CN114034887A

CN114034887A - Outdoor power equipment detection device

Info

Publication number: CN114034887A
Application number: CN202111141974.8A
Authority: CN
Inventors: 左旭; 杨磊
Original assignee: Chongqing Yuzhichen Electric Power Technology Co ltd
Current assignee: Chongqing Yuzhichen Electric Power Technology Co ltd
Priority date: 2021-09-28
Filing date: 2021-09-28
Publication date: 2022-02-11
Anticipated expiration: 2041-09-28
Also published as: CN114034887B

Abstract

The invention discloses an outdoor power equipment detection device, relates to the technical field of power equipment, and solves the problems that the use of electronic elements is influenced when a wire connecting part generates heat in the existing power equipment, and the electronic elements are damaged and the use of the power equipment is influenced when the electronic elements cannot be maintained in time. This outdoor power equipment detection device, but the temperature of the inside not co-altitude wire junction of real time monitoring the device, improved the degree of accuracy of control by temperature change, the operating personnel of being convenient for in time overhauls, and can make clear and determine concrete fault location.

Description

Outdoor power equipment detection device

Technical Field

The invention relates to the technical field of power equipment detection, in particular to an outdoor power equipment detection device.

Background

The power equipment mainly comprises power generation equipment and power supply equipment, wherein the power generation equipment mainly comprises a power station boiler, a steam turbine, a gas turbine, a water turbine, a generator, a transformer and the like, the power supply equipment mainly comprises power transmission lines, transformers, contactors and the like with various voltage grades, electronic elements in the power equipment are usually connected through wires, however, the use of the electronic elements is influenced when the wire connection part generates heat in the existing power equipment, the electronic elements can be damaged when the power equipment cannot be maintained in time, and the use of the power equipment is influenced.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides an outdoor power equipment detection device, which solves the problems that the use of electronic elements is influenced when a lead connecting part generates heat in the conventional power equipment, and the electronic elements are damaged and the use of the power equipment is influenced when the lead connecting part cannot be maintained in time.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an outdoor power equipment detection device, includes the cabinet body, the articulated sealing door that is connected with in one side of the cabinet body, one side fixed mounting that the sealing door is close to the cabinet body has the mounting box, the mounting box is close to one side of the cabinet body and has seted up the bar groove, the movable groove has been seted up to the inside of mounting box, the inside sliding connection of a movable groove has a moving structure, moving structure is including removing the box, it carries out the temperature detection head of temperature measurement to the internal portion wire of cabinet to install on the removal box, the temperature detects the head and runs through the bar groove, the inside of a movable groove is equipped with the drive and removes the box slip and carries out the installed part that detects to the wire temperature of inside different positions.

Through above-mentioned technical scheme, the removal of temperature detection head can be driven through the effect of installed part, and the removal through temperature detection head can carry out real-time detection to the wire temperature of different positions, and whether the inside wire of the operating personnel of being convenient for control the device produces the damage because of high temperature, and the operating personnel of being convenient for in time repairs, has reduced because of the device maintenance make the device damage possibility untimely.

Preferably, the installed part includes two threaded columns that pass through the bearing with the inner wall of a movable groove and be connected, threaded column runs through and removes the box, threaded column passes through threaded connection with removing the box, the one end fixed mounting of threaded column has the spliced pole of being connected with a movable groove inner wall rotation, the ring channel has been seted up in the outside of spliced pole, two the spliced pole is connected with the belt of two spliced poles rotations of being convenient for through the ring channel, and the outside of one of them spliced pole is equipped with the rotatory control of drive spliced pole.

Through above-mentioned technical scheme, can drive the rotation of one of them spliced pole through the effect of control, through the effect of ring channel, the rotation of one of them spliced pole can drive the rotation of belt, the rotation of belt can drive the rotation of another spliced pole, the rotation of spliced pole can drive the rotation of screw thread post, through the effect of screw thread, the rotation of screw thread post can drive the upper and lower slip of removing the box, and then can drive the upper and lower slip that is located the temperature detection head on removing the box.

