CN213278317U - Rescue apparatus battery plug-in structure - Google Patents

Abstract

The utility model discloses a rescue apparatus battery grafting structure, it is provided with a battery jar on portable part, is provided with the grafting arch that T type structure set up in the battery jar, is provided with the electrode insertion hole on the bellied top surface of grafting simultaneously, sets up middle part direction boss and lateral part direction limit simultaneously on the bellied front flank of grafting, through above structural setting, the matching battery jar is provided with a battery module, battery module on correspond the grafting arch and be provided with the grafting draw-in groove, the grafting draw-in groove on be provided with middle part guide way and side grafting arch and side spout, realize the vertical butt joint with the battery jar through above structural setting; for preventing vertical breaking away from, the utility model discloses set up side draw-in groove and elasticity fixture block respectively between battery jar and battery module, can realize that grafting between them breaks away from under the control of adjusting the button.

Description

Rescue apparatus battery plug-in structure

Technical Field

The utility model belongs to the technical field of the fire rescue instrument, concretely relates to rescue apparatus battery grafting structure.

Background

It is known that in the field of fire rescue, forcible entry equipment is often used, the forcible entry equipment is mostly designed in a portable structure, a hydraulic pump is directly arranged at a portable part, a motor is driven by installing a battery, and the hydraulic pump works by the motor drive; moreover, when the conventional plug-in power supply is fixed, dust is easily introduced into the power supply interface, which causes short circuit or electric leakage.

Aiming at the defects, as technical personnel in the industry, how to improve the technology and design a novel-structure battery plug-in structure, the battery plug-in structure can realize stable plug-in and enables the electric conductivity to be stable is a technical problem to be solved urgently in the industry.

Disclosure of Invention

For overcoming prior art not enough, the utility model provides a rescue apparatus battery grafting structure, it adopts box-shaped structural design, combines mutually through the fixed part that protruding structure set up and the spout on the battery to this realizes that battery and rescue apparatus are stable to be pegged graft.

In order to achieve the technical purpose, the utility model adopts the following scheme: a battery plug-in structure of a rescue instrument comprises a hand-held component, wherein a battery groove is formed in the top of the hand-held component, a plug-in bulge with a T-shaped structure is arranged in the battery groove, and an electrode plug-in hole is formed in the top surface of the plug-in bulge; the middle part of the front side surface of the inserting bulge is provided with a middle guide boss, the left end and the right end of the front side surface of the inserting bulge are respectively provided with a side guide edge, and each side guide edge is respectively provided with a side sliding groove and a side clamping groove; a vertical positioning clamping groove is formed in the side guide edge; a battery module is arranged in cooperation with the battery jar, an inserting slot is arranged on the rear side face of the battery module, and an electrode inserting piece is arranged at the top of the rear side face of the inserting slot; a middle guide groove is arranged in the inserting groove, side inserting protrusions are arranged on the left side and the right side of the middle guide groove, and side sliding grooves are arranged on the outer sides of the side inserting protrusions and are inserted with the side guide edges in a matched mode; the battery module is characterized in that an adjusting groove is formed in the side inserting protrusion, an elastic fixture block system capable of moving transversely is arranged in the adjusting groove, an elastic fixture block is arranged in the elastic fixture block system and can move leftwards and rightwards to achieve transverse clamping of the side clamping groove, an adjusting button is arranged on the upper portion of the battery module, an adjusting channel is arranged on the lower portion of the adjusting button and extends to the elastic fixture block portion, a pressing elastic sheet is arranged in the adjusting channel to achieve connection of the adjusting button and the elastic fixture block, and switching control of the elastic fixture block is achieved by pressing the adjusting button.

The bellied top surface of pegging graft on be provided with the electrode positioning groove, with electrode positioning groove phase-match setting, on battery module, be close to the electrode inserted sheet and be provided with positioning electrode, positioning electrode and electrode positioning groove match and set up the grafting location of realizing the electrode.

In the adjusting channel, a positioning bulge is arranged in a region close to the adjusting key, and the pressing elastic sheet is clamped and fixed by the positioning bulge.

Two spring fixing holes are respectively formed between the two elastic clamping blocks, a spring is respectively fixed in each spring fixing hole, the pressing of the elastic sheet is realized through the spring, and the elastic clamping blocks are extruded by the pressing elastic sheet to apply force towards the side clamping grooves all the time.

