CN112018561A - Novel power saving device for automatically and alternately using electric equipment - Google Patents

Abstract

The invention discloses a novel power-saving device of automatic cross-use electric equipment, which comprises a wall body, wherein four single socket mechanisms are uniformly arranged at the front and the back of the right end of the wall body, the first single socket mechanism is connected with the second single socket mechanism through a pipeline, the third single socket mechanism is connected with the fourth single socket mechanism through a pipeline, the single socket mechanism comprises two guide supporting blocks which are symmetrically and fixedly arranged at the right end surface of the wall body in a front-back manner, a plug clamping block is slidably connected between the front and back guide supporting blocks, a plug clamping mechanism is arranged in the plug clamping block, guide blocks are symmetrically and fixedly arranged at the front and back end surfaces of the plug clamping block, a guide groove with an opening for guiding the plug clamping block is arranged at one end of the guide supporting block, which is close to the plug clamping block, a guide, and the phenomenon that people walk to unclose the equipment can be avoided.

Description

Novel power saving device for automatically and alternately using electric equipment

Technical Field

The invention relates to the technical field of novel power saving equipment, in particular to a novel power saving device for automatically and alternately using electric equipment.

Background

The novel power-saving equipment can reduce the consumption of electric energy, improve the electric energy utilization rate of users and reduce the electric energy loss of a power supply network under the condition of meeting the necessary electricity consumption requirements for production and life.

The industrial power transmission and transformation network system has large load and wide distribution, and the distribution time of the power consumption in the peak period and the valley period is very obvious, so that the voltage fluctuation in the peak period and the valley period of the power consumption is large, the electric energy is wasted to a great extent, the power consumption quality is deteriorated, the power consumption is increased, and the service life and the power consumption safety of power consumption equipment are also influenced.

Disclosure of Invention

Aiming at the technical defects, the invention provides a novel power saving device for automatically and alternately using electric equipment, which can overcome the defects.

The invention relates to a novel power saving device of automatic cross use electric equipment, which comprises a wall body, wherein four single socket mechanisms are uniformly arranged at the front and the back of the right end of the wall body, the first single socket mechanism is connected with the second single socket mechanism through a pipeline, the third single socket mechanism is connected with the fourth single socket mechanism through a pipeline, the single socket mechanism comprises two guide supporting blocks which are symmetrically and fixedly arranged at the right end surface of the wall body in a front-back manner, a plug clamping block is slidably connected between the guide supporting blocks at the front side and the back side, a plug clamping mechanism is arranged in the plug clamping block, guide blocks are symmetrically and fixedly arranged at the front end surface and the back end surface of the plug clamping block, one end of the guide supporting block, which is close to the plug clamping block, is provided with a guide groove with an opening towards the plug clamping block, the guide block is slidably connected in the guide groove, and a, rear side guide block left end face and rear side flexible gasbag behind the fixedly connected with between the guide way left end wall, back flexible gasbag reaches preceding flexible gasbag left side is provided with cross connection disconnection plug mechanism, the wall body left end evenly is provided with four openings right side and is located the front and back side socket groove between the guide support piece, the fixed socket that is provided with of socket groove left end wall, the socket bottom surface is provided with the ascending connector spout of opening, connector spout department is provided with auto-power-off mechanism.

Preferably, the bottom end of the wall body is fixedly provided with a ground layer, the top surface of the ground layer is fixedly provided with a branching support block, four wire fixing and arranging mechanisms are uniformly arranged in front of and behind the top end of the branching support block, a motor is arranged in the wall body, the rear end of the motor is in power connection with a motor shaft, the motor shaft is in rotating connection with the wall body, four left bevel gears are uniformly and fixedly arranged in front of and behind the motor shaft, the left bevel gears are positioned in a bevel gear cavity, a right bevel gear which is positioned at the right side of the left bevel gear and is in meshing connection with the left bevel gear is arranged in the bevel gear cavity, the right end of the right bevel gear is fixedly connected with a bevel gear shaft, the bevel gear shaft is in rotating connection with the wall body, the right end of the bevel gear shaft is fixedly, a ratchet cavity is formed in the incomplete gear, two pawls are connected to the front end and the rear end of the ratchet cavity in a symmetrical and rotating mode, the front pawl and the rear pawl are connected with a ratchet wheel located in the ratchet cavity in a sliding mode, a ratchet wheel shaft is fixedly arranged at the right end of the ratchet wheel, and the ratchet wheel shaft is connected with the wall in a rotating mode.