Preferably, the control piece includes the gear of being connected with a movable groove rotation, one side meshing of gear is connected with the gear No. two that rotate to be connected with a movable groove, one side fixed mounting that No. one movable groove was kept away from to No. two gears has a helical gear, No. one helical gear axle center department fixed mounting that No. two gears one side were kept away from has a helical gear, one side meshing of helical gear be connected with No. two helical gears of a spliced pole fixed connection wherein.

Through the technical scheme, the rotation of the first gear can drive the rotation of the second gear, the second gear is fixedly connected with the first helical gear, the rotation of the second gear can drive the rotation of the first helical gear, the first helical gear is meshed with the second helical gear, the rotation of the first helical gear can drive the rotation of the second helical gear, and the rotation of the second helical gear can drive the rotation of one connecting column because the second helical gear is fixedly connected with one connecting column.

Preferably, a driving structure for driving the first gear to do intermittent motion is arranged on one side, away from the first movable groove, of the first gear.

Through the technical scheme, the first gear can be driven to do intermittent rotary motion through the action of the driving structure, so that the second gear can be controlled to do intermittent rotary motion conveniently, the second gear can be used for doing intermittent rotary motion and driving the threaded column to do intermittent rotary motion, and the movable box can be driven to do intermittent up-and-down sliding.

Preferably, the drive structure include with activity groove limit wall fixed connection's step motor, step motor's output axle head passes through shaft coupling fixed connection's disc No. one, the outside fixed mounting of disc has a connecting rod No. one, step motor's output axle head and the outside fixed connection of disc axle center department, one side fixed mounting that a movable groove was kept away from to a gear has No. two discs, No. two discs pass through fixed axle fixed connection with a gear, the sliding tray that supplies a disc rotation is seted up to one side that a gear was kept away from to No. two discs, the outside symmetry fixed mounting of No. two discs has two connecting rods No. two, the outside fixed mounting of No. two connecting rods has the reference column.

Through the technical scheme, the first disc can be driven to eccentrically rotate under the action of the stepping motor, the first disc can drive the first connecting rod to eccentrically rotate, the first disc is eccentrically rotated in the sliding groove, the first connecting rod can push the positioning column to rotate, the positioning column can drive the second connecting rod to rotate, the second connecting rod can drive the first gear to rotate and further drive the second gear to rotate, when the first connecting rod rotates to be contacted with one positioning column, the second connecting rod can be pushed to rotate, when the first connecting rod rotates to one side close to the other positioning column, the first connecting rod is disconnected with the other positioning column due to the eccentric rotation of the first disc and the first connecting rod, the first gear does not rotate at the moment, and through the matching of the first connecting rod and the positioning column, the first gear can make intermittent rotation movement.

Preferably, a slot is formed in the mobile box, and a temperature test box fixedly connected with the temperature detection head is connected to the slot in an inserted manner.

Through above-mentioned technical scheme, through the cooperation of slot and temperature test box, the temperature test box of being convenient for and the fixed connection who removes the box have effectively improved the stability of temperature test box with remove the box installation.

Preferably, the temperature test box is provided with a slot inside, and the slot inside is provided with a splicing structure convenient for the temperature test box to be fixedly connected with the movable box.

Through the technical scheme, the fixed connection between the movable box and the temperature test box can be facilitated through the effect of the inserting structure, and the temperature test box can be conveniently mounted and dismounted.

Preferably, the grafting structure includes the carriage release lever with temperature test box sliding connection, the carriage release lever extends the temperature test box, the other end fixed mounting of carriage release lever has the rack, the both sides of rack all mesh and are connected with No. three gears, the outside fixed mounting of No. three gears has No. three connecting rods, the one end fixed mounting that No. three gears were kept away from to No. three connecting rods has the kelly, the inside of slot is seted up with kelly complex draw-in groove.

