CN113437674A

CN113437674A - New forms of energy electric power engineering block terminal

Info

Publication number: CN113437674A
Application number: CN202110811075.8A
Authority: CN
Inventors: 余革生
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-19
Filing date: 2021-07-19
Publication date: 2021-09-24

Abstract

The invention discloses a new energy power engineering distribution box, which comprises a side bracket, wherein one side of the side bracket is provided with a middle connecting column body, symmetrical brackets are arranged on two sides of the middle connecting column body, a side swinging box body is arranged on one side of the bracket on the front side, the outer surface of the bracket and the outer surface of the side swinging box body are provided with rotating rods, the rotating rods at the front side and the rear side are arranged in a crossing way, a rotary locking device which can realize locking after the support and the side swing box body as well as the support and the side support rotate for a certain angle is arranged between the support and the side swing box body as well as between the support and the side support, the device can fix and arrange the electronic boxes with various specifications between the matching connecting blocks and is clamped and limited, and a line can be pre-installed in the cavity and can be conveniently installed after a person opens one side of the cavity.

Description

New forms of energy electric power engineering block terminal

Technical Field

The invention relates to the technical field of distribution box equipment in a power process, in particular to a new energy power engineering distribution box.

Background

Because new energy automobile has increased gradually, the demand that has led to the electric pile that fills of new energy automobile in the life increases gradually, and current new energy automobile's block terminal is not very convenient in the in-service use process, first one problem lies in, current new energy automobile block terminal does not possess one can the installation support of the multiple specification and size of dress card, it is fixed then installed through welding and support to make current block terminal, it is inconvenient when carrying and transporting to have caused the block terminal like this, secondly, even also adopt criss-cross structure to carry out the dress card with the block terminal in the current equipment, but can not realize carrying out further locking dress card to the block terminal that the dress card is good, very big reduction the use strength and the corresponding transportation inconvenience of equipment.

Disclosure of Invention

The invention aims to provide a new energy power engineering distribution box, which can solve the problems in the prior art.

The invention is realized by the following technical scheme: the invention relates to a new energy electric power engineering distribution box, which comprises a side bracket, wherein one side of the side bracket is provided with a middle connecting cylinder, two sides of the middle connecting cylinder are provided with symmetrical brackets, one side of the bracket at the front side is provided with a side swinging box body, the outer surface of the bracket and the outer surface of the side swinging box body are provided with rotating rods, the rotating rods at the front side and the rear side are arranged in a crossed manner, a rotating locking device capable of realizing locking after the bracket and the side swinging box body and the bracket and the side bracket rotate for a certain angle is arranged between the bracket and the side bracket, one side of the rotating rods is provided with symmetrical matching connecting blocks, one side of the matching connecting blocks is provided with side convex blocks, the side convex blocks are in sliding matching connection with clamping grooves in the rotating rods, and the side convex blocks are in rotating matching connection with the matching connecting blocks, the side support is internally provided with an opening device which is convenient for opening the inside of the side support so as to be convenient for personnel to overhaul.

The technical scheme is that the rotation locking device comprises a transmission inner cavity arranged in the support, one side of the transmission inner cavity is communicated with a symmetrical sliding fit cavity which is of an incomplete circular ring structure, the center of the sliding fit cavity is provided with an internal thread hole positioned in the support, one side of the support is provided with a side connecting plate, one side of the side connecting plate is provided with an external thread shaft, the external thread shaft is in threaded fit connection with the internal thread hole, one side of the side connecting plate is provided with symmetrical rotating connecting blocks, the rotating connecting blocks extend into the sliding fit cavity, the rotating connecting blocks are in sliding fit connection with the sliding fit cavity, one side of the transmission inner cavity is provided with an extrusion assembly for converting the pressure pushed by the rotating connecting blocks into a telescopic convex rod extending out of the outer surface of the support, and the support is in rotating fit connection with the side swinging box body, the bracket is connected with the side bracket in a rotating fit manner.