Preferably, plug chucking mechanism including set up in the plug card and control communicating plug groove, plug groove lateral wall is fixed and is provided with the chucking gasbag, the fixed blast pipe that is provided with in chucking gasbag top, blast pipe top sealing connection has the trachea stopper, plug groove diapire is provided with the connecting end groove that the opening is right, the fixed inoxidizing coating that is provided with of connecting end groove lateral wall.

Preferably, the cross connection disconnection plug mechanism comprises a left air pressure cavity arranged on the left side of the socket, a first air pipe is fixedly arranged at the front side of the front telescopic air bag in two adjacent single socket mechanisms connected through a pipeline, a third air pipe is fixedly arranged at the front side of the first air pipe in two adjacent single socket mechanisms connected through a pipeline, a second air pipe is fixedly arranged at the rear side of the front telescopic air bag in two adjacent single socket mechanisms connected through a pipeline, a fourth air pipe is fixedly arranged at the rear side of the rear telescopic air bag in two adjacent single socket mechanisms connected through a pipeline, the front end wall of the left air pressure cavity in the front side of two adjacent single socket mechanisms connected through a pipeline is fixedly connected with the left end of the first air pipe, and the rear end wall of the left air pressure cavity in the front side is fixedly connected with the front end of the left part of the second air pipe, and the front end wall of the left air pressure cavity at the rear side of the two adjacent single socket mechanisms connected through a pipeline is fixedly connected with the rear end of the left part of the third air pipe, and the rear end wall of the left air pressure cavity at the rear side is fixedly connected with the left end of the fourth air pipe.

Preferably, a piston is connected in the left air pressure cavity in a sliding manner, piston springs are fixedly connected between the front end surface and the rear end surface of the piston and the left air pressure cavity in a front-back symmetrical manner, the front end wall of the left air pressure cavity is fixedly provided with a front electromagnet ring, the rear end wall of the left air pressure cavity is fixedly provided with a rear electromagnet ring, a cam cavity is arranged at the left side of the left air pressure cavity, a cam is arranged in the cam cavity, the cam is fixedly connected with the right end of the ratchet shaft, the front side of the cam is connected with a front metal sheet in a sliding way, the front end surface of the front metal sheet is connected with the cam cavity through a front metal sheet spring, the front metal sheet can be connected with a circuit between the front electromagnet ring and a power supply thereof, the rear side of the cam is connected with a rear metal sheet in a sliding way, the rear end face of the rear metal sheet is connected with the cam cavity through a rear metal sheet spring, and the rear metal sheet can be connected with a circuit between the rear electromagnet ring and a power supply of the rear electromagnet ring.

Preferably, the automatic power-off mechanism comprises a connector which is arranged in the connector chute and is in sliding connection with the connector, a connecting wire which is positioned in a connecting wire cavity is fixedly arranged at the bottom end of the connector, a power supply device is fixedly arranged at the left end of the connecting wire, a slip ring is fixedly arranged on the side wall of the connector chute, a slip ring chute with an opening towards the axis of the connector chute is arranged on the side wall of the connector chute, the slip ring is in sliding connection with the slip ring in the slip ring chute, the bottom surface of the slip ring is connected with the slip ring chute through a slip ring spring, a slip ring electromagnet is fixedly arranged on the top wall of the slip ring chute, a treading block air pressure cavity with an upward opening is arranged at the top end of the ground bottom layer in front of the equipment, a treading block is, trample the fixed thick trachea that is provided with in piece atmospheric pressure chamber bottom, be provided with the check valve in the thick trachea, trample the fixed thin trachea that is located of piece atmospheric pressure chamber bottom, be provided with the check valve in the thin trachea, the airflow in the thick trachea is greater than the airflow in the thin trachea, thick trachea reaches thin trachea bottom is fixed and is provided with sheetmetal atmospheric pressure chamber, sheetmetal atmospheric pressure intracavity sliding connection has right sheetmetal, right sheetmetal can connect the circuit between sliding ring electro-magnet and its power, right sheetmetal bottom surface with pass through sheetmetal spring coupling between the sheetmetal atmospheric pressure chamber.