Through the technical scheme, the rack can be driven to move through the movement of the moving rod, the rack can be driven to rotate by the movement of the rack, the third gear can be driven to rotate by the rotation of the third connecting rod, the third connecting rod can be driven to rotate by the rotation of the clamping rod, and the temperature test box and the moving box can be fixedly connected through the clamping rod and the clamping groove, so that the temperature test box can be conveniently mounted and dismounted.

Preferably, the rack is kept away from the one end of carriage release lever and the inner wall of slot and passes through spring fixed connection, swing joint has the connecting plate with the limit wall fixed connection of slot and play the supporting role to No. three gears on No. three gears.

Through the technical scheme, the third gear can be supported through the connecting plate, and the sliding of the rack can be limited through the spring.

Preferably, one end of the clamping rod, which is far away from the clamping groove, is fixedly provided with a positioning shaft, and the positioning shaft is connected with the inner wall of the slot in a sliding manner through a waist-shaped groove.

Through the technical scheme, the waist-shaped groove and the positioning shaft are matched, so that the rotation of the clamping rod can be limited, the clamping rod and the clamping groove are conveniently fixedly connected, and the temperature test box and the movable box are conveniently fixedly connected.

(III) advantageous effects

The invention provides an outdoor power equipment detection device. The method has the following beneficial effects:

(1) the outdoor power equipment detection device can drive the first disc and the first connecting rod to do eccentric rotation motion through the action of the stepping motor, the rotation of the first connecting rod can drive the rotation of the positioning column, the rotation of the positioning column can drive the second connecting rod and the first gear to rotate, the first connecting rod does eccentric rotation motion, the rotation of the first connecting rod can drive the second disc and the first gear to do intermittent rotation, the rotation of the first gear can drive the rotation of the second gear, the rotation of the second gear can drive the rotation of the first helical gear, the rotation of the first helical gear can drive the rotation of the second helical gear, the rotation of the second helical gear can drive the rotation of one connecting column, the rotation of one connecting column can drive the rotation of the belt, the rotation of the other connecting column can be driven through the rotation of the belt, and the rotation of the connecting column can drive the rotation of the threaded column, through the effect of screw thread, the rotation of screw thread post can drive the slip of removing the box, and the slip of removing the box can drive the slip of temperature detection head, can detect the temperature of the wire junction of the internal co-altitude of cabinet through the effect of temperature detection head, and because it is the intermittent type formula removal to remove the box, has improved the degree of accuracy that the temperature detection head detected.

(2) This outdoor power equipment detection device, the slip that can drive the rack through the slip of carriage release lever, can play limiting displacement to the slip of rack through the effect of spring, the slip of rack can drive the rotation of No. three gears, can drive the rotation of No. three connecting rods through writing of No. three gears, the rotation that can drive the kelly through the rotation of No. three connecting rods, cooperation through kelly and draw-in groove, the fixed connection of the temperature test box and removal box of being convenient for, the installation and the dismantlement of the temperature test box of being convenient for.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the mounting box of the present invention;

FIG. 3 is a schematic view of a connection structure of the mobile box and the threaded column according to the present invention;

FIG. 4 is an enlarged view of the structure at A in FIG. 3 according to the present invention;

FIG. 5 is a schematic view of a connection structure of a first gear and a second gear according to the present invention;

FIG. 6 is a schematic cross-sectional view of the mobile case of the present invention;

FIG. 7 is an enlarged view of the structure at B in FIG. 6 according to the present invention.

