverter technical field specifically is a mounting structure and support of dc-to-ac converter.

Background

The inverter converts direct current electric energy (batteries and storage batteries) into alternating current (generally 220V,50Hz sine wave), and is actually a voltage inversion process with the converter. The converter converts the alternating voltage of the power grid into stable 12V direct current for output, and the inverter converts the 12V direct current voltage output by the Adapter into high-frequency high-voltage alternating current; both parts also employ a relatively versatile Pulse Width Modulation (PWM) technique.

However, the conventional inverter has the following disadvantages: the inverter is generally installed on a bracket, a required position is fixed by the bracket, the inverter is generally moved to a proper position and then fixed in the installation process, a stable supporting force is required for supporting in the fixing process, and the inverter is not completely fixed and is in a high-altitude state in the installation process and has the risk of falling off.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a mounting structure and support of dc-to-ac converter to solve among the above-mentioned background art the dc-to-ac converter generally install on the support, utilize the fixed required position of support, in the installation, generally earlier remove suitable position with the dc-to-ac converter, then fix it again, at fixed in-process, need which stable holding power to support, and in the installation, the dc-to-ac converter is thoroughly fixed, and is in high altitude state, has the dangerous problem that drops.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a mounting structure of dc-to-ac converter, includes the dc-to-ac converter mounting bracket, the dc-to-ac converter mounting bracket is equipped with two sets ofly, and dc-to-ac converter mounting bracket horizontally connect, be connected with the ware between the dc-to-ac converter mounting bracket, set up the groove that clamps that link up from top to bottom on the dc-to-ac converter mounting bracket, clamp the inslot and be equipped with the extrusion gasket, the back of extrusion gasket is equipped with the removal bolt, the limit frame that the removal bolt runs through the dc-to-ac converter mounting bracket, be equipped with fixing bolt on the dc-to-ac converter mounting bracket, fixing bolt runs through and clamps the groove and clamp the extrusion gasket of inslot.

Preferably, the deformer comprises an inner tube, an outer tube and a rubber gasket, two ends of the outer tube are connected to the inverter mounting frame, two ends of the inner tube are inserted into the outer tube, and the rubber gasket is arranged between the outer tube and the inner tube.

The utility model provides a support of dc-to-ac converter, the base of moulding plastics is equipped with four groups, it is equipped with the support column perpendicularly on the base to mould plastics, the support column symmetry is equipped with two sets ofly, install the connector on the support column, the outside of stationary blade is equipped with external head, external head and the base of moulding plastics are equipped with removable electric push rod between, the base bolted connection of removable electric push rod is on the base of moulding plastics, the upper end of removable electric push rod is connected with the bottom contact of external head, the rear of support column is equipped with the back bracing piece, the bottom of back bracing piece is connected on the base of moulding plastics, on the top joint support post of back bracing piece.

Preferably, the supporting cross rods are arranged between the supporting columns, and the two groups of supporting cross rods are arranged.

Preferably, a sliding groove is formed in the surface of the supporting column, a sliding block is arranged on the connecting head at the position located on the sliding groove, the sliding block is arranged in the sliding groove, and mounting holes are formed in the surface of the supporting column at two sides of the sliding groove.

The utility model provides a mounting structure and support of dc-to-ac converter possesses following beneficial effect:

(1) the utility model discloses a set up removable electric push rod on the base of moulding plastics of support column bottom, and be connected removable electric push rod and the external head in the connector outside, and install the dc-to-ac converter mounting bracket of dc-to-ac converter and install between the connector, during the use, install the dc-to-ac converter on the dc-to-ac converter mounting bracket earlier, it fixes to utilize removable electric push rod to remove required position, this process carries out the dc-to-ac converter installation earlier, then it removes suitable position with it utilizing removable electric push rod, it removes required position earlier to change the tradition, then carry out the process of fixing again after required position with it support, reducible fixing to the dc-to-ac converter in the in-process of installation, and is more laborsaving, and avoid droing in.

(2) The utility model discloses a set up the shape ware that becomes between the dc-to-ac converter mounting bracket to the both ends cover that will take shape the inner tube that becomes the ware is in external intraductal, and at the contact area installation rubber gasket between the two, when the support column received vibrations, the inner tube both ends can remove in external intraductal, make it have the space of controlling, and utilize the rubber gasket to carry out the shock attenuation, reduce the influence each other between two sets of dc-to-ac converter mounting brackets.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a side view of the present invention;

FIG. 3 is a schematic view of the connection structure of the supporting column and the connecting head of the present invention;

fig. 4 is a schematic structural diagram of the inverter mounting bracket of the present invention.