Preferably, the wire fixing and arranging mechanism comprises four wire dividing slide block chutes with upward openings, the four wire dividing slide block chutes are evenly arranged at the top ends of the wire dividing support blocks from front to back, through grooves with upward openings are symmetrically formed in the left end wall and the right end wall of each wire dividing slide block chute, guide rail blocks are fixedly arranged on the bottom walls of the wire dividing slide block chutes and are in sliding connection with the wire dividing slide blocks, the wire dividing slide blocks are located in the wire dividing slide block chutes and are in sliding connection with the wire dividing slide blocks, and wire clamping grooves with upward openings are formed in the top ends of the wire dividing.

The beneficial effects are that: the device can automatically and intermittently switch on the power supply of the equipment, thereby realizing the cross use of discontinuous electric equipment, balancing the electric load, staggering the peak, saving the electric energy, arranging the plugs of the equipment to avoid the mutual winding of electric wires, automatically and crossly connecting the plugs and the sockets of different discontinuous electric equipment, switching on the power supply of the equipment only when an operator stands in front of the equipment for use, avoiding the phenomenon that people do not switch on the equipment, and further saving the electric energy.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a novel power saving device for automatically and alternately using electric equipment according to the present invention;

FIG. 2 is a partial schematic view of A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a partial schematic view of B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1 according to an embodiment of the present invention;

fig. 5 is an enlarged schematic view of the structure at D in fig. 2 according to the embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-5, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a novel electricity-saving device of automatic cross-use electric equipment, which comprises a wall body 10, wherein four single socket mechanisms are uniformly arranged at the front and the back of the right end of the wall body 10, the first single socket mechanism is connected with the second single socket mechanism through a pipeline, the third single socket mechanism is connected with the fourth single socket mechanism through a pipeline, the single socket mechanism comprises two guide supporting blocks 40 which are symmetrically and fixedly arranged at the right end surface of the wall body 10 in a front-back manner, a plug clamping block 39 is slidably connected between the guide supporting blocks 40 at the front side and the back side, a plug clamping mechanism is arranged in the plug clamping block 39, guide blocks 38 are symmetrically and fixedly arranged at the front end surface and the back end surface of the plug clamping block 39, one end of the guide supporting block 40, which is close to the plug clamping block 39, is provided with a guide groove 37 with, front side 38 left end face and front side the flexible gasbag 31 before fixedly connected with between the wall of guide way 37 left end, the rear side 38 left end face and rear side the flexible gasbag 33 behind the fixedly connected with between the wall of guide way 37 left end, back flexible gasbag 33 reaches preceding flexible gasbag 31 left side is provided with alternately switches on and off plug mechanism, the wall body 10 left end evenly is provided with four openings right and is located the front and back side socket groove 35 between the guide support block 40, the fixed socket 36 that is provided with of socket groove 35 left end wall, the socket 36 bottom surface is provided with the ascending connector spout 44 of opening, connector spout 44 department is provided with automatic power off mechanism.

Beneficially, a bottom layer 27 is fixedly arranged at the bottom end of the wall 10, a line-dividing supporting block 18 is fixedly arranged on the top surface of the bottom layer 27, four wire fixing and arranging mechanisms are uniformly arranged in front and back of the top end of the line-dividing supporting block 18, a motor 57 is arranged in the wall 10, a motor shaft 65 is dynamically connected to the rear end of the motor 57, the motor shaft 65 is rotatably connected to the wall 10, four left bevel gears 59 are uniformly and fixedly arranged in front and back of the motor shaft 65, the left bevel gears 59 are located in a bevel gear cavity 74, a right bevel gear 60 which is located on the right side of the left bevel gears 59 and is in meshed connection with the left bevel gears 59 is arranged in the bevel gear cavity 74, the right end of the right bevel gear 60 is fixedly connected to a bevel gear shaft 61, the bevel gear shaft 61 is rotatably connected to the wall 10, an incomplete gear 56, the incomplete gear 56 can be in intermittent meshing connection with an outer incomplete gear 64 located on the rear side of the incomplete gear, a ratchet cavity 76 is arranged in the outer incomplete gear 64, two pawls 63 are symmetrically and rotatably connected to the front end and the rear end of the ratchet cavity 76, the front pawl 63 and the rear pawl 63 are in sliding connection with a ratchet 62 located in the ratchet cavity 76, a ratchet shaft 66 is fixedly arranged at the right end of the ratchet 62, and the ratchet shaft 66 is rotatably connected with the wall 10.

