CN108761268A - Load ratio bridging switch control cabinet wireless remote control system and method - Google Patents

Abstract

On-load shunting switch control cabinet wireless remote control system designed by the present invention, it includes horizontal spindle, the left vertical fixed shafts of cabinet door, the right vertical fixed shafts of cabinet door, contact cotrol head vertical fixed shafts, electromagnetic touch head buck plate, controller, multiple electromagnetic touch heads, wherein, the left vertical fixed shafts of cabinet door are assembled to by the first right-angle coupler on horizontal spindle, the right vertical fixed shafts of cabinet door are assembled to by the second right-angle coupler on horizontal spindle, contact cotrol head vertical fixed shafts are assembled to by third right-angle coupler on horizontal spindle, the contact cotrol head vertical fixed shafts are located between the left vertical fixed shafts of cabinet door and the right vertical fixed shafts of cabinet door, it is equipped with cabinet door geometrical clamp at the top of the left vertical fixed shafts of cabinet door and the right vertical fixed shafts of cabinet door；The present invention can allow testing crew to operate load ratio bridging switch control cabinet by mobile phone a long way off and monitor its state.

Description

Load ratio bridging switch control cabinet wireless remote control system and method

Technical field

The present invention relates to electrical test equipment technical fields, in particular to a kind of load ratio bridging switch control cabinet wireless remote Control system and method.

Technical background

The experiment of power transformer is divided into Insulation Test and attribute testing two types, Insulation Test include dielectric loss because Number experiment, partial discharge test, pressure test etc., attribute testing include D.C. resistance experiment, no-load voltage ratio experiment, short-circuit impedance examination Test, load ratio bridging switch experiment etc..Wherein, D.C. resistance experiment in attribute testing, no-load voltage ratio experiment and load ratio bridging switch are carried out During experiment, operation load ratio bridging switch control cabinet is required to change tap changer gear.In actual operation, due to 110kV and above volume of transformer are larger, and in order to facilitate test connection, testing equipment is generally all placed on transformer Front, farther out with load ratio bridging switch control cabinet distance, therefore, experiment every time is required for individually a personnel being arranged specially to grasp Make load ratio bridging switch control cabinet and reports load ratio bridging switch range state to apparatus for testing transformer operating personnel.One work Load ratio bridging switch control cabinet is manually controlled as personnel, case is interior there are three button, and function is upshift, downshift and stopping respectively.Control Process processed is cumbersome, wastes a large amount of cost of labor.

Invention content

It can present invention aim to provide a kind of load ratio bridging switch control cabinet wireless remote control system and method To allow testing crew to operate load ratio bridging switch control cabinet by mobile phone a long way off and monitor its state.

In order to achieve this, a kind of load ratio bridging switch control cabinet wireless remote control system designed by the present invention, It is characterized in that：It includes horizontal spindle, the left vertical fixed shafts of cabinet door, the right vertical fixed shafts of cabinet door, contact cotrol head vertical fixed shafts, electricity Magnetic contact cotrol head buck plate, controller, multiple electromagnetic touch heads, wherein the left vertical fixed shafts of cabinet door pass through the first right angle button Part is assembled on horizontal spindle, and the right vertical fixed shafts of cabinet door are assembled to by the second right-angle coupler on horizontal spindle, and contact cotrol head hangs down Straight fixing axle is assembled to by third right-angle coupler on horizontal spindle, and it is left vertical solid that the contact cotrol head vertical fixed shafts are located at cabinet door Between dead axle and the right vertical fixed shafts of cabinet door, it is equipped at the top of the left vertical fixed shafts of the cabinet door and the right vertical fixed shafts of cabinet door Cabinet door geometrical clamp；

First right-angle coupler, the second right-angle coupler and third right-angle coupler include horizontal spindle hole and vertically fix The side of axis hole, horizontal spindle hole is equipped with the first threaded hole, and the first fastening bolt, vertical fixed shafts hole are equipped in the first threaded hole Side be equipped with the second threaded hole, the second fastening bolt is equipped in the second threaded hole, it is straight that the horizontal spindle sequentially passes through first The horizontal spindle hole of angle fastener, third right-angle coupler and the second right-angle coupler is simultaneously fixed, cabinet door by corresponding first fastening bolt Left vertical fixed shafts pass through the vertical fixed shafts hole of the first right-angle coupler and are fixed by corresponding second fastening bolt, and contact cotrol head hangs down Straight fixing axle passes through the vertical fixed shafts hole of third right-angle coupler and is fixed by corresponding second fastening bolt, and cabinet door is right vertical solid Dead axle passes through the vertical fixed shafts hole of the second right-angle coupler and is fixed by corresponding second fastening bolt；

