CN116990745A - Guide rail type electric energy meter detection device - Google Patents

Abstract

The invention relates to the technical field of electric energy meter detection, in particular to a guide rail type electric energy meter detection device which comprises a storage mechanism, a guide mechanism positioned right above the storage mechanism and a pressure-bearing mechanism movably arranged in the guide mechanism. Along with the traction frame is upwards promoted the back, the main layer board, vice layer board and the spacing baffle after the combination can upwards turn on one's side with the protection dustcoat, until press from both sides the frame and expose in the bottom of core bar, after the control planking transversely moves towards one side of keeping away from the base, the cushion that is pulled by the horizontal pole just can cooperate the clamp rod to drive fixed protective sleeve and core bar and peg graft towards between base and the folder, the current measuring apparatu of circular telegram state carries out the sideslip in-process along the track afterwards, the lead frame of installing in its bottom just can cooperate two conductive inner cushion to carry out the selectivity laminating contact to the top of a plurality of core bars, thereby can effectively ensure that the device can carry out accurate circular telegram to the electric energy meter of production end and adjacent many batches.

Description

Guide rail type electric energy meter detection device

Technical Field

The invention relates to the technical field of electric energy meter detection, in particular to a guide rail type electric energy meter detection device.

Background

Along with the rapid development of society and the gradual implementation of new energy, more and more facilities and power equipment need to use electric power, and the phenomenon of unbalanced electric power consumption at different times is also increasingly serious, so that the phenomenon of unbalanced electric power consumption is improved for relieving the increasingly sharp contradiction between power supply and demand, and the load curve is regulated, so that the phenomenon of unbalanced electric power consumption is very important when the electric power is counted by means of an electric energy meter.

At present, the electric energy meter needs to detect after the production end link, and be different from other products, the electric energy meter needs to accomplish accurate and detect one by one, and in the current power supply to the electric energy meter shows the testing process, need adopt the arm to deliver the electric energy meter one by one towards detecting indoor, and need artifical auxiliary test, this link except that the step is loaded down with trivial details, still can increase the time spent of electric energy meter detection of detecting one by one, has increased the transportation cost of electric energy meter detection link moreover.

Aiming at the detection of the normal power of the existing mass production electric energy meter, how to improve the multi-batch and accurate power-on test of the electric energy meter at the end of production and reduce the cost loss required to be transferred during the detection is the technical difficulty to be solved by the invention.

Disclosure of Invention

The present invention aims to solve one of the technical problems existing in the prior art or related technologies.

The technical scheme adopted by the invention is as follows:

the utility model provides a guide tracked electric energy meter detection device, includes and stores up and receive the mechanism, is located and stores up the guiding mechanism that stores up the mechanism directly over, movable mounting is in guiding mechanism's pressure-bearing mechanism, installs wiring mechanism in pressure-bearing mechanism and installs the testing mechanism on wiring mechanism, store up and receive the mechanism and include layer board, be located a plurality of electric energy meters at layer board top, movable mounting is on the electric energy meter protection dustcoat, fix the clamp frame at the electric energy meter top, install the base at clamp frame inner chamber bottom and utilize the folder piece of bolt installation in the clamp frame, guiding mechanism includes two slide rails and two outer framves of fixed mounting on two slide rails that are located layer board top both sides, the pressure-bearing mechanism comprises a base movably arranged between two sliding rails, a first spring positioned outside a vertical rod in the base, a traction frame movably arranged in the base, two main supporting plates and three auxiliary supporting plates movably arranged on the vertical rod in the base and connected with a plurality of rod bodies at the bottom of the traction frame, a plurality of pressure springs respectively connected with the main supporting plates and the auxiliary supporting plates, a plurality of limit baffles movably arranged in the two main supporting plates and the three auxiliary supporting plates, a guide rod fixedly arranged outside the base and a second spring positioned outside the guide rod, the wiring mechanism comprises a plurality of cross rods movably arranged in the base, an outer plate fixed at one end of the cross rod, a cushion block fixed at the other end of the cross rod, a clamping rod arranged on the outer wall of the cushion block, an insulating base plate positioned in a cross groove at the top of the cushion block, a protective sleeve fixed in the clamping rod, a gasket arranged in the protective sleeve and a gasket arranged on the top end of the core rod, and the test mechanism comprises a track fixed at the top of the cushion block by bolts, a slide buckle movably arranged at the outer part of the track, a current measuring instrument fixedly arranged at the top of the slide buckle, and the conducting inner pad is arranged in two ends of the bottom of the lead frame.

The present invention may be further configured in a preferred example to: the middle part of base bottom surface and the middle part of folder top surface have all seted up the arc recess of symmetric distribution.