Beneficially, the plug clamping mechanism comprises a plug groove 43 which is arranged in the plug clamping block 39 and communicated with each other left and right, a clamping air bag 41 is fixedly arranged on the side wall of the plug groove 43, an exhaust pipe 11 is fixedly arranged at the top end of the clamping air bag 41, an air pipe plug 12 is hermetically connected to the top end of the exhaust pipe 11, a connecting end groove 13 with a rightward opening is arranged on the bottom wall of the plug groove 43, and a protective layer 42 is fixedly arranged on the side wall of the connecting end groove 13.

Advantageously, the cross-connect disconnect plug mechanism comprises a left pneumatic chamber 50 arranged at the left side of the socket 36, a first air pipe 32 is fixedly arranged at the left end of the front telescopic air bag 31 in two adjacent single socket mechanisms connected through a pipeline, a third air pipe 71 is fixedly arranged at the left end of the front telescopic air bag 32 in two adjacent single socket mechanisms connected through a pipeline, a second air pipe 34 is fixedly arranged at the left end of the front telescopic air bag 31 in two adjacent single socket mechanisms connected through a pipeline, a fourth air pipe 72 is fixedly arranged at the left end of the rear telescopic air bag 33 in two adjacent single socket mechanisms connected through a pipeline, the front end wall of the front left pneumatic chamber 50 in two adjacent single socket mechanisms connected through a pipeline is fixedly connected with the left end of the first air pipe 32, the rear end wall of the front left pneumatic chamber 50 is fixedly connected with the left front end of the second air pipe 34, the front end wall of the left air pressure cavity 50 on the rear side of two adjacent single socket mechanisms connected through a pipeline is fixedly connected with the rear end of the left part of the third air pipe 71, and the rear end wall of the left air pressure cavity 50 on the rear side is fixedly connected with the left end of the fourth air pipe 72.

Beneficially, a piston 52 is slidably connected in the left air pressure cavity 50, piston springs 51 are symmetrically and fixedly connected between the front end surface and the rear end surface of the piston 52 and the left air pressure cavity 50, a front electromagnet ring 53 is fixedly arranged on the front end wall of the left air pressure cavity 50, a rear electromagnet ring 69 is fixedly arranged on the rear end wall of the left air pressure cavity 50, a cam cavity 77 is arranged on the left side of the left air pressure cavity 50, a cam 70 is arranged in the cam cavity 77, the cam 70 is fixedly connected with the right end of the ratchet shaft 66, a front metal sheet 54 is slidably connected on the front side of the cam 70, the front end surface of the front metal sheet 54 is connected with the cam cavity 77 through a front metal sheet spring 55, the front metal sheet 54 can be connected with a circuit between the front electromagnet ring 53 and a power supply thereof, a rear metal sheet 67 is slidably connected on the rear side of the cam 70, the rear end surface of the rear metal sheet 67 is connected with the cam cavity 77 through, the rear metal sheet 67 is able to connect the electrical circuit between the rear electromagnet ring 69 and its power supply.