The electromagnetic touch head buck plate is equipped with level and runs through sliding slot, and the bottom of the multiple electromagnetic touch head is equipped with Sliding block, the equal sliding block setting of each electromagnetic touch head run through in level in sliding slot, the control signal communication of each electromagnetic touch head End is all connected with the electromagnetic touch head control signal communication end of controller.

A kind of load ratio bridging switch control cabinet long-range control method of above-mentioned apparatus, which is characterized in that it includes following step Suddenly：

Step 1：According to the size of load ratio bridging switch controller cabinet door, adjusts the left vertical fixed shafts of cabinet door and the cabinet door right side is hung down Straight position of the fixing axle on horizontal spindle, makes the cabinet door at the top of the left vertical fixed shafts of adjusting cabinet door and the right vertical fixed shafts of cabinet door Geometrical clamp can clamp the left and right sides of on-load shunting switch controller cabinet door；

Step 2：Contact cotrol head vertical fixed shafts are adjusted according to specific location of the load ratio bridging switch controller in cabinet door to exist Position on horizontal spindle makes the electromagnetic touch head buck plate at the top of contact cotrol head vertical fixed shafts be located at load ratio bridging switch control The underface of device；

Step 3：According to the position of each bottom control button in load ratio bridging switch controller, each electromagnetic touch is adjusted Head makes to be equipped with below each bottom control button in load ratio bridging switch controller pair in the horizontal position in sliding slot The electromagnetic touch head answered；

Step 4：According to the control needs to load ratio bridging switch controller, by internet to control on remote terminal Device sends out the control instruction of electromagnetic touch head, and controller controls corresponding electricity according to the control instruction of the electromagnetic touch head of reception Magnetic contact cotrol head stretches out the specified load ratio bridging switch controller bottom control button of pressing.

The present invention uses above-mentioned design, and testing crew can be allowed to be operated a long way off by remote terminal (mobile phone or computer) Each switch of load ratio bridging switch control cabinet.When carrying out power transformer test, the operating personnel of testing equipment can be On mobile phone, the corresponding switch opening and closing of control load ratio bridging switch control cabinet, and load ratio bridging switch institute is observed by camera The gear at place, it is no longer necessary to which special messenger operates at load ratio bridging switch control cabinet.The work needed for field test can be reduced Make personnel's number, the operating personnel of testing equipment can also observe the gear residing for load ratio bridging switch, in addition make operation in real time Personnel also can guarantee the safety of operating personnel far from high-tension electricity equipment, in 110kV and the electricity of above transformer There is great application value in gas experiment.

Description of the drawings

Fig. 1 is the working state structure schematic diagram of the present invention；

Fig. 2 is the structural schematic diagram of electromagnetic touch head in the present invention；

Fig. 3 is the overlooking structure diagram of the first right-angle coupler part in the present invention；

Fig. 4 is the overlooking structure diagram of the second right-angle coupler part in the present invention；

Fig. 5 is the overlooking structure diagram of third right-angle coupler part in the present invention；

Fig. 6 is the overlooking structure diagram of the 4th right-angle coupler part in the present invention；

Fig. 7 is the electric control part structural schematic diagram of the present invention.

1-horizontal spindle, the left vertical fixed shafts of 2-cabinet doors, the right vertical fixed shafts of 3-cabinet doors, 4-contact cotrol heads are vertically fixed Axis, 5-electromagnetic touch head buck plates, 6-electromagnetic touch heads, the 7-the first right-angle coupler, the 8-the second right-angle coupler, 9-thirds Right-angle coupler, 10-horizontal spindle holes, 11-vertical fixed shafts holes, the 12-the first fastening bolt, the 13-the second fastening bolt, 14-is horizontal through sliding slot, 15-sliding blocks, 16-controllers, 17-cabinet door geometrical clamps, 18-camera fixing axles, 19-the four Right-angle coupler, 20-cameras, 21-camera adjusting rods, 22-load ratio bridging switch controllers, 23-shells, 24-bullets Spring, 25-coils, 26-iron cores, 27-openings, 28-sliding block limited blocks, 29-wireless network communication modules, the control of 30-bottoms Button processed, 31-remote terminals.