In the figure: 1. a cabinet body; 2. a sealing door; 3. mounting a box; 4. a strip-shaped groove; 5. a first movable groove; 6. a moving structure; 601. moving the cartridge; 602. a temperature test box; 603. a temperature detection head; 604. a slot; 605. a threaded post; 606. connecting columns; 607. a belt; 608. an annular groove; 7. a drive structure; 701. a stepping motor; 702. a first disc; 703. a first connecting rod; 704. a second disc; 705. a sliding groove; 706. a fixed shaft; 707. a second connecting rod; 708. a positioning column; 709. a first gear; 710. a second gear; 711. a first bevel gear; 712. a second bevel gear; 8. a plug-in structure; 801. a travel bar; 802. a rack; 803. a connecting plate; 804. a third gear; 805. a third connecting rod; 806. a clamping rod; 807. a spring; 808. positioning the shaft; 809. a waist-shaped groove; 810. a clamping groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1 to 7, the present invention provides a technical solution: an outdoor power equipment detection device comprises a cabinet body 1, one side of the cabinet body 1 is hinged with a sealing door 2, one side of the sealing door 2 close to the cabinet body 1 is fixedly provided with a mounting box 3, one side of the mounting box 3 close to the cabinet body 1 is provided with a strip-shaped groove 4, the mounting box 3 is internally provided with a first movable groove 5, the first movable groove 5 is internally connected with a movable structure 6 in a sliding manner, the movable structure 6 comprises a movable box 601, the movable box 601 is provided with a temperature detection head 603 for measuring the temperature of a wire in the cabinet body 1, the temperature detection head 603 penetrates through the strip-shaped groove 4, the first movable groove 5 is internally provided with a mounting piece for driving the movable box 601 to slide and detecting the temperature of the wire at different positions in the cabinet body 01, the temperature detection head 603 can be driven to move under the action of the mounting piece, the temperature of the wire at different positions can be detected in real time through the movement of the temperature detection head 603, the device is convenient for operators to monitor whether the lead in the device is damaged due to high temperature, the operators can repair the device in time, and the possibility of damage to the device due to untimely maintenance of the device is reduced;

as shown in fig. 2 and 3, the mounting member includes two threaded columns 605 connected with the inner wall of the first movable groove 5 through a bearing, the threaded columns 605 penetrate through the movable box 601, the threaded columns 605 are connected with the movable box 601 through threads, one end of each threaded column 605 is fixedly provided with a connecting column 606 rotatably connected with the inner wall of the first movable groove 5, the outer side of each connecting column 606 is provided with an annular groove 608, the two connecting columns 606 are connected with belts 607 facilitating the rotation of the two connecting columns 606 through the annular groove 608, the outer side of one connecting column 606 is provided with a control member driving the connecting columns 606 to rotate, the rotation of one connecting column 606 can be driven through the action of the control member, the rotation of one connecting column 606 can drive the rotation of the belt 607 through the action of the annular groove 608, the rotation of the belt 607 can drive the rotation of the other connecting column 606, the rotation of the connecting column 606 can drive the rotation of the threaded columns 605, through the action of the screw thread, the rotation of the screw thread column 605 can drive the movable box 601 to slide up and down, and further can drive the temperature detection head 603 on the movable box 601 to slide up and down;

referring to fig. 4, the control member includes a first gear 709 rotatably connected to the first movable groove 5, a second gear 710 rotatably connected to the first movable groove 5 is engaged with one side of the first gear 709, a first helical gear 711 is fixedly mounted on one side of the second gear 710 away from the first movable groove 5, a first helical gear 711 is fixedly mounted at the axial center of one side of the first helical gear 711 away from the second gear 710, a second helical gear 712 fixedly connected to one of the connecting posts 606 is engaged with one side of the first helical gear 711, the rotation of the first gear 709 drives the rotation of the second gear 710, the second gear 710 is fixedly connected to the first helical gear 711, the rotation of the second gear 710 drives the rotation of the first helical gear 711, the first helical gear 711 is engaged with the second helical gear 712, the rotation of the first helical gear 711 drives the rotation of the second helical gear 712, and the second helical gear 712 is fixedly connected to one of the connecting posts 606, the rotation of the second bevel gear 712 can drive one of the connecting posts 606 to rotate;

as shown in fig. 4, a driving structure 7 for driving the first gear 709 to perform an intermittent motion is disposed on a side of the first gear 709 away from the first movable slot 5, the first gear 709 can be driven to perform an intermittent rotation motion by the driving structure 7, so as to control the second gear 710 to perform an intermittent rotation motion, and the second gear 710 can be driven to perform an intermittent rotation motion to drive the threaded column 605 to perform an intermittent rotation motion, so as to drive the movable box 601 to perform an intermittent up-and-down sliding motion;