According to the technical scheme, the extrusion assembly comprises a middle cavity communicated with one side of the transmission inner cavity, a sliding matching block is internally provided with a built-in placing cavity, a side connecting spring is arranged in the built-in placing cavity, the side connecting spring is used for connecting two sides of the sliding matching block in the built-in placing cavity, a pushing push rod is arranged on one side of the sliding matching block and arranged on the surface of the sliding matching block in the middle cavity, the pushing push rod penetrates through the support in a sliding mode, and a locking structure enabling the support to be locked with the side swinging box and the side support is arranged in the support.

The locking structure comprises side protruding boxes arranged on two sides of the support, a matching inner cavity is arranged in each side protruding box, a push-out cavity is communicated with one side of the matching inner cavity, a push-sliding plate is arranged in the matching inner cavity in a sliding manner and fixed with the push-push rod, an extrusion matching spring is elastically arranged between the push-sliding plate and the push-out cavity, symmetrical push-connecting plates are arranged in the matching inner cavity in a sliding manner and are abutted against the push-sliding plate, sliding grooves are arranged at the contact parts of the side swinging box and the side support and the side protruding boxes, the sliding grooves are connected with the side protruding boxes in a sliding manner, a plurality of symmetrical pressing convex blocks are arranged in the sliding grooves, abutting clamping blocks are arranged on one side of the push-connecting plates, and the abutting clamping blocks are abutted against the pressing convex blocks, and a buffer spring is elastically arranged between the two.

The technical scheme is that the opening device comprises a containing cavity arranged in a side bracket, the upper side and the lower side of the containing cavity are respectively communicated with symmetrical connecting sliding cavities, symmetrical clamping shells are arranged in the connecting sliding cavities in a sliding manner, symmetrical matched sliding grooves are arranged in the top and the bottom of the side bracket, the rear side of the containing cavity is opened and closed by the clamping shells, a side bracket is arranged on one side of the side bracket, symmetrical sliding connecting rods are arranged on one side of the side bracket and are connected with the matched sliding grooves in a sliding fit manner, symmetrical buffering sliding grooves are arranged in the side bracket, side convex columns are arranged on one side of the clamping shells and are connected with the buffering sliding grooves in a sliding fit manner, symmetrical elastic clamping blocks are arranged at two ends of the buffering sliding grooves and are connected with the side bracket in a sliding fit manner, the elastic clamping block and the sliding connection part of the side support are provided with springs, and the elastic clamping block and the side convex columns are installed and clamped.

According to the technical scheme, the depth of the concave cavities at different positions is different, so that the concave cavities in the rotating rods at the front side and the rear side are located on the same plane to load the electronic box.

The invention has the beneficial effects that:

the equipment disclosed by the invention is simple in structure, can be used for fixedly arranging the electronic boxes with various specifications between the matched connecting blocks and clamping and limiting, and can be used for pre-installing a circuit in the accommodating cavity and facilitating the installation of the circuit after a person opens one side of the accommodating cavity.