Beneficially, the automatic power-off mechanism comprises a connector 49 which is arranged in the connector sliding groove 44 and is in sliding connection with the connector sliding groove 44, a connecting wire 29 which is located in a connecting wire cavity 28 is fixedly arranged at the bottom end of the connector 49, a power supply device 30 is fixedly arranged at the left end of the connecting wire 29, a sliding ring 47 is fixedly arranged on the side wall of the connector 49, a sliding ring sliding groove 46 which is opened to the axis of the connector sliding groove 44 is arranged on the side wall of the connector sliding groove 44, the sliding ring 47 is in sliding connection with the sliding ring sliding groove 46, the bottom surface of the sliding ring 47 is connected with the sliding ring sliding groove 46 through a sliding ring spring 48, a sliding ring electromagnet 45 is fixedly arranged on the top wall of the sliding ring sliding groove 46, a treading block pneumatic cavity 20 which is opened upwards is arranged at the top end of the ground floor 27 in front of the equipment, a treading block 19 is in sliding connection, the bottom end of the treading block air pressure cavity 20 is fixedly provided with a thick air pipe 26, a one-way valve is arranged in the thick air pipe 26, the bottom end of the treading block air pressure cavity 20 is fixedly provided with a thin air pipe 22 positioned on the right side of the thick air pipe 26, the thin air pipe 22 is internally provided with the one-way valve, the air flow in the thick air pipe 26 is larger than the air flow in the thin air pipe 22, the bottom ends of the thick air pipe 26 and the thin air pipe 22 are fixedly provided with a metal sheet air pressure cavity 24, a right metal sheet 23 is connected in the metal sheet air pressure cavity 24 in a sliding mode, the right metal sheet 23 can be connected with a circuit between the sliding ring electromagnet 45 and a power supply thereof, and the bottom surface of the right metal sheet 23 is connected.

Beneficially, the wire fixing and arranging mechanism includes four wire dividing slider sliding grooves 16 with upward openings, which are uniformly arranged in front and back of the top end of the wire dividing supporting block 18, through grooves 73 with upward openings are symmetrically arranged on the left and right end walls of the wire dividing slider sliding grooves 16, guide rail blocks 17 are fixedly arranged on the bottom walls of the wire dividing slider sliding grooves 16, the guide rail blocks 17 are slidably connected with the wire dividing sliders 15, the wire dividing sliders 15 are located in the wire dividing slider sliding grooves 16 and are slidably connected with the wire dividing slider sliding grooves, and wire clamping grooves 14 with upward openings are arranged at the top ends of the wire dividing sliders 15.