referring to fig. 4, the driving structure 7 includes a stepping motor 701 fixedly connected to the side wall of the first movable slot 5, a first disc 702 fixedly connected to an output shaft end of the stepping motor 701 through a coupling, a first connecting rod 703 fixedly installed on an outer side of the first disc 702, an output shaft end of the stepping motor 701 fixedly connected to an outer side of an axis of the first disc 702, a second disc 704 fixedly installed on a side of the first gear 709 away from the first movable slot 5, the second disc 704 fixedly connected to the first gear 709 through a fixing shaft 706, a sliding groove 705 for rotating the first disc 702 provided on a side of the second disc 704 away from the first gear 709, two second connecting rods 707 symmetrically and fixedly installed on an outer side of the second connecting rod 707, a positioning post 708 fixedly installed on an outer side of the second connecting rod 707, the first disc 702 can be driven to eccentrically rotate by the action of the stepping motor 701, the first connecting rod 703 can be driven to eccentrically rotate by the rotation of the first disc 702, the first disc 702 rotates eccentrically in the sliding groove 705, the rotation of the first connecting rod 703 can push the positioning column 708 to rotate, the rotation of the positioning column 708 can drive the second connecting rod 707 to rotate, the rotation of the second connecting rod 707 can drive the first gear 709 to rotate, and then the second gear 710 can be driven to rotate, because the first disc 702 rotates eccentrically, when the first connecting rod 703 rotates to contact with one positioning column 708, the second connecting rod 707 can be pushed to rotate, when the first connecting rod 703 rotates to one side close to the other positioning column 708, because the first disc 702 and the first connecting rod 703 rotate eccentrically, the first connecting rod 703 is disconnected from the other positioning column 708, at this time, the first gear 709 does not rotate, and through the matching of the first connecting rod 703 and the positioning column 708, the first gear 709 can rotate intermittently;

as shown in fig. 6, a slot 604 is formed in the interior of the mobile box 601, a temperature testing box 602 fixedly connected with the temperature detecting head 603 is inserted into the slot 604, and the slot 604 and the temperature testing box 602 are matched, so that the temperature testing box 602 and the mobile box 601 are conveniently and fixedly connected, and the mounting stability of the temperature testing box 602 and the mobile box 601 is effectively improved;

as shown in fig. 6, a slot 604 is formed in the temperature testing box 602, an insertion structure 8 for facilitating the fixed connection between the temperature testing box 602 and the mobile box 601 is disposed in the slot 604, the fixed connection between the mobile box 601 and the temperature testing box 602 can be facilitated through the insertion structure 8, and the installation and the detachment of the temperature testing box 602 are facilitated;

as shown in fig. 7, the plugging structure 8 includes a moving rod 801 slidably connected to the temperature testing box 602, the moving rod 801 extends out of the temperature testing box 602, a rack 802 is fixedly installed at the other end of the moving rod 801, a third gear 804 is engaged and connected to both sides of the rack 802, a third connecting rod 805 is fixedly installed at the outer side of the third gear 804, a clamping rod 806 is fixedly installed at one end of the third connecting rod 805 away from the third gear 804, a clamping groove 810 matched with the clamping rod 806 is formed inside the slot 604, the rack 802 can be driven to move by the movement of the moving rod 801, the rack 802 can be driven to rotate by the movement of the rack 802, the third gear 804 can be driven to rotate by the rotation of the third gear 805, the third connecting rod 805 can be driven to rotate by the rotation of the third connecting rod 805, the clamping rod 806 is matched with the clamping groove 810, so that the temperature test box 602 is fixedly connected with the movable box 601 conveniently, and the temperature test box 602 is convenient to mount and dismount;

as shown in fig. 7, one end of the rack 802 away from the moving rod 801 is fixedly connected with the inner wall of the slot 604 through a spring 807, the third gear 804 is movably connected with a connecting plate 803 which is fixedly connected with the side wall of the slot 604 and supports the third gear 804, the third gear 804 can be supported through the connecting plate 803, and the sliding of the rack 802 can be limited through the spring 807;