Specific implementation mode

Below in conjunction with the drawings and specific embodiments, the present invention is described in further detail：

A kind of load ratio bridging switch control cabinet wireless remote control system that the present invention designs, as shown in Fig. 1~7, it is wrapped Include the left vertical fixed shafts 2 of horizontal spindle 1, cabinet door, the right vertical fixed shafts 3 of cabinet door, contact cotrol head vertical fixed shafts 4, electromagnetic touch head Buck plate 5, controller 16, multiple electromagnetic touch heads 6, wherein the left vertical fixed shafts of the cabinet door 2 pass through the first right-angle coupler 7 It is assembled on horizontal spindle 1, the right vertical fixed shafts of cabinet door 3 are assembled to by the second right-angle coupler 8 on horizontal spindle 1, contact cotrol head Vertical fixed shafts 4 are assembled to by third right-angle coupler 9 on horizontal spindle 1, and the contact cotrol head vertical fixed shafts 4 are located at a cabinet door left side Between vertical fixed shafts 2 and the right vertical fixed shafts of cabinet door 3, the left vertical fixed shafts 2 of the cabinet door and the right vertical fixed shafts of cabinet door 3 Top is equipped with cabinet door geometrical clamp 17；

First right-angle coupler 7, the second right-angle coupler 8 and third right-angle coupler 9 include horizontal spindle hole 10 and hang down Straight fixed shaft hole 11 (horizontal spindle hole 10 and vertical fixed shafts hole 11 are mutually perpendicular to, and are spatially mutually staggered), level are main The side of axis hole 10 is equipped with the first threaded hole, and the first fastening bolt 12, the side in vertical fixed shafts hole 11 are equipped in the first threaded hole Face is equipped with the second threaded hole, is equipped with the second fastening bolt 13 in the second threaded hole, the horizontal spindle 1 sequentially passes through the first right angle Fastener 7, the horizontal spindle hole 10 of third right-angle coupler 9 and the second right-angle coupler 8 are simultaneously fixed by corresponding first fastening bolt 12, The left vertical fixed shafts 2 of cabinet door pass through the vertical fixed shafts hole 11 of the first right-angle coupler 7 and are consolidated by corresponding second fastening bolt 13 Fixed, contact cotrol head vertical fixed shafts 4 pass through the vertical fixed shafts hole 11 of third right-angle coupler 9 and by corresponding second fastening bolts 13 Fixed, the right vertical fixed shafts 3 of cabinet door pass through the vertical fixed shafts hole 11 of the second right-angle coupler 8 and by corresponding second fastening bolts 13 fix；

The electromagnetic touch head buck plate 5 is equipped with level and runs through sliding slot 14, and the bottom of the multiple electromagnetic touch head 6 is equal Equipped with sliding block 15, the setting of sliding block 15 of each electromagnetic touch head 6 runs through in level in sliding slot 14, the control of each electromagnetic touch head 6 Signal communication end processed is all connected with the electromagnetic touch head control signal communication end of controller 16.

In above-mentioned technical proposal, it further includes the camera fixing axle 18 for being provided with camera 20, and the camera is fixed Axis 18 is assembled to by the 4th right-angle coupler 19 on horizontal spindle 1, and the 4th right-angle coupler 19 also includes horizontal spindle hole 10 It is equipped with the first threaded hole with the side in vertical fixed shafts hole 11, horizontal spindle hole 10, the first fastening spiral shell is equipped in the first threaded hole The side of bolt 12, vertical fixed shafts hole 11 is equipped with the second threaded hole, and the second fastening bolt 13, camera are equipped in the second threaded hole Fixing axle 18 passes through the vertical fixed shafts hole 11 of the 4th right-angle coupler 19 and is fixed by corresponding second fastening bolt 13, and level is main Axis 1 passes through the horizontal spindle hole 10 of the 4th right-angle coupler 19 and is fixed by corresponding first fastening bolt 12, the camera 20 Video communication end connection controller 16 video communication end.Controller 16 is mounted on electromagnetic touch head buck plate 5.

In above-mentioned technical proposal, it further includes camera adjusting rod 21, and pedestal and the camera of the camera 20 are adjusted The top of bar 21 is hinged, and the other end of camera adjusting rod 21 is hinged with the top of camera fixing axle 18.