When the equipment works, firstly, when an electric box is arranged in the concave cavity between the matched connecting blocks, at the moment, a person can directly rotate the bracket and the side swinging box body, so that the bracket and the side swinging box body rotate to the state that the person rotates the side connecting plate to ensure that the external thread shaft is in threaded fit connection with the internal thread hole, then the rotating connecting block rotates in the sliding fit cavity, the rotating connecting block is extruded by the sliding fit cavity in a rotating way, and after the rotating connecting block is abutted against the inclined surface of the top surface of the sliding fit block, the internal placing cavities in the side connecting springs are compressed mutually, the sliding fit blocks slide in the middle cavity after being close to each other, the pushing push rod slides out from the outer surface of the bracket and extends into the fit cavity, and the pushing slide plate pushes the pushing connecting plate along with the pushing push rod, make the promotion connecting plate drive the counterbalance fixture block with the pressure moves the lug counterbalance and blocks, and the extrusion fit spring that releases the intracavity is in compression state, makes the promotion slide block has the pretightning force, makes support, side swing box and collateral branch frame can carry out indirect fixed, wherein the advantage of dwang, dress draw-in groove, cavity and collateral branch protruding piece design lies in making the cooperation connecting block can adorn the electronic box of multiple specification in advance after dress draw-in groove one side slides, when to holding the circuit in the intracavity and installing and maintaining, personnel promote make behind the collateral branch frame drive the connecting rod that slides stretches into in the cooperation spout, at this moment the elasticity grip block with the collateral branch post breaks away from dress card, makes the collateral branch post in the buffering spout towards the connecting rod that slides, makes the centre gripping casing can slide into connect the slip intracavity, at the moment, the cavity is opened, so that personnel can conveniently install the circuit and correspondingly maintain the circuit, and the convenience of installation and maintenance of the equipment is greatly improved.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

Fig. 1 is a schematic view of an internal overall structure of a new energy power engineering distribution box according to the present invention;

FIG. 2 is a schematic view of the orientation of FIG. 1;

FIG. 3 is a rear side view of the mating connector block of FIG. 1;

FIG. 4 is a side view of the side bracket of FIG. 1;

FIG. 5 is a schematic view of the direction A in FIG. 3;

FIG. 6 is a schematic view of the direction B-B in FIG. 2;

in the figure, the rotating rod 11, the clamping groove 12, the cavity 13, the matching connecting block 14, the side bracket 15, the side protrusion 21, the accommodating cavity 22, the matching sliding chute 31, the sliding connecting rod 32, the side bracket 33, the buffering sliding chute 34, the clamping shell 35, the elastic clamping block 36, the side protrusion 37, the connecting sliding cavity 41, the rotating connecting block 51, the side connecting plate 52, the external threaded shaft 53, the internal threaded hole 54, the transmission inner cavity 56, the sliding matching block 57, the middle cavity 58, the side inner cavity 61, the pushing push rod 62, the matching inner cavity 63, the pressing protrusion 64, the abutting clamping block 65, the pushing connecting plate 66, the pushing cavity 67, the pressing matching spring 68, the pushing sliding plate 69, the internal placing cavity 71, the side connecting spring 72, the sliding matching cavity 73, the bracket 81, the side swinging box 82 and the middle connecting column 83.

Detailed Description

As shown in fig. 1 to 6, the present invention is explained in detail, and for convenience of description, the following orientations are defined as follows: the up-down, left-right and front-back direction is consistent with the up-down, left-right and front-back direction of the projection relation of the graph 1, the new energy electric power engineering distribution box comprises a side bracket 15, one side of the side bracket 15 is provided with a middle connecting cylinder 83, two sides of the middle connecting cylinder 83 are provided with symmetrical brackets 81, one side of the front bracket 81 is provided with a side swinging box 82, the outer surface of the bracket 81 and the outer surface of the side swinging box 82 are provided with rotating rods 11, the rotating rods 11 on the front side and the rear side are arranged in a crossed manner, a rotating locking device capable of realizing locking after the bracket 81 and the side swinging box 82 and the bracket 81 and the side bracket 15 rotate for a certain angle is arranged between the bracket 81 and the side swinging box 82 and between the bracket 81 and the side bracket 15, one side of the rotating rods 11 is provided with symmetrical matching connecting

blocks

14, 14 one side of cooperation connecting block is provided with side lug 21, side lug 21 with dress draw-in groove 12 sliding fit in the dwang 11 is connected, side lug 21 with 14 normal running fit of cooperation connecting block are connected, be provided with in the collateral branch frame 15 and be convenient for with the inside open device that opens so that personnel overhaul of collateral branch frame 15.