as shown in fig. 7, a positioning shaft 808 is fixedly mounted at one end of the clamping rod 806, which is far away from the clamping slot 810, the positioning shaft 808 is slidably connected with the inner wall of the slot 604 through a waist-shaped groove 809, and the rotation of the clamping rod 806 can be limited through the cooperation of the waist-shaped groove 809 and the positioning shaft 808, so that the clamping rod 806 is fixedly connected with the clamping slot 810, and the temperature testing box 602 is fixedly connected with the movable box 601.

When the device is used, a power supply is switched on, a switch is switched on, a user can turn on the stepping motor 701, the first disc 702 can be driven to eccentrically rotate through the action of the stepping motor 701, the first disc 702 can drive the first connecting rod 703 to eccentrically rotate, the first disc 702 eccentrically rotates in the sliding groove 705, the first gear 709 is fixedly connected with the second disc 704 through the action of the fixed shaft 706, the rotation of the first connecting rod 703 can drive the rotation of the positioning column 708, the rotation of the positioning column 708 can drive the rotation of the second connecting rod 707, the rotation of the second connecting rod 707 can drive the rotation of the second disc 704, the rotation of the second disc 704 can drive the rotation of the first gear 709 and further drive the rotation of the second gear 710, and as the first disc 702 eccentrically rotates, when the first connecting rod 703 rotates to be in contact with one positioning column 708, the rotation of the second connecting rod 707 can be driven, when the first connecting rod 703 rotates to a side close to the other positioning column 708, because the first disc 702 and the first connecting rod 703 do eccentric rotation motion, the first connecting rod 703 is not in contact with the other positioning column 708, and when the first connecting rod 703 is disconnected from the other positioning column 708, the first gear 709 does not rotate at the moment, and the first gear 709 can do intermittent rotation motion through the matching of the first connecting rod 703 and the positioning column 708;

because the first gear 709 is meshed with the second gear 710, the rotation of the first gear 709 can drive the rotation of the second gear 710, the second gear 710 is fixedly connected with the first bevel gear 711, the rotation of the second gear 710 can drive the rotation of the first bevel gear 711, the first bevel gear 711 is meshed with the second bevel gear 712, the rotation of the first bevel gear 711 can drive the rotation of the second bevel gear 712, because the second bevel gear 712 is fixedly connected with one connecting column 606, the rotation of the second bevel gear 712 can drive one connecting column 606 to rotate, the rotation of one connecting column 606 can drive the rotation of the belt 607 through the action of the annular groove 608, the rotation of the belt 606 can drive the rotation of the other connecting column 607, the rotation of the connecting column 606 can drive the rotation of the threaded column 605, and through the action of the threads, the rotation of the threaded column 605 can drive the up-and-down sliding of the movable box 601, the temperature detection head 603 on the movable box 601 can be driven to slide up and down, the temperature of the wires at different height positions in the cabinet body 1 can be measured under the action of the temperature detection head 603, operators can know the temperature of the wires in the cabinet body 1 in time conveniently, the possibility that the device is damaged due to the fact that the temperature of the wires in the cabinet body 1 is too high and the device cannot be maintained in time is reduced, the movable box 601 can be continuously stopped in the moving process due to the intermittent motion of the movable box 601 and the temperature test box 602, the accuracy of the temperature detected in the stopping process is higher, and the temperature of the wires can be fed back in time conveniently;

when the movable box 601 moves to the end of the threaded column 605, the first disc 702 is reversed under the action of the stepping motor 701, the first gear 709 and the second gear 710 are further reversed, the threaded column 605 is conveniently reversed, the movable box 601 can slide to the other direction through the reversal of the threaded column 605, the movable box 601 can do up-and-down reciprocating circular motion, and the temperature of wires with different heights can be conveniently measured in different time periods.