In an initial state, the rear telescopic airbag 33 and the rear telescopic airbag 31 in two adjacent single socket mechanisms connected through a pipeline, the front piston spring 51 and the front metal sheet spring 55 in the same single socket mechanism are in a compressed state, the front telescopic airbag 33 and the front telescopic airbag 33 in two adjacent single socket mechanisms connected through a pipeline, and the rear piston spring 51 in the same single socket mechanism are in a stretched state, the chucking airbag 41 is in a normal deformation state, and the rear metal sheet spring 68, the slip ring spring 48, the stepping block spring 21 and the metal sheet spring 25 are in a normal stretched state; sequence of mechanical actions of the whole device: 1. the four plugs are placed in the plug groove 43, different batches of devices which are used in a crossed mode are placed adjacently, the plugs of the devices which are used in the same batch are placed at intervals, the air pipe plugs 12 are unscrewed, the clamping air bags 41 are inflated through the exhaust pipes 11, so that the clamping air bags 41 expand to clamp the plugs, the plugs move along with the plug clamping blocks 39, the connecting ends of the plug wires are clamped into the connecting end grooves 13, a section of the wire which is close to the socket is clamped into the wire clamping grooves 14, and therefore the wires are prevented from being wound and disordered mutually, the plugs drive the wires to move along with the movement of the plug clamping blocks 39, so that the wire dividing slide block 15 is driven to move left and right in the wire dividing slide groove 16, and therefore the; 2. when an operator stands in front of the equipment to use the equipment or waits for using the equipment, the corresponding stepping block 19 in front of the equipment moves downwards, so that the gas in the gas pressure cavity 20 of the stepping block enters the metal sheet gas pressure cavity 24 through the thick gas pipe 26, the right metal sheet 23 moves downwards, the right metal sheet 23 is connected with a circuit between the slip ring electromagnet 45 and a power supply, the slip ring electromagnet 45 is connected, the slip ring 47 is attracted to move upwards, the connecting head 49 moves upwards to be in power connection with the socket 36, the socket 36 can provide electric energy, the operator leaves the equipment, so that the stepping block 19 moves upwards under the resetting action of the stepping block spring 21, the gas in the metal sheet gas pressure cavity 24 is squeezed into the gas pressure cavity 20 of the stepping block through the thin gas pipe 22, the right metal sheet 23 moves upwards and slowly under the resetting action of the metal sheet spring 25, and the circuit between the slip ring electromagnet 45 and the power supply is disconnected by the right metal sheet 23 after the operator leaves for a period of time, so that the slip ring 47 moves downwards under the reset action of the slip ring spring 48, and the connecting head 49 moves downwards to be disconnected from the power connection with the socket 36, so that the socket 36 stops supplying the electric energy, and the electric energy can be normally supplied only when a person uses or uses the equipment; 3. the motor 57 is actuated to rotate the motor shaft 65, thereby rotating the four left bevel gears 59, thereby rotating the right bevel gear 60, thereby rotating the bevel gear shaft 61, thereby rotating the incomplete gear 56, thereby intermittently engaging and connecting the incomplete gear 56 with the outer incomplete gear 64, thereby intermittently rotating the ratchet 62 via the pawl 63, thereby intermittently rotating the ratchet shaft 66, thereby intermittently rotating the cam 70, the cam 70 is rotated until the far rest section of the cam 70 contacts the front metal piece 54, the rear metal piece 67 is moved forward by the return action of the rear metal piece spring 68, thereby pushing the front metal piece 54 forward, thereby making the front metal piece 54 connect the circuit between the front electromagnet ring 53 and the power source thereof, thereby drawing the piston 52 forward, the gas in the front left air pressure chamber 50 in the adjacent two single socket mechanisms connected by the pipe is squeezed into the front telescopic air bag 31 via the first air pipe 32, the gas in the rear front telescopic air bag 31 is pumped into the front left air pressure cavity 50 through the second air pipe 34, the gas in the rear left air pressure cavity 50 is squeezed into the front rear telescopic air bag 33 through the third air pipe 71, the gas in the rear telescopic air bag 33 is pumped into the rear left air pressure cavity 50 through the fourth air pipe 72, so that the front telescopic air bag 31 and the rear telescopic air bag 33 are expanded, the rear front telescopic air bag 31 and the rear telescopic air bag 33 are contracted, so that the front plug clamping block 39 moves leftwards, the rear plug clamping block 39 moves rightwards, so that the front plug is in power connection with the front socket 36 to supply power to corresponding equipment, the rear plug is out of power connection with the rear socket 36 to stop supplying power to the corresponding equipment, the cam 70 rotates until the stop section of the cam 70 contacts with the rear metal sheet 67, the front metal sheet 54 moves backwards under the reset action of the front metal sheet spring 55, so as to push the rear metal sheet 67 to move backwards, so that the rear metal sheet 67 is connected with the circuit between the rear electromagnet ring 69 and the power supply thereof, thereby attracting the piston 52 to move backwards, the gas in the front left air pressure chamber 50 in two adjacent single socket mechanisms connected by a pipeline is squeezed into the rear front telescopic air bag 31 through the second air pipe 34, the gas in the front telescopic air bag 31 is pumped into the front left air pressure chamber 50 through the first air pipe 32, the gas in the rear left air pressure chamber 50 is squeezed into the rear telescopic air bag 33 through the fourth air pipe 72, the gas in the front rear telescopic air bag 33 is pumped into the rear left air pressure chamber 50 through the third air pipe 71, thereby extending the rear front telescopic air bag 31 and the rear telescopic air bag 33, the front telescopic air bag 31 and the rear telescopic air bag 33 are contracted, thereby moving the rear plug block 39 to the left, moving the front plug block 39 to the right, thereby dynamically connecting the rear plug and the rear socket 36 to supply power to the corresponding equipment, the front side plug is disconnected from the front side socket 36, and the power supply to the corresponding equipment is stopped, so that the cross power supply of the discontinuous equipment is realized; 4. when the device needs to reset, the motor 57 is turned off, so that each moving part stops moving, each elastic element plays a reset role, the air pipe plug 12 is unscrewed, the air in the clamping air bag 41 is exhausted through the exhaust pipe 11, the plug is taken down, the air pipe plug 12 is screwed up, the wire section in the wire clamping groove 14 is taken down, and the device completes resetting.

