CN210837625U

CN210837625U - Energy-saving management wireless power-off control system

Info

Publication number: CN210837625U
Application number: CN201921885962.4U
Authority: CN
Inventors: 刘军
Original assignee: Dongguan Lyuneng Environmental Protection Energy Saving Technology Co ltd
Current assignee: Dongguan Lyuneng Environmental Protection Energy Saving Technology Co ltd
Priority date: 2019-11-05
Filing date: 2019-11-05
Publication date: 2020-06-23
Anticipated expiration: 2029-11-05

Abstract

The utility model relates to the technical field of power-off controllers, in particular to an energy-saving management wireless power-off control system, which comprises a mounting seat, wherein the side wall of one side of the mounting seat is provided with two supporting mechanisms, the position of the inside of the mounting seat corresponding to one of the supporting mechanisms is provided with a positioning mechanism, the inside of the positioning mechanism is provided with a pressing mechanism, when in use, two supporting plates on the power-off controller are aligned with and inserted into supporting grooves, and simultaneously the supporting plates push back positioning rods into the positioning holes along the radian of the upper surfaces of the supporting plates, so that the supporting plates can continuously move into the supporting grooves, when the supporting plates are abutted against the bottoms of the supporting grooves, the orifices of the positioning holes are coincided with the notches of the positioning grooves, at the moment, springs push ring blocks to press downwards, and drive the positioning rods to press downwards into the positioning grooves, and then accomplished the fixed of backup pad and outage controller, and can not become flexible at will, it is comparatively firm to fix.

Description

Energy-saving management wireless power-off control system

Technical Field

The utility model relates to a power-off controller technical field especially relates to an energy-conserving management wireless power-off control system.

Background

The power-off controller is a device for disconnecting a circuit when the circuit is in a dangerous case, so as to avoid further expansion of the dangerous case along the circuit, and is widely applied to current daily life and electronic operation equipment.

The existing power-off controller is made of plastic materials and is only fixed through bolts, so that the power-off controller is easy to slide and loosen, the installation stability of the power-off controller is low, and the power-off controller cannot play a power-off control function of the power-off controller.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current power-off controller and being plastics material and making, and just fix it through the bolt, this makes power-off controller produce smooth silk and not hard up comparatively easily, and then makes power-off controller's installation stability can be lower, does not play the shortcoming of a power-off control function of itself, and the wireless power-off control system of an energy-conserving management who proposes.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the design is an energy-saving management wireless power-off control system which comprises a mounting seat, wherein two supporting mechanisms are arranged on the side wall of one side of the mounting seat, a positioning mechanism is arranged on the position, corresponding to one of the supporting mechanisms, of the inside of the mounting seat, a pressing mechanism is arranged inside the positioning mechanism, and one lifting mechanism is fixedly connected to the top end of the positioning mechanism.

Preferably, two supporting mechanism all includes one and is the support groove that the slope form set up, two support the groove and be the parallel form and set up on the lateral wall of mount pad wherein one side, two support equal sliding connection in the inslot has a backup pad, two the wherein one end of backup pad all runs through the notch that corresponds the support groove and extends to outside the mount pad, two the one end that the backup pad is located the support inslot is the arc setting, two the common fixedly connected with of one end power-off control ware of backup pad position outside the mount pad.

Preferably, the positioning mechanism comprises a positioning groove, the positioning groove is formed in the upper surface of the support plate in the support groove, a positioning hole is vertically formed in the wall of the support groove corresponding to the positioning groove, a positioning rod is slidably connected in the positioning hole, and the lower end of the positioning rod sequentially penetrates through a lower end orifice of the positioning hole and a notch of the positioning groove and extends into the positioning groove.

Preferably, the pressing mechanism comprises an annular groove, the annular groove is formed in the hole wall of the positioning hole, an annular block is fixedly sleeved on the rod wall of the positioning rod corresponding to the annular groove, one end, far away from the positioning rod, of the annular block penetrates through a notch of the annular groove and extends into the annular groove, a spring is fixedly connected to the upper surface of the annular block, and the upper end of the spring is fixedly connected to the upper end groove wall of the annular groove.

Preferably, the lifting mechanism comprises a threaded groove which is vertically formed in the upper surface of the positioning rod, a threaded rod is connected to the threaded groove in an internal thread mode, the upper end of the threaded rod sequentially penetrates through a notch of the threaded groove and an upper end orifice of the positioning hole and extends out of the mounting seat, and a lifting handle is fixedly connected to the top end, located outside the mounting seat, of the threaded rod.

Preferably, the spring is sleeved on the wall of the positioning rod corresponding to the annular groove.