Beneficially, the rotation locking device includes a transmission inner cavity 56 disposed in the bracket 81, a symmetrical sliding fit cavity 73 is communicated with one side of the transmission inner cavity 56, the sliding fit cavity 73 is an incomplete circular ring structure, an internal threaded hole 54 located in the bracket 81 is disposed in the center of the sliding fit cavity 73, a side connecting plate 52 is disposed on one side of the bracket 81, an external threaded shaft 53 is disposed on one side of the side connecting plate 52, the external threaded shaft 53 is in threaded fit connection with the internal threaded hole 54, a symmetrical rotating connecting block 51 is disposed on one side of the side connecting plate 52, the rotating connecting block 51 extends into the sliding fit cavity 73, the rotating connecting block 51 is in sliding fit connection with the sliding fit cavity 73, and an extruding assembly for converting the pressure pushed by the rotating connecting block 51 into a telescopic protruding rod extending out of the outer surface of the bracket 81 is disposed on one side of the transmission inner cavity 56, the bracket 81 is connected with the side swing box 82 in a rotating fit manner, and the bracket 81 is connected with the side bracket 15 in a rotating fit manner.

Beneficially, the extrusion assembly includes a middle cavity 58 communicated with one side of the transmission inner cavity 56, an internal placing cavity 71 is arranged in the sliding fit block 57, a side connecting spring 72 is arranged in the internal placing cavity 71, the side connecting spring 72 elastically connects the internal placing cavity 71 in the sliding fit block 57 at two sides, a pushing push rod 62 is arranged at one side of the sliding fit block 57, the pushing push rod 62 is arranged on the surface of the sliding fit block 57 in the middle cavity 58, the pushing push rod 62 slidably passes through the bracket 81, and locking structures enabling the bracket 81 to be locked with the side swing box 82 and the side bracket 15 are arranged in the side swing box 82, the side bracket 15 and the bracket 81.

Beneficially, the locking structure includes side protruding boxes 84 disposed at two sides of the bracket 81, a matching inner cavity 63 is disposed in the side protruding box 84, a push-out cavity 67 is disposed in communication with one side of the matching inner cavity 63, a push sliding plate 69 is slidably disposed in the matching inner cavity 63, the push sliding plate 69 is fixed to the push rod 62, an extrusion matching spring 68 is elastically disposed between the push sliding plate 69 and the push-out cavity 67, symmetrical push connecting plates 66 are slidably disposed in the matching inner cavity 63, the push connecting plates 66 are disposed in an abutting manner with the push sliding plate 69, sliding grooves are disposed at contact positions of the side swinging box 82 and the side bracket 15 with the side protruding box 84, the sliding grooves are connected with the side protruding box 84 in a sliding manner, a plurality of symmetrical press-moving protrusions 64 are disposed in the sliding grooves, an abutting fixture block 65 is disposed at one side of the push connecting plates 66, the abutting fixture block 65 and the pressing lug 64 are abutted and clamped, and a buffer spring is elastically arranged between the blocks 66.

Beneficially, the opening device includes a containing cavity 22 arranged in the side bracket 15, symmetrical connecting sliding cavities 41 are respectively arranged on the upper side and the lower side of the containing cavity 22 in a communicating manner, symmetrical clamping housings 35 are arranged in the connecting sliding cavities 41 in a sliding manner, symmetrical matching sliding chutes 31 are arranged in the top and the bottom of the side bracket 15, the rear side of the containing cavity 22 is opened and closed by the clamping housings 35, a side bracket 33 is arranged on one side of the side bracket 15, symmetrical sliding connecting rods 32 are arranged on one side of the side bracket 33, the sliding connecting rods 32 are connected with the matching sliding chutes 31 in a sliding fit manner, symmetrical buffering sliding chutes 34 are arranged in the side bracket 33, side convex columns 37 are arranged on one side of the clamping housings 35, the side convex columns 37 are connected with the buffering sliding chutes 34 in a sliding fit manner, and symmetrical elastic clamping blocks 36 are arranged at two ends of the buffering sliding chutes 34, the elastic clamping block 36 is connected with the side bracket 33 in a sliding fit mode, a spring is arranged at the sliding connection position of the elastic clamping block 36 and the side bracket 33, and the elastic clamping block 36 and the side convex column 37 are installed and clamped.