In the figure: 1. injection molding the base; 2. the electric push rod can be detached; 3. a support pillar; 4. an external head; 5. a connector; 6. a support rail; 7. an inverter mounting bracket; 8. a shape changer; 9. a fixing sheet; 10. mounting holes; 11. A rear support bar; 12. clamping grooves; 13. fixing the bolt; 14. extruding the gasket; 15. moving the bolt; 16. A through hole; 17. a threaded hole; 18. a build-in tube; 19. an external pipe; 20. a rubber gasket; 21. a slider; 22. a sliding groove.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

As shown in fig. 4, the utility model provides a technical scheme: the utility model provides a mounting structure of inverter, includes inverter mounting bracket 7, inverter mounting bracket 7 is equipped with two sets ofly, and inverter mounting bracket 7 horizontally connect, be connected between the inverter mounting bracket 7 and become ware 8, set up the groove 12 that clamps that link up from top to bottom on the inverter mounting bracket 7, clamp and be equipped with extrusion gasket 14 in the groove 12, extrusion gasket 14's the back is equipped with movable bolt 15, movable bolt 15 runs through the limit frame of inverter mounting bracket 7, be equipped with fixing bolt 13 on the inverter mounting bracket 7, fixing bolt 13 runs through and clamps groove 12 and clamp extrusion gasket 14 in the groove 12.

Connector 5 is connected to the one end of dc-to-ac converter mounting bracket 7, one side of connector 5 is equipped with stationary blade 9, and has seted up the mounting hole on the stationary blade 9, be equipped with through hole 16 and screw hole 17 on the dc-to-ac converter mounting bracket 7, utilize the mounting hole on the stationary blade 9 to install fixedly.

The shape changer 8 comprises an internal pipe 18, an external pipe 19 and a rubber gasket 20, two ends of the external pipe 19 are connected to the inverter mounting frame 7, two ends of the internal pipe 18 are inserted into the external pipe 19, the rubber gasket 20 is arranged between the external pipe 19 and the internal pipe 18, when the support column 3 is vibrated and transmitted to the inverter mounting frame 7, two ends of the internal pipe 18 move in the external pipe 19, so that the external pipe has a space for left and right movement, and the rubber gasket 20 is used for damping.

It should be noted that, in operation, an inverter mounting structure and a bracket are provided, in which an L-shaped mounting piece at the rear side of a casing of an inverter is inserted into a clamping groove 12 of an inverter mounting frame 7, a moving bolt 15 is rotated to drive a pressing pad 14 at the front end of the moving bolt 15 to move towards the L-shaped mounting piece, the L-shaped mounting piece is pressed by the pressing pad 14, a fixing bolt 13 is inserted into a threaded hole 17, the fixing bolt 13 penetrates through a mounting hole on the L-shaped mounting piece after penetrating through the pressing pad 14, and finally the fixing bolt 13 is screwed on the inverter mounting frame 7, so that the inverter can be mounted on the inverter mounting frame 7, the mounting mode is simple, the pressing pad 14 is added, and the inverter is fixed again by the pressing pad 14, wherein, a shape changer 8 is arranged between the inverter mounting frames 7, and the shape changer 8 is formed by an inner pipe 18, a, External pipe 19 and rubber gasket 20 constitute, and the both ends cover of inner tube 18 is in external pipe 19 to set up rubber gasket 20 between the two, during the use, when support column 3 received vibrations, when transmitting inverter mounting bracket 7, inner tube 18 both ends removed in external pipe 19, made it have the space of removing about, and utilized rubber gasket 20 to carry out the shock attenuation.

Example 2

As shown in fig. 1-4, the same as embodiment 1, except that the injection molding base 1 is provided with four groups, the injection molding base 1 is vertically provided with two groups of support columns 3, the support columns 3 are symmetrically provided with two groups, the support columns 3 are provided with the connecting heads 5, the outer side of the fixing sheet 9 is provided with the external heads 4, the external heads 4 and the injection molding base 1 are provided with the detachable electric push rod 2, the base bolt of the detachable electric push rod 2 is connected to the injection molding base 1, the upper end of the detachable electric push rod 2 is in contact connection with the bottom end of the external heads 4, the rear of the support column 3 is provided with the rear support rod 11, the bottom end of the rear support rod 11 is connected to the injection molding base 1, and the top end of the rear support rod 11 is.