The utility model provides a pair of energy-conserving management wireless power-off control system, beneficial effect lies in:

1. through setting up the mount pad, the supporting groove, the backup pad, the power failure control ware, the constant head tank, the locating hole, the locating lever, the ring channel, annular piece and spring, when using, at first aim at and insert two backup pads on the power failure control ware with the supporting groove, the backup pad is pushed back the locating lever in the locating hole along its upper surface radian simultaneously, make the backup pad can continue to remove to the supporting groove, when backup pad and supporting groove tank bottom offset, the drill way of locating hole coincides with the notch of constant head tank mutually, the spring promotes annular piece and pushes down this moment, and drive the locating lever through the annular piece and push down to fix the backup pad in the constant head tank, and then accomplished the fixed to backup pad and power failure control ware, and can not become flexible at will, it is fixed.

2. Through setting up locating lever, thread groove, threaded rod and carrying the handle, when using, aim at threaded rod and thread groove and rotate the threaded rod for threaded rod and thread groove threaded connection can be through carrying the handle and carrying the locating lever upwards, and then drive the locating lever and break away from the constant head tank and remove the fixed to the backup pad, can dismantle power-off control ware this moment, come to change it or maintain.

Drawings

Fig. 1 is a schematic structural view of an energy-saving management wireless power-off control system provided by the present invention;

fig. 2 is a schematic side view of the energy-saving management wireless power-off control system provided by the present invention;

fig. 3 is a schematic top view of the energy-saving management wireless power-off control system provided in the present invention;

fig. 4 is an enlarged schematic structural diagram of a portion a in fig. 1 of an energy-saving management wireless power-off control system provided by the present invention.

In the figure: the device comprises a mounting seat 1, a supporting mechanism 2, a supporting groove 21, a supporting plate 22, a power-off controller 23, a positioning mechanism 3, a positioning groove 31, a positioning hole 32, a positioning rod 33, a pressing mechanism 4, an annular groove 41, an annular block 42, a spring 43, a lifting mechanism 5, a threaded groove 51, a threaded rod 52 and a lifting handle 53.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-4, an energy-saving management wireless power-off control system comprises a mounting base 1, two supporting mechanisms 2 are arranged on the side wall of one side of the mounting base 1, a positioning mechanism 3 is arranged in the mounting base 1 corresponding to the position of one supporting mechanism 2, a pressing mechanism 4 is arranged in the positioning mechanism 3, a lifting mechanism 5 is fixedly connected to the top end of the positioning mechanism 3, when the energy-saving management wireless power-off control system is used, the positioning mechanism 3 is pressed downwards through the pressing mechanism 4, the supporting mechanisms 2 are fixed through the positioning mechanism 3, and meanwhile, the fixing of the supporting mechanisms 2 can be released through the lifting mechanism 5 lifting the positioning mechanism 3 upwards, so that a power-off controller 23 can be replaced.

Wherein, two supporting mechanism 2 all include one and are the support groove 21 that the slope form set up, two support grooves 21 are the parallel form and offer on the lateral wall of mount pad 1 wherein one side, equal sliding connection has a backup pad 22 in two support grooves 21, the wherein one end of two backup pads 22 all runs through the notch that corresponds support groove 21 and extends to outside the mount pad 1, the one end that two backup pads 22 are located support groove 21 is the arc setting, two backup pads 22 are located the common fixedly connected with outage controller 23 of the outer one end of mount pad 1, support outage controller 23 through the cooperation of backup pad 22 with support groove 21, simultaneously because of backup pad 22 all is the slope form setting with support groove 21, make outage controller 23 can only be taken out when upwards lifting and pulling, make it can not become flexible at will.

Wherein, positioning mechanism 3 includes a constant head tank 31, constant head tank 31 sets up the upper surface that is located the support slot 21 at backup pad 22, it runs through and has seted up a locating hole 32 to be vertical form on the support slot 21 cell wall that corresponds constant head tank 31 position, sliding connection has a locating lever 33 in the locating hole 32, the lower extreme of locating lever 33 runs through the lower extreme drill way of locating hole 32 and the notch of constant head tank 31 in proper order and extends to in the constant head tank 31, locating lever 33 pushes down and fixes backup pad 22 in the constant head tank 31, the fixing to power-off controller 23 has been accomplished when making backup pad 22 can't break away from support slot 21, and can not become flexible at will.

Wherein, the pushing mechanism 4 includes an annular groove 41, the annular groove 41 is opened on the hole wall of the positioning hole 32, the rod wall of the positioning rod 33 corresponding to the position of the annular groove 41 is fixedly sleeved with an annular block 42, one end of the annular block 42 far away from the positioning rod 33 runs through the notch of the annular groove 41 and extends into the annular groove 41, the upper surface of the annular block 42 is fixedly connected with a spring 43, the upper end of the spring 43 is fixedly connected on the upper end groove wall of the annular groove 41, the spring 43 pushes the annular block 42 downwards, the annular block 42 drives the positioning rod 33 to be pushed downwards synchronously, so that the positioning rod 33 cannot be separated from the positioning groove.