The utility model has the advantages that: through the above arrangement, the utility model is provided with a battery jar on the portable component, a plugging bulge with a T-shaped structure is arranged in the battery jar, meanwhile, an electrode inserting hole is arranged on the top surface of the plugging bulge, and meanwhile, a middle guide boss and a side guide edge are arranged on the front side surface of the plugging bulge; for preventing vertical breaking away from, the utility model discloses set up side draw-in groove and elasticity fixture block respectively between battery jar and battery module, can realize that grafting between them breaks away from under the control of adjusting the button.

To sum up, the utility model discloses structural design is novel, and its convenient to use, the effectual stability that improves when battery module is connected with portable part is the rescue apparatus battery grafting structure of an ideal.

Drawings

FIG. 1 is a schematic top perspective view of the present invention;

FIG. 2 is a schematic top view of the portable component of the present invention;

FIG. 3 is an enlarged view of the structure of area A in FIG. 1;

fig. 4 is a schematic view of a three-dimensional structure of the battery module of the present invention;

fig. 5 is a schematic rear view of the battery module of the present invention;

in the drawing, 1, a portable component, 2, a battery jar, 3, an inserting projection, 31, a middle guiding lug boss, 32, an electrode inserting platform, 33, an electrode positioning groove, 34, an electrode inserting hole, 35, a vertical positioning clamping groove, 36, a side sliding groove, 37, a side clamping groove, 38, a side guiding edge, 4, a battery module, 40, an inserting clamping groove, 41, a middle guiding groove, 42, a side inserting projection, 43, an adjusting groove, 44, an electrode inserting sheet, 45, a positioning electrode, 46, a side sliding groove, 5, an elastic clamping block system, 50, an elastic clamping block, 51, a pressing elastic sheet, 52, a positioning projection, 53, an adjusting channel, 54, a transverse sliding block, 55, a spring fixing hole, 56, a spring, 6 and a pressing adjusting key are included.

Detailed Description

Referring to the attached drawings, the battery plug-in structure of the rescue apparatus comprises a hand-held part 1, wherein the hand-held part 1 is a power part of the expanding and disassembling equipment. A battery jar 2 is arranged on the top of the hand-held component 1, an inserting projection 3 with a T-shaped structure is arranged in the battery jar 2, an electrode inserting table 32 is arranged on the top surface of the inserting projection 3, and an electrode inserting hole 34 is arranged on the electrode inserting table 32; a middle guide boss 31 is arranged in the middle of the front side face of the insertion protrusion 3, side guide edges 38 are respectively arranged at the left end and the right end of the front side face of the insertion protrusion 3, a side sliding groove 36 and a side clamping groove 37 are respectively arranged on each side guide edge 38, the side sliding groove 36 is arranged at the upper part of the side clamping groove 37, and a gentle arc surface is arranged at the upper part of the side sliding groove 36; a vertical positioning clamping groove 35 is formed in the side guide edge 38; the battery module 4 is matched with the battery jar 2, the rear side surface of the battery module 4 is provided with an insertion clamping groove 40, the top of the rear side surface of the insertion clamping groove 40 is provided with an electrode inserting sheet 44, and the electrode inserting sheet 44 is arranged corresponding to the electrode inserting hole 34; a middle guide groove 41 is arranged in the inserting clamping groove 40, side inserting protrusions 42 are arranged on the left side and the right side of the middle guide groove 41, and side sliding grooves 46 are arranged on the outer sides of the side inserting protrusions 42 and are in matched inserting connection with the side guide edges 38; the side inserting protrusion 42 is provided with an adjusting groove 43, the adjusting groove 43 is internally provided with an elastic clamping block system 5 capable of moving transversely, the elastic clamping block system 5 is internally provided with an elastic clamping block 50 capable of moving leftwards and rightwards to realize transverse clamping of the side clamping groove 37, the battery module 4 is provided with an adjusting button 6 at the upper part thereof, the lower part of the adjusting button 6 is provided with an adjusting channel 53 which extends to the elastic clamping block 50, the adjusting channel 53 is internally provided with a pressing elastic sheet 51 to realize connection of the adjusting button 6 and the elastic clamping block 50, and the on-off control of the elastic clamping block 50 is realized by pressing the adjusting button 6.