After the device is used for a period of time, when the temperature detection head 603 needs to be overhauled, a user can grasp the extending part of the moving rod 801 and pull the extending part of the moving rod 801 outwards, the moving of the moving rod 801 can drive the rack 802 to move, because the rack 802 is meshed with the third gear 804, the moving of the rack 802 can drive the rotation of the third gear 804, the third gear 804 is fixedly connected with the third connecting rod 805, the rotation of the third gear 804 can drive the rotation of the third connecting rod 805, the third connecting rod 805 is fixedly connected with the clamping rod 806, the rotation of the third connecting rod 805 can drive the rotation of the clamping rod 806, the rotation of the clamping rod 806 can be limited by the matching of the positioning shaft 808 and the waist-shaped groove 809, the fixed connection of the temperature test box 602 and the moving box 601 is facilitated by the matching of the clamping rod 806 and the clamping groove 810, when the clamping rod 806 rotates to the central position of the clamping groove 810, at this time, the user can pull out the temperature testing box 602 with a great force, and then can repair and replace the temperature testing box 602, which is the using process of the outdoor electrical equipment detecting device, and the contents not described in detail in this specification belong to the prior art known by the professional in the art.

In conclusion, the outdoor electrical equipment detection device can drive the first disc 702 and the first connecting rod 703 to do eccentric rotation motion through the action of the stepping motor 701 in the use process, the rotation of the first connecting rod 703 can drive the positioning column 708 to rotate, the rotation of the positioning column 708 can drive the second connecting rod 707 and the first gear 709 to rotate, because the first connecting rod 703 does eccentric rotation motion, the rotation of the first connecting rod 703 can drive the second disc 704 and the first gear 709 to do intermittent rotation, the rotation of the first gear 709 can drive the rotation of the second gear 710, the rotation of the second gear 710 can drive the rotation of the first bevel gear 711, the rotation of the first bevel gear 711 can drive the rotation of the second bevel gear 712, the rotation of the second bevel gear 712 can drive the rotation of one connecting column 606, and the rotation of one connecting column 606 can drive the rotation of the belt 607, the rotation of the belt 607 can drive the rotation of the other connecting column 606, the rotation of the connecting column 606 can drive the rotation of the threaded column 605, the rotation of the threaded column 605 can drive the sliding of the movable box 601 through the action of the threads, the sliding of the movable box 601 can drive the sliding of the temperature detection head 603, the temperature of the wire connection part at different heights in the cabinet body 1 can be detected through the action of the temperature detection head 603, and because the movable box 601 intermittently moves, the detection accuracy of the temperature detection head 603 is improved, meanwhile, the sliding of the rack 802 can be driven through the sliding of the movable rod 801, the sliding of the rack 802 can be limited through the action of the spring 807, the sliding of the rack 802 can drive the rotation of the third gear 804, the writing of the third gear 804 can drive the rotation of the third connecting rod 805, and the rotation of the clamping rod 806 can be driven through the rotation of the third connecting rod 805, the clamping rod 806 is matched with the clamping groove 810, so that the temperature test box 602 is fixedly connected with the movable box 601, and the temperature test box 602 is convenient to mount and dismount.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an outdoor power equipment detection device, includes the cabinet body (1), its characterized in that: the utility model discloses a temperature detection cabinet, including the cabinet body, the articulated sealing door (2) that is connected with in one side of the cabinet body (1), sealing door (2) are close to one side fixed mounting of the cabinet body (1) have mounting box (3), bar groove (4) have been seted up in one side that mounting box (3) are close to the cabinet body (1), movable groove (5) have been seted up to the inside of mounting box (3), the inside sliding connection of movable groove (5) has moving structure (6), moving structure (6) are including removing box (601), install on removing box (601) and carry out temperature detection head (603) of temperature measurement to cabinet body (1) internal conductor, the temperature detects head (603) and runs through bar groove (4), the inside of movable groove (5) is equipped with drive moving box (601) and slides and carries out drive structure (7) that detect to the wire temperature of the different positions of 01 inside.