In above-mentioned technical proposal, the multiple electromagnetic touch head 6 for dividing having to carry respectively under the control of the controller 16 It meets each of switch controller 22 and touch-control pressing operation is carried out to inductive switch.

In above-mentioned technical proposal, each electromagnetic touch head 6 is described including shell 23, spring 24, coil 25 and iron core 26 Coil 25 is coaxially fixed in shell 23, and the iron core 26 penetrates in coil 25, and the top of shell 23 is equipped with opening 27, the iron One end of core 26 is fixedly connected with one end of spring 24, and the other end of iron core 26 can stretch out shell 23, spring 24 by opening 27 The other end be fixed on the bottom of shell 23, controller 16 is powered on for control coil 25.Coil 25 after the power is turned on electromagnetic force by iron Core 26 stretches out, and iron core 26 loses electromagnetic force after 25 dead electricity of coil, is retracted by spring 24, iron core 26 is stretched when control coil 25 powers on Go out, the corresponding 22 bottom control button 30 of load ratio bridging switch controller of top pressure.

In above-mentioned technical proposal, the sliding block 15 is I-shaped sliding block, and I-shaped sliding block is fixed on the bottom of the shell 23, institute State it is horizontal run through along the length direction of horizontal spindle 1 through sliding slot 14 be arranged top left in electromagnetic touch head buck plate 5 with Between right end, the horizontal sliding block limited block that the limit that vertical direction is carried out to I-shaped sliding block is equipped with through the top of sliding slot 14 28。

In above-mentioned technical proposal, it further includes wireless network communication module 29, the remote signaling communication of the controller 16 Internet is accessed by wireless network communication module 29.Electromagnetism can be carried out to controller 16 by the equipment of access internet Contact cotrol head 6 controls and camera signals read operation.

In above-mentioned technical proposal, there are three electromagnetic touch heads 6, and three electromagnetic touch heads 6 correspond to load ratio bridging switch respectively " 1-N (upshift) " of controller 22, " N-1 (downshift) ", " STOP (stopping) " three buttons.

In above-mentioned technical proposal, the first right-angle coupler 7, the second right-angle coupler 8, third right-angle coupler 9 and the 4th right angle button Part 19 makes the left vertical fixed shafts 2 of cabinet door, the right vertical fixed shafts 3 of cabinet door, contact cotrol head vertical fixed shafts 4 and camera fixing axle 18 Relative position can be adjusted freely in horizontal spindle 1, be opened with adapting to various on-load shunting switch controller cabinet doors and various loads tap Close the installation site of controller 22.In addition, sliding block 15 and level are between the design of sliding slot 14 makes each electromagnetic touch head 6 Spacing can freely adjust, to adapt to the various installation sites of on-load shunting switch controller 22.

A kind of load ratio bridging switch control cabinet long-range control method of above-mentioned apparatus, it includes the following steps：

Step 1：According to the size of 22 cabinet door of load ratio bridging switch controller, the left vertical fixed shafts 2 of cabinet door and cabinet door are adjusted Position of the right vertical fixed shafts 3 on horizontal spindle 1 makes the left vertical fixed shafts 2 of adjusting cabinet door and the right vertical fixed shafts 3 of cabinet door push up The cabinet door geometrical clamp 17 in portion can clamp the left and right sides of 22 cabinet door of on-load shunting switch controller；

Step 2：Contact cotrol head vertical fixed shafts 4 are adjusted according to specific location of the load ratio bridging switch controller 22 in cabinet door Position on horizontal spindle 1 makes the electromagnetic touch head buck plate 5 at 4 top of contact cotrol head vertical fixed shafts be opened positioned at loaded tap-off Close the underface of controller 22；

Step 3：According to the position of each bottom control button 30 in load ratio bridging switch controller 22, each electromagnetism is adjusted Contact cotrol head 6 makes each bottom control button 30 in load ratio bridging switch controller 22 in the horizontal position in sliding slot 14 Lower section is equipped with corresponding electromagnetic touch head 6；

Step 4：According to the control needs to load ratio bridging switch controller 22, on remote terminal 31 (mobile phone or computer) Send out the control instruction of electromagnetic touch head to controller 16 by internet, controller 16 is according to the control of the electromagnetic touch head of reception System instruction controls corresponding electromagnetic touch head 6 and stretches out the specified 22 bottom control button 30 of load ratio bridging switch controller of pressing.

