Hinge switch anti-theft device for power change cabinet
Technical Field
The utility model relates to a tool to lock field, concretely relates to hinge switch anti-theft device for trading electricity cabinet.
Background
With the rapid development of electric bicycles, the trend of replacing lead-acid batteries by lithium batteries is inevitable, the market demand is bound to meet the geometric growth trend, and the battery changing mode becomes a new market air port in the field of electric bicycles. Different from an electric automobile, the electric bicycle battery replacement technology requirement is low, the cost requirement and the network site laying requirement are more market foundation, the corresponding terminal market comprises express delivery, takeaway and the like, and the mode can quickly fall to the ground and form a commercial closed loop under the market demand just needed.
The existing power change cabinet door lock is a common mechanical lock, and the problems that a switch lock is touched from the outside, the door is closed in a simulation mode, system misjudgment is caused, and the internal device of the power change cabinet is lost and serious loss is caused exist.
SUMMERY OF THE UTILITY MODEL
The utility model discloses a solve current cabinet lock that trades and be ordinary mechanical lock, have the switch lock that touches from the outside, the simulation is closed the door, causes the condition that the system misjudges, leads to trading the cabinet internal installation and loses, causes the problem of serious loss, and provides a hinge switch anti-theft device for trading the electricity cabinet.
The utility model discloses a hinge switch anti-theft device for a power-changing cabinet, which comprises a door side cam hinge, a box side hinge, a microswitch, a power-changing cabinet body and a cabinet door;
the side surface of the power exchange cabinet box body is provided with a square through hole, the inner wall of the square through hole is provided with a bar-shaped baffle, the bar-shaped baffle and the power exchange cabinet box body are integrally arranged, the edge of the square through hole on the side surface of the power exchange cabinet box body is hinged with the edge of a cabinet door, the side surface in the power exchange cabinet box body is provided with a micro switch, one end of the front side of the bar-shaped baffle at the top of the power exchange cabinet box body is provided with a box body side hinge, the output end of the micro switch sequentially penetrates through the bar-shaped baffle and the box body side hinge at the top end of the power exchange cabinet box body, the cross section of the box body side hinge is U-shaped, the box body side hinge is hinged with a door side cam hinge through a pin shaft, and the outer surface of the door side cam hinge is connected with the inner side surface of the cabinet door;
further, the width of the strip-shaped baffle is 2 cm-5 cm;
furthermore, the outer surface of the door side cam hinge is welded and fixed with the inner side surface of the cabinet door;
further, a strip-shaped baffle plate at the top of the battery replacement cabinet box body is welded and fixed with the back of a side hinge of the box body;
furthermore, the output end of the microswitch is contacted with the outer surface of the door side cam hinge;
furthermore, the output end surface of the microswitch is hemispherical;
further, when the locking device is used, a microswitch is arranged on the side face of the inside of the battery replacing cabinet body, a box body side hinge is arranged at one end of the front side of a bar-shaped baffle at the top of the battery replacing cabinet body, the output end of the microswitch sequentially penetrates through the bar-shaped baffle at the top of the battery replacing cabinet body and the box body side hinge, the cross section of the box body side hinge is U-shaped, the box body side hinge is hinged to a door side cam hinge through a pin shaft, the outer surface of the door side cam hinge is connected with the inner side face of a cabinet door, the door side cam hinge is hinged to the box body side hinge along with the closing of the cabinet door, the door side cam hinge rotates relative to the box body side hinge and extrudes the output end of the microswitch, the microswitch triggers the microswitch at the moment, and the locking and closing of the cabinet door are realized.
Compared with the prior art, the utility model following beneficial effect has:
the utility model overcomes the defects of the prior art, the inner side surface of the battery replacement cabinet box body is provided with a micro switch, the front end of the bar baffle at the top of the battery replacement cabinet box body is provided with a box body side hinge, the output end of the micro switch sequentially passes through the bar baffle at the top of the battery replacement cabinet box body and the box body side hinge, the box body side hinge is hinged with the door side cam hinge through a pin shaft, the outer surface of the door side cam hinge is connected with the inner side surface of the cabinet door, the door side cam hinge is hinged with the box body side hinge along with the closing of the cabinet door, so that the door side cam hinge rotates relative to the box body side hinge and extrudes the output end of the micro switch, the micro switch is triggered at the moment to realize the locking and closing of the cabinet door, the structure is compact, the position of the device installed at the battery replacement cabinet body is more concealed, and the structure principle of the inner part can not be known under the condition of disassembly, avoid stolen phenomenon to avoid trading losing of electric cabinet internal device, and then avoid causing serious loss.
Drawings
Fig. 1 is a three-dimensional schematic view of a hinge switch anti-theft device for a power transformation cabinet according to the present invention;
fig. 2 is a sectional top view of the hinge switch anti-theft device for a power change cabinet according to the present invention;
fig. 3 is a partially enlarged schematic view of a portion B of a hinge switch anti-theft device for a power distribution cabinet shown in fig. 2.