The above description is only an embodiment of the invention, but the scope of the 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 invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (7)

1. The utility model provides an automatic cross use consumer's novel power saving device, includes the wall body, its characterized in that: four single socket mechanisms are uniformly arranged at the front and the back of the right end of the wall body, the first single socket mechanism is connected with the second single socket mechanism through a pipeline, the third single socket mechanism is connected with the fourth single socket mechanism through a pipeline, the single socket mechanism comprises two guide supporting blocks which are symmetrically and fixedly arranged at the front and the back of the right end surface of the wall body, a plug clamping block is slidably connected between the guide supporting blocks at the front side and the back side, a plug clamping mechanism is arranged in the plug clamping block, guide blocks are symmetrically and fixedly arranged at the front and the back end surfaces of the plug clamping block, one end of the guide supporting block, which is close to the plug clamping block, is provided with a guide groove with an opening facing the plug clamping block, the guide block is slidably connected in the guide groove, and a front telescopic air bag is fixedly connected, rear side guide block left end face and rear side flexible gasbag behind the fixedly connected with between the guide way left end wall, back flexible gasbag reaches preceding flexible gasbag left side is provided with cross connection disconnection plug mechanism, the wall body left end evenly is provided with four openings right side and is located the front and back side socket groove between the guide support piece, the fixed socket that is provided with of socket groove left end wall, the socket bottom surface is provided with the ascending connector spout of opening, connector spout department is provided with auto-power-off mechanism.

2. The novel power saving device for the automatic cross use of the electric equipment according to claim 1 is characterized in that: the bottom end of the wall body is fixedly provided with a ground layer, the top surface of the ground layer is fixedly provided with a branching supporting block, four electric wire fixing and arranging mechanisms are uniformly arranged at the front and back of the top end of the branching supporting block, a motor is arranged in the wall body, the rear end of the motor is in power connection with a motor shaft, the motor shaft is in rotary connection with the wall body, four left bevel gears are uniformly and fixedly arranged at the front and back of the motor shaft, the left bevel gears are positioned in bevel gear cavities, right bevel gears which are positioned at the right side of the left bevel gears and in meshed connection with the left bevel gears are arranged in the bevel gear cavities, the right end of the right bevel gears is fixedly connected with a bevel gear shaft, the bevel gear shaft is in rotary connection with the wall body, the right end of the bevel gear shaft is, a ratchet cavity is formed in the incomplete gear, two pawls are connected to the front end and the rear end of the ratchet cavity in a symmetrical and rotating mode, the front pawl and the rear pawl are connected with a ratchet wheel located in the ratchet cavity in a sliding mode, a ratchet wheel shaft is fixedly arranged at the right end of the ratchet wheel, and the ratchet wheel shaft is connected with the wall in a rotating mode.

3. The novel power saving device for the automatic cross use of the electric equipment according to claim 1 is characterized in that: the plug clamping mechanism comprises a plug groove which is arranged in the plug clamping block and communicated with the left and the right, a clamping air bag is fixedly arranged on the side wall of the plug groove, an exhaust pipe is fixedly arranged at the top end of the clamping air bag, the top end of the exhaust pipe is hermetically connected with an air pipe plug, a connecting end groove with a rightward opening is formed in the bottom wall of the plug groove, and a protective layer is fixedly arranged on the side wall of the connecting end groove.