Be equipped with between the support column 3 and support horizontal pole 6, and support horizontal pole 6 and be equipped with two sets ofly, utilize and support horizontal pole 6 to fix two sets of support columns 3.

Sliding tray 22 has been seted up on the surface of support column 3, the position that lies in sliding tray 22 on connector 5 is equipped with sliding block 21, sliding block 21 is arranged in sliding tray 22, the both sides that the surface of support column 3 lies in sliding tray 22 are equipped with mounting hole 10, during the use for connector 5 can move on support column 3, and keeps connecting.

It should be noted that, in the support of the inverter, when working, the detachable electric push rod 2 is installed on the injection molding base 1 on one side of the supporting column 3, then the detachable electric push rod 2 is started, so that the top end of the detachable electric push rod 2 is contacted with the bottom end of the external head 4 outside the connector 5, and the inverter mounting frame 7 for installing the inverter is connected between the connectors 5, because the connector 5 is connected with the sliding groove 22 by the sliding block 21, the connector 5 can slide up and down on the surface of the supporting column 3, the inverter is installed on the inverter mounting frame 7, then the detachable electric push rod 2 is started, the external head 4 is driven by the detachable electric push rod 2 to move upwards, after moving to a proper position, the bolt is inserted into the mounting hole on the fixing plate 9 and then inserted into the mounting hole 10 in the supporting column 3, after fixing is finished, the detachable electric push rod, that is, this process is installed inverter earlier, then moves it to suitable position with removable electric push rod 2, changes the tradition and moves to required position earlier, then carries out the process of fixing after supporting it in required position, the reducible fixing to the inverter in the in-process of installation.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. An inverter mounting structure characterized in that: the inverter mounting structure comprises an inverter mounting frame (7), wherein the inverter mounting frame (7) is provided with two groups, the inverter mounting frame (7) is horizontally connected, a transformer (8) is connected between the inverter mounting frame (7), a clamping groove (12) which is through up and down is formed in the inverter mounting frame (7), an extrusion gasket (14) is arranged in the clamping groove (12), a movable bolt (15) is arranged on the back surface of the extrusion gasket (14), the movable bolt (15) penetrates through a side frame of the inverter mounting frame (7), a fixing bolt (13) is arranged on the inverter mounting frame (7), the fixing bolt (13) penetrates through the clamping groove (12) and the extrusion gasket (14) in the clamping groove (12), one end of the inverter mounting frame (7) is connected with a connector (5), and one side of the connector (5) is provided with a fixing sheet (9), and the fixing piece (9) is provided with a mounting hole, and the inverter mounting frame (7) is provided with a through hole (16) and a threaded hole (17).

2. The mounting structure of an inverter according to claim 1, wherein: the shape changer (8) comprises an inner tube (18), an outer tube (19) and a rubber gasket (20), two ends of the outer tube (19) are connected to the inverter mounting frame (7), two ends of the inner tube (18) are inserted into the outer tube (19), and the rubber gasket (20) is arranged between the outer tube (19) and the inner tube (18).

3. A bracket for an inverter, comprising a mounting structure for an inverter according to any one of claims 1 to 2, characterized in that: still including base (1) of moulding plastics, base (1) of moulding plastics is equipped with four groups, it is equipped with support column (3) perpendicularly on base (1) to mould plastics, support column (3) symmetry is equipped with two sets ofly, erection joint head (5) on support column (3), the outside of stationary blade (9) is equipped with external head (4), external head (4) and mould plastics are equipped with removable electric push rod (2) between base (1), the base bolted connection of removable electric push rod (2) is on base (1) of moulding plastics, the upper end of removable electric push rod (2) is connected with the bottom contact of external head (4), the rear of support column (3) is equipped with back bracing piece (11), the bottom of back bracing piece (11) is connected on base (1) of moulding plastics, on the top joint support post (3) of back bracing piece (11).

4. The bracket for an inverter according to claim 3, wherein: support horizontal pole (6) are equipped with between support column (3), and support horizontal pole (6) are equipped with two sets ofly.

5. The bracket for an inverter according to claim 3, wherein: sliding tray (22) have been seted up on the surface of support column (3), the position that lies in sliding tray (22) on connector (5) is equipped with sliding block (21), sliding block (21) are arranged in sliding tray (22), the both sides that the surface of support column (3) lies in sliding tray (22) are equipped with mounting hole (10).

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