Detailed Description
The first embodiment is as follows: the present embodiment is described with reference to fig. 1 to 3, and the hinge switch anti-theft device for a power switching cabinet according to the present embodiment includes a door-side cam hinge 1, a cabinet-side hinge 2, a microswitch 3, a power switching cabinet box 4, and a cabinet door 5;
the side surface of the power exchange cabinet box body 4 is provided with a square through hole, the inner wall of the square through hole is provided with a bar-shaped baffle, the bar-shaped baffle and the power exchange cabinet box body 4 are integrally arranged, the edge of the square through hole on the side surface of the power exchange cabinet box body 4 is hinged with the edge of the cabinet door 5, the side surface inside the power exchange cabinet box body 4 is provided with a micro switch 3, one end of the front surface of the bar-shaped baffle at the top of the power exchange cabinet box body 4 is provided with a box body side hinge 2, the output end of the micro switch 3 sequentially penetrates through the bar-shaped baffle at the top end of the power exchange cabinet box body 4 and the box body side hinge 2, the cross section of the box body side hinge 2 is U-shaped, the box body side hinge 2 is hinged with a door side cam hinge 1 through a pin shaft, and the outer surface of the door side cam hinge 1 is connected with the inner side surface of the cabinet door 5;
this embodiment, when using, utilize and trade the inside side of electricity cabinet box 4 and be equipped with micro-gap switch 3, trade the positive one of the bar baffle at electricity cabinet box 4 top and serve and be equipped with box side hinge 2, and micro-gap switch 3's output passes bar baffle and box side hinge 2 on 4 tops of electricity cabinet box in proper order, the cross-section of box side hinge 2 is the U type, box side hinge 2 is through round pin axle and door side cam hinge 1 hinged joint, and door side cam hinge 1's surface is connected with the medial surface of cabinet door 5, along with closing of cabinet door 5, door side cam hinge 1 and box side hinge 2 hinged joint, make door side cam hinge 1 rotate for box side hinge 2, and produce the extrusion to micro-gap switch 3's output, micro-gap switch 3 triggers this moment, realize closing cabinet door 5's locking.
The second embodiment is as follows: the present embodiment will be described with reference to fig. 1 to 3, and the present embodiment is a further limitation of the hinge switch according to the first embodiment, and the width of the strip-shaped bezel is 2cm to 5cm in the anti-theft device for a hinge switch of a power distribution cabinet according to the present embodiment.
The third concrete implementation mode: the present embodiment will be described with reference to fig. 1 to 3, and the present embodiment is a further limitation of the hinge switch according to the first embodiment, and in the anti-theft device for a hinge switch for a power distribution cabinet according to the present embodiment, the outer surface of the door-side cam hinge 1 is welded and fixed to the inner surface of the cabinet door 5.
The fourth concrete implementation mode: the present embodiment will be described with reference to fig. 1 to 3, and the present embodiment is a further limitation of the hinge switch described in the first embodiment, and in the antitheft device for a hinge switch of a power switching cabinet described in the present embodiment, the strip-shaped baffle plate at the top of the box 4 of the power switching cabinet is welded and fixed to the back surface of the box-side hinge 2.
The fifth concrete implementation mode: the present embodiment will be described with reference to fig. 1 to 3, and the present embodiment is a further limitation of the hinge switch according to the first embodiment, and in the antitheft device for a hinge switch for a power distribution cabinet according to the present embodiment, the output end of the microswitch 3 is in contact with the outer surface of the door-side cam hinge 1.
The sixth specific implementation mode: the present embodiment will be described with reference to fig. 1 to 3, and the present embodiment is a further limitation of the hinge switch according to the fifth embodiment, and in the hinge switch antitheft device for a power distribution cabinet according to the present embodiment, the output end surface of the microswitch 3 is hemispherical.
Principle of operation
When using, utilize and trade the inside side of electricity cabinet box 4 and be equipped with micro-gap switch 3, trade one of the front of the bar baffle at electricity cabinet box 4 top and serve and be equipped with box side hinge 2, and micro-gap switch 3's output passes bar baffle and box side hinge 2 on 4 tops of electricity cabinet box in proper order, the cross-section of box side hinge 2 is the U type, box side hinge 2 is through round pin axle and door side cam hinge 1 hinged joint, and door side cam hinge 1's surface is connected with the medial surface of cabinet door 5, along with closing of cabinet door 5, door side cam hinge 1 and box side hinge 2 hinged joint, make door side cam hinge 1 rotate for box side hinge 2, and produce the extrusion to micro-gap switch 3's output, micro-gap switch 3 triggers this moment, the realization is closed to the locking of cabinet door 5.