4. The novel power saving device for the automatic cross use of the electric equipment according to claim 1 is characterized in that: the cross connection disconnection plug mechanism comprises a left air pressure cavity arranged on the left side of the socket, two adjacent single socket mechanisms connected through a pipeline are arranged at the front side, a first air pipe is fixedly arranged at the left end of the front telescopic air bag, two adjacent single socket mechanisms connected through a pipeline are arranged at the front side, a third air pipe is fixedly arranged at the left end of the first air pipe, two adjacent single socket mechanisms connected through a pipeline are arranged at the rear side, a second air pipe is fixedly arranged at the left end of the front telescopic air bag, two adjacent single socket mechanisms connected through a pipeline are arranged at the rear side, a fourth air pipe is fixedly arranged at the left end of the rear telescopic air bag, two adjacent single socket mechanisms connected through a pipeline are arranged at the front side, the front end wall of the left air pressure cavity is fixedly connected with the left end of the first air pipe, the front end wall of the left air pressure cavity is fixedly connected with the front end of the left end of the second air pipe, and two adjacent single socket mechanisms connected The rear end of the left part of the tube is fixedly connected, and the rear end wall of the left air pressure cavity at the rear side is fixedly connected with the left end of the fourth air tube.

5. The novel power saving device for the automatic cross use of the electric equipment according to claim 4, is characterized in that: a piston is connected in the left air pressure cavity in a sliding way, piston springs are symmetrically and fixedly connected between the front end surface and the rear end surface of the piston and the left air pressure cavity in a front-back manner, the front end wall of the left air pressure cavity is fixedly provided with a front electromagnet ring, the rear end wall of the left air pressure cavity is fixedly provided with a rear electromagnet ring, a cam cavity is arranged at the left side of the left air pressure cavity, a cam is arranged in the cam cavity, the cam is fixedly connected with the right end of the ratchet shaft, the front side of the cam is connected with a front metal sheet in a sliding way, the front end surface of the front metal sheet is connected with the cam cavity through a front metal sheet spring, the front metal sheet can be connected with a circuit between the front electromagnet ring and a power supply thereof, the rear side of the cam is connected with a rear metal sheet in a sliding way, the rear end face of the rear metal sheet is connected with the cam cavity through a rear metal sheet spring, and the rear metal sheet can be connected with a circuit between the rear electromagnet ring and a power supply of the rear electromagnet ring.

6. The novel power saving device for the automatic cross use of the electric equipment according to claim 1 is characterized in that: the automatic power-off mechanism comprises a connector which is arranged in the connector chute and is in sliding connection with the connector, a connecting wire which is positioned in a connecting wire cavity is fixedly arranged at the bottom end of the connector, a power supply device is fixedly arranged at the left end of the connecting wire, a slip ring is fixedly arranged on the side wall of the connector chute, a slip ring chute with an opening towards the axis of the connector chute is arranged on the side wall of the connector chute, the slip ring is in sliding connection with the slip ring in the slip ring chute, the bottom surface of the slip ring is connected with the slip ring chute through a slip ring spring, a slip ring electromagnet is fixedly arranged on the top wall of the slip ring chute, a treading block air pressure cavity with an upward opening is arranged at the top end of the bottom layer in front of the equipment, a treading block is in sliding connection with the treading block air pressure cavity, the novel pneumatic slip ring is characterized in that a check valve is arranged in the thick air pipe, a thin air pipe located on the right side of the thick air pipe is fixedly arranged at the bottom end of the air pressure cavity of the treading block, the check valve is arranged in the thin air pipe, the air flow in the thick air pipe is larger than that in the thin air pipe, the thick air pipe and the bottom end of the thin air pipe are fixedly provided with a metal sheet air pressure cavity, a right metal sheet is connected in the metal sheet air pressure cavity in a sliding mode and can be connected with a circuit between the slip ring electromagnet and a power supply of the slip ring electromagnet, and the bottom surface of the right metal sheet is connected with the metal sheet.

7. The novel power saving device for the automatic cross use of the electric equipment according to claim 2 is characterized in that: the wire fixing and arranging mechanism comprises four wire dividing slide block chutes with upward openings, wherein the four wire dividing slide block chutes are uniformly arranged at the top ends of the wire dividing support blocks in the front and back direction, through grooves with upward openings are symmetrically formed in the left end wall and the right end wall of each wire dividing slide block chute, a guide rail block is fixedly arranged on the bottom wall of each wire dividing slide block chute, the guide rail block is in sliding connection with the wire dividing slide block, the wire dividing slide block is located in the wire dividing slide block chutes and is in sliding connection with the wire dividing slide blocks, and wire clamping grooves with upward openings are.

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