Through the structure arrangement, when the battery module 4 is used, the battery module 4 is placed in the battery groove 2, under the action of gravity, the middle guide groove 41, the side sliding groove 46 and the side inserting protrusion 42 on the battery module 4 are respectively matched with the middle guide boss, the vertical positioning clamping groove 35 and the side guide edge 38, during the downward sliding process, the elastic clamping block 50 is firstly contacted with the side sliding groove 36 and then clamped in the side clamping groove 37, through the structure arrangement, the positioning of the battery module inserted into the battery groove can be realized, in order to improve the electrode inserting effect, the electrode positioning groove 33 is arranged on the top surface of the electrode inserting table 32, the electrode positioning groove 33 is matched with the electrode positioning groove 33, the positioning electrode 45 is arranged on the battery module 4 close to the electrode inserting sheet 44, the positioning electrode 45 is matched with the electrode positioning groove 33 to realize the inserting positioning of the electrode, after the structure is arranged, the electrode combination part is arranged at a high position, so that dust and foreign soil can be effectively prevented from entering, and water inlet and electric leakage accidents are prevented.

The utility model discloses when realizing the elasticity control of elasticity fixture block 50, in adjusting channel 53, be close to and adjust the 6 regional location archs 52 that is provided with of button, the location arch 52 will press down shell fragment 51 card admittedly. Two spring fixing holes 55 are respectively arranged between the two elastic clamping blocks 50, a spring 56 is respectively fixed in each spring fixing hole 55, the pressing of the elastic sheet 51 is realized through the spring 56, the elastic clamping blocks 50 on the transverse sliding block 54 are pressed by the pressing elastic sheet 51 to always apply force towards the side clamping groove 37, the transverse sliding block 54 is fixed on the pressing elastic sheet 51 and integrally connects the elastic clamping blocks 50 with the elastic clamping blocks 50, and through the structural arrangement, when the adjusting key 6 is not pressed, the battery module 4 cannot be separated from the battery groove 2. When the user needs to change the battery module, the user presses the adjusting button 6, presses the elastic sheet 51 to drive the elastic clamping block 50 to be separated from the side clamping groove 37, and then lifts the battery module 4 to take it out.

To sum up, the utility model discloses structural design is novel, and its convenient to use, the effectual stability that improves when battery module is connected with portable part is the rescue apparatus battery grafting structure of an ideal.

Claims (4)

1. A rescue apparatus battery plug structure, it includes a portable part, its characterized in that: the top of the hand-held component is provided with a battery jar, the battery jar is internally provided with an inserting projection with a T-shaped structure, and the top surface of the inserting projection is provided with an electrode inserting hole; the middle part of the front side surface of the inserting bulge is provided with a middle guide boss, the left end and the right end of the front side surface of the inserting bulge are respectively provided with a side guide edge, and each side guide edge is respectively provided with a side sliding groove and a side clamping groove; a vertical positioning clamping groove is formed in the side guide edge; a battery module is arranged in cooperation with the battery jar, an inserting slot is arranged on the rear side face of the battery module, and an electrode inserting piece is arranged at the top of the rear side face of the inserting slot; a middle guide groove is arranged in the inserting groove, side inserting protrusions are arranged on the left side and the right side of the middle guide groove, and side sliding grooves are arranged on the outer sides of the side inserting protrusions and are inserted with the side guide edges in a matched mode; the battery module is characterized in that an adjusting groove is formed in the side inserting protrusion, an elastic fixture block system capable of moving transversely is arranged in the adjusting groove, an elastic fixture block is arranged in the elastic fixture block system and can move leftwards and rightwards to achieve transverse clamping of the side clamping groove, an adjusting button is arranged on the upper portion of the battery module, an adjusting channel is arranged on the lower portion of the adjusting button and extends to the elastic fixture block portion, a pressing elastic sheet is arranged in the adjusting channel to achieve connection of the adjusting button and the elastic fixture block, and switching control of the elastic fixture block is achieved by pressing the adjusting button.

2. The rescue apparatus battery plug-in structure according to claim 1, characterized in that: the bellied top surface of pegging graft on be provided with the electrode positioning groove, with electrode positioning groove phase-match setting, on battery module, be close to the electrode inserted sheet and be provided with positioning electrode, positioning electrode and electrode positioning groove match and set up the grafting location of realizing the electrode.

3. The rescue apparatus battery plug-in structure according to claim 1, characterized in that: in the adjusting channel, a positioning bulge is arranged in a region close to the adjusting key, and the pressing elastic sheet is clamped and fixed by the positioning bulge.

4. The rescue apparatus battery plug-in structure according to claim 1, characterized in that: two spring fixing holes are respectively formed between the two elastic clamping blocks, a spring is respectively fixed in each spring fixing hole, the pressing of the elastic sheet is realized through the spring, and the elastic clamping blocks are extruded by the pressing elastic sheet to apply force towards the side clamping grooves all the time.

Images