Advantageously, the depth of the cavity 13 is set differently at different positions, so that the cavities 13 in the rotating levers 11 at the front and rear sides are located in the same plane for loading the electronic box.

In an initial state, the device, the components and the structure are in a stop working state, the device can fix and arrange the electronic boxes with various specifications between the matching connecting blocks 14, is clamped and limited, can pre-install a circuit in the accommodating cavity 22, and is convenient for a person to install the circuit after opening one side of the accommodating cavity 22.

When the equipment is operated, firstly, when an electric box is installed in the concave cavity 13 between the matching connecting blocks 14, at this time, a person can directly rotate the bracket 81 and the side swinging box 82, the bracket 81 and the side swinging box 82 are rotated until the person rotates the side connecting plates 52, then the external thread shaft 53 and the internal thread hole 54 rotate in the sliding matching cavity 73 after the threaded matching connection, the rotating connecting block 51 rotates in the sliding matching cavity 73, the rotating connecting block 51 rotates and is extruded from the sliding matching cavity 73, and the rotating connecting block 51 is abutted against the inclined surface of the top surface of the sliding matching block 57, then the internal placing cavities 71 in the side connecting springs 72 are compressed with each other, the sliding matching blocks 57 slide in the middle cavity 58 after approaching each other, and the pushing push rods 62 slide out from the outer surface of the bracket 81 and extend into the matching inner cavities 63, the pushing sliding plate 69 pushes the pushing connecting plate 66 along with the pushing push rod 62, so that the pushing connecting plate 66 drives the abutting fixture block 65 to abut against and be clamped with the pressing moving bump 64, and the extrusion matching spring 68 in the pushing cavity 67 is in a compressed state, so that a pre-tightening force exists in the pushing sliding plate 69, and the bracket 81, the side swing box 82 and the side bracket 15 can be indirectly fixed, wherein the rotating rod 11, the clamping groove 12, the cavity 13 and the side bump 21 are designed to have the advantages that the matching connecting block 14 can be pre-clamped with electric boxes of various specifications after sliding on one side of the clamping groove 12, when installing and maintaining the circuit in the cavity 22, a person pushes the side bracket 33 and then drives the sliding connecting rod 32 to extend into the matching sliding chute 31, and at this time, the elastic clamping block 36 and the side protruding column 37 are disengaged from clamping, the messenger side projection 37 is in buffering spout 34 orientation the connecting rod 32 that slides makes centre gripping casing 35 can slide in connect in the chamber 41 that slides in, can at this moment with hold chamber 22 and open and be convenient for personnel's installation circuit and carry out corresponding maintenance, very big improvement the installation of equipment and maintain the convenience.

The above description is only an embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope defined by the claims.

Claims

1. A new forms of energy electric power engineering block terminal, includes the collateral branch frame, collateral branch frame one side is provided with the intermediate junction cylinder, the intermediate junction cylinder both sides are provided with the support of symmetry, the front side the support one side is provided with the side swing box, the support surface and the side swing box surface are provided with the dwang, the front and back side the cross arrangement between the dwang, the support with be provided with between the side swing box and between the support and the collateral branch frame and can realize the support with the side swing box and the support with carry out the rotation locking device that locks after rotating certain angle between the collateral branch frame, dwang one side is provided with the cooperation connecting block of symmetry, cooperation connecting block one side is provided with the side lug, the side lug with dress draw-in groove sliding fit in the dwang is connected, the side lug with cooperation connecting block running fit is connected, the side support is internally provided with an opening device which is convenient for opening the inside of the side support so as to be convenient for personnel to overhaul.