2. The outdoor power equipment testing device of claim 1, wherein: actuating mechanism (7) include two screw thread post (605) that pass through the bearing and be connected with the inner wall of a movable groove (5), screw thread post (605) run through and remove box (601), screw thread post (605) and removal box (601) pass through threaded connection, the one end fixed mounting of screw thread post (605) has spliced pole (606) of being connected with a movable groove (5) inner wall rotation, annular groove (608) have been seted up in the outside of spliced pole (606), two spliced pole (606) are connected with belt (607) of being convenient for two spliced poles (606) rotations through annular groove (608), and the outside of one of them spliced pole (606) is equipped with the rotatory control of drive spliced pole (606).

3. The outdoor power equipment testing device of claim 2, wherein: the control piece includes No. one gear (709) of being connected with a movable groove (5) rotation, one side meshing connection of No. one gear (709) has No. two gears (710) of being connected with a movable groove (5) rotation, No. one side fixed mounting that No. one movable groove (5) was kept away from to No. two gears (710) has a helical gear (711), No. one helical gear (711) is kept away from axle center department fixed mounting of No. two gears (710) one side and has a helical gear (711), one side meshing connection of a helical gear (711) has No. two helical gear (712) with one of them spliced pole (606) fixed connection.

4. The outdoor power equipment testing device of claim 3, wherein: and a mounting part for driving the first gear (709) to do intermittent motion is arranged on one side of the first gear (709) far away from the first movable groove (5).

5. The outdoor power equipment testing device of claim 4, wherein: the installed part includes the step motor (701) with a movable trough (5) limit wall fixed connection, the output axle head of step motor (701) passes through a disc (702) of shaft coupling fixed connection, the outside fixed mounting of a disc (702) has a connecting rod (703), the output axle head of step motor (701) and the outside fixed connection of a disc (702) axle center department, one side fixed mounting that a movable trough (5) was kept away from to a gear (709) has No. two discs (704), No. two discs (704) and a gear (709) pass through fixed axle (706) fixed connection, No. two discs (704) are kept away from one side of a gear (709) and are seted up and are supplied No. one disc (702) rotatory sliding tray (705), the outside symmetry fixed mounting of No. two discs (704) has two No. two connecting rods (707), and a positioning column (708) is fixedly arranged on the outer side of the second connecting rod (707).

6. The outdoor power equipment testing device of claim 2, wherein: a slot (604) is formed in the mobile box (601), and a temperature test box (602) fixedly connected with the temperature detection head (603) is connected to the inside of the slot (604) in an inserting manner.

7. The outdoor power equipment testing device of claim 6, wherein: a slot (604) is formed in the temperature test box (602), and an inserting structure (8) which is convenient for the temperature test box (602) to be fixedly connected with the movable box (601) is arranged in the slot (604).

8. The outdoor power equipment testing device of claim 7, wherein: grafting structure (8) include with temperature test box (602) sliding connection's carriage release lever (801), temperature test box (602) extends in carriage release lever (801), the other end fixed mounting of carriage release lever (801) has rack (802), the equal meshing in both sides of rack (802) is connected with No. three gear (804), the outside fixed mounting of No. three gear (804) has No. three connecting rod (805), No. three connecting rod (805) keep away from the one end fixed mounting of No. three gear (804) and have kelly (806), draw-in groove (810) with kelly (806) complex is seted up to the inside of slot (604).

9. The outdoor power equipment testing device of claim 8, wherein: one end, far away from the moving rod (801), of the rack (802) is fixedly connected with the inner wall of the slot (604) through a spring (807), and the third gear (804) is movably connected with a connecting plate (803) which is fixedly connected with the side wall of the slot (604) and plays a supporting role in supporting the third gear (804).

10. The outdoor power equipment testing device of claim 9, wherein: one end, far away from the clamping groove (810), of the clamping rod (806) is fixedly provided with a positioning shaft (808), and the positioning shaft (808) is in sliding connection with the inner wall of the slot (604) through a waist-shaped groove (809).