In the step 4 of above-mentioned technical proposal, position of the adjustment camera fixing axle 18 on horizontal spindle 1, and adjust and take the photograph As head fixing axle 18 and the angle of camera adjusting rod 21 and the angle of camera 20 and camera adjusting rod 21, make camera For 20 camera lens towards the bottom control button 30 of load ratio bridging switch controller 22, camera 20 is to electromagnetic touch head 6 and has load Operating process between the bottom control button 30 of tap switch controller 22 is imaged, and is transferred to mutually by controller 16 In networking, monitored for remote terminal 31.

The content that this specification is not described in detail belongs to the prior art well known to professional and technical personnel in the field.

Claims (9)

1. a kind of load ratio bridging switch control cabinet wireless remote control system, it is characterised in that：It includes horizontal spindle (1), cabinet The left vertical fixed shafts (2) of door, the right vertical fixed shafts of cabinet door (3), contact cotrol head vertical fixed shafts (4), electromagnetic touch head buck plate (5), controller (16), multiple electromagnetic touch heads (6), wherein the left vertical fixed shafts of cabinet door (2) pass through the first right-angle coupler (7) it is assembled on horizontal spindle (1), the right vertical fixed shafts of cabinet door (3) are assembled to horizontal spindle by the second right-angle coupler (8) (1) on, contact cotrol head vertical fixed shafts (4) are assembled to by third right-angle coupler (9) on horizontal spindle (1), and the contact cotrol head hangs down Straight fixing axle (4) is located between the left vertical fixed shafts of cabinet door (2) and the right vertical fixed shafts of cabinet door (3), and the cabinet door is left vertical solid It is equipped with cabinet door geometrical clamp (17) at the top of dead axle (2) and the right vertical fixed shafts of cabinet door (3)；

First right-angle coupler (7), the second right-angle coupler (8) and third right-angle coupler (9) include horizontal spindle hole (10) It is equipped with the first threaded hole with the side of vertical fixed shafts hole (11), horizontal spindle hole (10), it is tight to be equipped with first in the first threaded hole The side of fixing bolt (12), vertical fixed shafts hole (11) is equipped with the second threaded hole, and the second fastening bolt is equipped in the second threaded hole (13), the horizontal spindle (1) sequentially passes through the first right-angle coupler (7), third right-angle coupler (9) and the second right-angle coupler (8) Horizontal spindle hole (10) and fixed by corresponding first fastening bolt (12), the left vertical fixed shafts of cabinet door (2) pass through first straight The vertical fixed shafts hole (11) of angle fastener (7) is simultaneously fixed by corresponding second fastening bolt (13), contact cotrol head vertical fixed shafts (4) Across the vertical fixed shafts hole (11) of third right-angle coupler (9) and fixed by corresponding second fastening bolt (13), the cabinet door right side is hung down Straight fixing axle (3) is across the vertical fixed shafts hole (11) of the second right-angle coupler (8) and solid by corresponding second fastening bolt (13) It is fixed；

The electromagnetic touch head buck plate (5) is equipped with horizontal through sliding slot (14), the bottom of the multiple electromagnetic touch head (6) It is equipped with sliding block (15), in level in sliding slot (14), each electromagnetism touches for sliding block (15) setting of each electromagnetic touch head (6) The control signal communication end of control head (6) is all connected with the electromagnetic touch head control signal communication end of controller (16).

2. load ratio bridging switch control cabinet wireless remote control system according to claim 1, it is characterised in that：It is also wrapped The camera fixing axle (18) for being provided with camera (20) is included, the camera fixing axle (18) passes through the 4th right-angle coupler (19) It is assembled on horizontal spindle (1), the 4th right-angle coupler (19) also includes horizontal spindle hole (10) and vertical fixed shafts hole (11), the side of horizontal spindle hole (10) is equipped with the first threaded hole, is equipped with the first fastening bolt (12) in the first threaded hole, vertically The side of fixed shaft hole (11) is equipped with the second threaded hole, is equipped with the second fastening bolt (13) in the second threaded hole, camera is fixed Axis (18) passes through the vertical fixed shafts hole (11) of the 4th right-angle coupler (19) and, water fixed by corresponding second fastening bolt (13) Flat main shaft (1) passes through the horizontal spindle hole (10) of the 4th right-angle coupler (19) and is fixed by corresponding first fastening bolt (12), The video communication end of the video communication end connection controller (16) of the camera (20).