2. The new forms of energy electric power engineering block terminal of claim 1, characterized in that: the rotary locking device comprises a transmission inner cavity arranged in the support, one side of the transmission inner cavity is communicated with a symmetrical sliding fit cavity, the sliding fit cavity is of an incomplete circular ring structure, the center of the sliding fit cavity is provided with an internal thread hole positioned in the support, one side of the support is provided with a side connecting plate, one side of the side connecting plate is provided with an external thread shaft, the external thread shaft is in threaded fit connection with the internal thread hole, one side of the side connecting plate is provided with symmetrical rotating connecting blocks, the rotating connecting blocks extend into the sliding fit cavity, the rotating connecting blocks are in sliding fit connection with the sliding fit cavity, one side of the transmission inner cavity is provided with an extrusion assembly for converting the pressure pushed by the rotating connecting blocks into a telescopic convex rod extending out of the outer surface of the support, and the support is in rotational fit connection with the side swinging box body, the bracket is connected with the side bracket in a rotating fit manner.

3. The new forms of energy electric power engineering block terminal of claim 2, characterized in that: the extrusion assembly comprises a middle cavity communicated with one side of the transmission inner cavity, a cavity is arranged inside the sliding matching block, a side connecting spring is arranged inside the cavity, the side connecting spring is used for connecting two sides of the sliding matching block, the inside of the sliding matching block is provided with a pushing push rod, the pushing push rod is arranged on the surface of the sliding matching block in the middle cavity, the pushing push rod penetrates through the support in a sliding mode, and a locking structure enabling the support to be locked with the side swinging box and the side support is arranged in the side swinging box, the side support and the support.

4. The new forms of energy electric power engineering block terminal of claim 3, characterized in that: the locking structure comprises side convex boxes arranged at two sides of the bracket, a matching inner cavity is arranged in each side convex box, one side of the matching inner cavity is communicated with and provided with a push-out cavity, a push sliding plate is arranged in the matching inner cavity in a sliding manner and fixed with the push rod, an extrusion matching spring is elastically arranged between the push sliding plate and the push-out cavity, symmetrical push connecting plates are arranged in the matching inner cavity in a sliding manner and are abutted against the push sliding plate, sliding grooves are arranged at the contact parts of the side swing box and the side bracket and the side convex boxes, the sliding grooves are connected with the side convex boxes in a sliding manner, a plurality of symmetrical pressing convex blocks are arranged in the sliding grooves, abutting fixture blocks are arranged at one side of the push connecting plates and are abutted against the pressing convex blocks for clamping, and a buffer spring is elastically arranged between the two.

5. The new forms of energy electric power engineering block terminal of claim 4, characterized in that: the opening device comprises a containing cavity arranged in the side support, the upper side and the lower side of the containing cavity are respectively communicated with symmetrical connecting sliding cavities, symmetrical clamping shells are arranged in the connecting sliding cavities in a sliding manner, symmetrical matched sliding grooves are formed in the top and the bottom of the side support, the rear side opening of the containing cavity is closed by the clamping shells, a side support is arranged on one side of the side support, symmetrical sliding connecting rods are arranged on one side of the side support and are connected with the matched sliding grooves in a sliding fit manner, symmetrical buffering sliding grooves are formed in the side support, side protruding columns are arranged on one side of the clamping shells and are connected with the buffering sliding grooves in a sliding fit manner, symmetrical elastic clamping blocks are arranged at two ends of the buffering sliding grooves and are connected with the side support in a sliding fit manner, and springs are arranged at the sliding connection positions of the elastic clamping blocks and the side support, the elastic clamping block and the side convex columns are arranged in a clamping mode.

6. The new forms of energy electric power engineering block terminal of claim 1, characterized in that: the depth of the concave cavities at different positions is set to be different, so that the concave cavities in the rotating rods at the front side and the rear side are located on the same plane to load the electronic box.