Wherein, pulling mechanism 5 includes a thread groove 51, thread groove 51 is vertical form and sets up the upper surface at locating lever 33, thread groove 51 internal thread connection has a threaded rod 52, the upper end of threaded rod 52 runs through the notch of thread groove 51 and the upper end drill way of locating hole 32 in proper order and extends to outside the mount pad 1, threaded rod 52 is located the outer top fixedly connected with of mount pad 1 and carries handle 53, can be through aligning threaded rod 52 with thread groove 51 and rotating threaded rod 52, make threaded rod 52 and thread groove 51 threaded connection, can carry handle 53 to upwards carrying positioning lever 33 through carrying at this moment, and then drive positioning lever 33 and break away from constant head tank 31 and remove the fixed to backup pad 22, can dismantle power-off controller 23 this moment, change or maintain it.

The spring 43 is sleeved on the rod wall of the positioning rod 33 corresponding to the position of the annular groove 41, so that the spring 43 is prevented from deflecting to one side to damage the spring 43.

The working principle is as follows: when the wireless power-off control system for energy-saving management is used, firstly, two support plates 22 on a power-off controller 23 are aligned with and inserted into corresponding support grooves 21, meanwhile, the support plates 22 push positioning rods 33 back into the positioning holes 32 along the radian of the support plates 22, meanwhile, the positioning rods 33 cannot be separated from the positioning holes 32 under the matching of the annular grooves 41 and the annular blocks 42, so that when the support plates 22 can continuously move into the support grooves 21 until the bottoms of the support grooves 21 abut against each other, the openings of the positioning holes 32 are overlapped with the notches of the positioning grooves 31, at the moment, springs 43 push the annular blocks 42 downwards, the annular blocks 42 drive the positioning rods 33 to synchronously press downwards and press downwards into the positioning grooves 31 to fix the support plates 22, the support plates 22 cannot be separated from the support grooves 21, meanwhile, the fixation of the power-off controller 23 is finished, the power-saving management wireless power-off control system cannot be loosened randomly, and, so that the threaded rod 52 is in threaded connection with the threaded groove 51, the positioning rod 33 can be pulled upwards through the pulling handle 53, the positioning rod 33 is further driven to be separated from the positioning groove 31 to release the fixation of the supporting plate 22, and the power-off controller 23 can be detached to replace or maintain the power-off controller.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The energy-saving management wireless power-off control system comprises a mounting seat (1) and is characterized in that two supporting mechanisms (2) are arranged on the side wall of one side of the mounting seat (1), a positioning mechanism (3) is arranged in the mounting seat (1) at a position corresponding to one of the supporting mechanisms (2), a pressing mechanism (4) is arranged in the positioning mechanism (3), and a lifting mechanism (5) is fixedly connected to the top end of the positioning mechanism (3).

2. The energy-saving management wireless power-off control system according to claim 1, wherein each of the two support mechanisms (2) comprises a support groove (21) which is obliquely arranged, the two support grooves (21) are arranged in parallel on the side wall of one side of the installation seat (1), a support plate (22) is slidably connected in each of the two support grooves (21), one end of each of the two support plates (22) penetrates through the notch of the corresponding support groove (21) and extends out of the installation seat (1), one end of each of the two support plates (22) in each support groove (21) is arranged in an arc shape, and one end of each of the two support plates (22) outside the installation seat (1) is fixedly connected with a power-off controller (23).

3. The wireless power-off control system for energy conservation management according to claim 1, wherein the positioning mechanism (3) comprises a positioning slot (31), the positioning slot (31) is formed in an upper surface of the support plate (22) located in the support groove (21), a positioning hole (32) is vertically formed in a wall of the support groove (21) corresponding to the positioning slot (31), a positioning rod (33) is slidably connected in the positioning hole (32), and a lower end of the positioning rod (33) sequentially penetrates through a lower end opening of the positioning hole (32) and a notch of the positioning slot (31) and extends into the positioning slot (31).

4. The wireless power-off control system for energy conservation management according to claim 1, wherein the pressing mechanism (4) comprises an annular groove (41), the annular groove (41) is formed in the wall of the positioning hole (32), an annular block (42) is fixedly sleeved on the rod wall of the positioning rod (33) corresponding to the position of the annular groove (41), one end, far away from the positioning rod (33), of the annular block (42) penetrates through the notch of the annular groove (41) and extends into the annular groove (41), a spring (43) is fixedly connected to the upper surface of the annular block (42), and the upper end of the spring (43) is fixedly connected to the upper end groove wall of the annular groove (41).

5. The energy-saving management wireless power-off control system according to claim 1, wherein the lifting mechanism (5) comprises a threaded groove (51), the threaded groove (51) is vertically formed in the upper surface of the positioning rod (33), a threaded rod (52) is connected to the threaded groove (51) in a threaded manner, the upper end of the threaded rod (52) sequentially penetrates through the notch of the threaded groove (51) and the upper end hole of the positioning hole (32) and extends out of the mounting seat (1), and a lifting handle (53) is fixedly connected to the top end of the threaded rod (52) located outside the mounting seat (1).

6. The wireless power-off control system for energy conservation management according to claim 4, characterized in that the spring (43) is sleeved on the rod wall of the positioning rod (33) corresponding to the position of the annular groove (41).