3. load ratio bridging switch control cabinet wireless remote control system according to claim 2, it is characterised in that：It is also wrapped Camera adjusting rod (21) is included, the pedestal of the camera (20) is hinged with the top of camera adjusting rod (21), camera tune The other end of pole (21) is hinged with the top of camera fixing axle (18).

4. load ratio bridging switch control cabinet wireless remote control system according to claim 1, it is characterised in that：It is described more A electromagnetic touch head (6) is used under the control of controller (16) respectively to each correspondence of load ratio bridging switch controller (22) Switch carries out touch-control pressing operation.

5. load ratio bridging switch control cabinet wireless remote control system according to claim 1, it is characterised in that：Each electricity Magnetic contact cotrol head (6) includes shell (23), spring (24), coil (25) and iron core (26), and the coil (25) is coaxially fixed on In shell (23), the iron core (26) penetrates in coil (25), and the top of shell (23) is equipped with opening (27), the iron core (26) One end be fixedly connected with one end of spring (24), the other end of iron core (26) can pass through opening (27) and stretch out shell (23), bullet The other end of spring (24) is fixed on the bottom of shell (23), and controller (16) is powered on for control coil (25), control coil (25) iron core (26) stretches out when powering on, corresponding load ratio bridging switch controller (22) the bottom control button (30) of top pressure.

6. load ratio bridging switch control cabinet wireless remote control system according to claim 5, it is characterised in that：The cunning Block (15) is I-shaped sliding block, and I-shaped sliding block is fixed on the bottom of the shell (23), and the horizontal sliding slot (14) that runs through is along level The length direction of main shaft (1) through being arranged between the top left and right end of electromagnetic touch head buck plate (5), pass through by the level The top for wearing sliding slot (14) is equipped with the sliding block limited block (28) for the limit that vertical direction is carried out to I-shaped sliding block.

7. load ratio bridging switch control cabinet wireless remote control system according to claim 1, it is characterised in that：It is also wrapped Wireless network communication module (29) is included, the remote signaling communication of the controller (16) is connect by wireless network communication module (29) Enter internet.

8. a kind of load ratio bridging switch control cabinet long-range control method of claim 1 described device, which is characterized in that it includes Following steps：

Step 1：According to the size of load ratio bridging switch controller (22) cabinet door, the left vertical fixed shafts of cabinet door (2) and cabinet door are adjusted Position of the right vertical fixed shafts (3) on horizontal spindle (1) keeps the left vertical fixed shafts of adjusting cabinet door (2) and cabinet door right vertical solid Cabinet door geometrical clamp (17) at the top of dead axle (3) can clamp the left and right sides of on-load shunting switch controller (22) cabinet door；

Step 2：Contact cotrol head vertical fixed shafts (4) are adjusted according to specific location of the load ratio bridging switch controller (22) in cabinet door Position on horizontal spindle (1), so that the electromagnetic touch head buck plate (5) at the top of contact cotrol head vertical fixed shafts (4) is located at load The underface of tap switch controller (22)；

Step 3：According to the position of each bottom control button (30) in load ratio bridging switch controller (22), each electromagnetism is adjusted Contact cotrol head (6) makes each bottom control in load ratio bridging switch controller (22) press in the horizontal position in sliding slot (14) Corresponding electromagnetic touch head (6) is equipped with below key (30)；

Step 4：According to the control of load ratio bridging switch controller (22) needs, on remote terminal (31) by internet to Controller (16) sends out the control instruction of electromagnetic touch head, controller (16) according to the control instruction of the electromagnetic touch head of reception, It controls corresponding electromagnetic touch head (6) and stretches out specified load ratio bridging switch controller (22) the bottom control button (30) of pressing.

9. load ratio bridging switch control cabinet long-range control method according to claim 8, it is characterised in that：The step 4 In, position of the adjustment camera fixing axle (18) on horizontal spindle (1), and adjust camera fixing axle (18) and camera tune The angle of pole (21) and the angle of camera (20) and camera adjusting rod (21) make the camera lens direction of camera (20) have The bottom control button (30) of on-load shunting switch controller (22), camera (20) open electromagnetic touch head (6) with loaded tap-off The operating process closed between the bottom control button (30) of controller (22) is imaged, and is transferred to mutually by controller (16) In networking, monitored for remote terminal (31).