Through adopting above-mentioned technical scheme, after electric energy meter production end and even pile up at the layer board top, can exist certain gap between base and the folder after being predetermine, receive the horizontal pole when the cushion and draw and be close to the back towards the base, the core bar bottom cylinder of being fixed by the centre gripping just can insert towards the gap between base and the folder, in the circular telegram of convenient wiring, can make things convenient for the current measuring instrument to carry out portable detection along the track again.

The present invention may be further configured in a preferred example to: the inside of slide rail has seted up horizontal spout and a plurality of U-shaped spout, and the inside U-shaped spout of slide rail is located the outside of electric energy meter.

Through adopting above-mentioned technical scheme, after base movable mounting is between two slide rails, along with a plurality of electric energy meters of same batch detect the completion after, operating personnel alright control base is along U-shaped spout towards horizontal spout internal withdrawal, finally can make things convenient for pressure-bearing mechanism and wiring mechanism to only want a plurality of electric energy meters of next batch to shift to make things convenient for the device to carry out quick circular telegram test to batch production's electric energy meters.

The present invention may be further configured in a preferred example to: holes are formed in the bottoms of the base and the cushion block, rollers are movably mounted in the holes in the bottoms of the base and the cushion block, and T-shaped ends at two ends of the base penetrate into the two sliding rails respectively.

Through adopting above-mentioned technical scheme, utilize movable mounting gyro wheel in the hole of base and cushion bottom, along with the transportation and the removal of base and cushion along the inside spout of slide rail, the gyro wheel moves along the top of layer board, when reducing frictional resistance, can finely tune the processing for the pairing of device to follow-up electric energy meter again.

The present invention may be further configured in a preferred example to: two inserted bars are installed on one side of the outer portion of the limiting partition plate, and a triangular end post scraping the side edge of the protective outer cover is installed in the middle of the other side of the limiting partition plate.

Through adopting above-mentioned technical scheme, utilize with a plurality of spacing baffles respectively movable mounting in two main layer boards and three vice layer boards, the cooperation is installed a plurality of pressure springs in two main layer boards and three vice layer boards and is pulled the elasticity of a plurality of spacing baffles respectively, after the control traction frame goes up and down along the base, main layer board, vice layer board and spacing baffle after the combination alright conveniently lift the side turning of adjacent a plurality of protection dustcoat.

The present invention may be further configured in a preferred example to: the clamping rod is internally provided with uniformly distributed lantern rings, and the outer part of the clamping rod is coated with an insulating paint surface.

Through adopting above-mentioned technical scheme, utilize with clamping lever fixed mounting between two adjacent cushion, the lantern ring in the cooperation clamping lever is to protective sleeve's centre gripping and fixed, fixes at protective sleeve's core bar alright peg graft along with the removal of cushion towards the gap between base and the folder to can effectively ensure that a plurality of adjacent electric energy meters obtain convenience circular telegram and detect.

The present invention may be further configured in a preferred example to: the protective sleeve is made of ceramic, the whole core bar is of an L-shaped structure, the conducting end head at the top of the core bar is adaptive to penetrate to the top of the insulating base plate, and the lead frame is composed of a ceramic cushion block, two Z-shaped porcelain tubes and a silica gel base plate arranged at the bottom end of each porcelain tube.

Through adopting above-mentioned technical scheme, the insulating of cooperation core bar and the insulating protection of core bar to core bar top column cap, after current measuring instrument drive lead frame moved to directly over two adjacent core bars, install two conductive inner pad in the bottom both ends of lead frame alright conveniently laminate the column cap on two core bar tops, along with current measuring instrument along the outside sideslip of track, lead frame and conductive inner pad can conveniently carry out the circular telegram test to different electric energy meters, and ceramic cushion, two zigzag porcelain tube and the silica gel backing plate of installing in the porcelain tube bottom can cooperate the gasket to provide protection against electric shock to current measuring instrument and electric energy meter after circular telegram in the lead frame.

By adopting the technical scheme, the beneficial effects obtained by the invention are as follows:

1. according to the invention, the power-on detection is carried out on the electric energy meters which are stacked at equal intervals at the end of production, the transferable bases are arranged outside the adjacent and transversely-arranged electric energy meters, the main supporting plate, the auxiliary supporting plate and the limiting partition plate which can lift the two sides of the protective outer cover upwards are movably arranged in the rectangular grooves on one side of the outer part of the base, after the traction frame is lifted upwards, the combined main supporting plate, auxiliary supporting plate and limiting partition plate can roll the protective outer cover upwards until the clamping frame is exposed at the bottom end of the core rod, after the outer plate is controlled to transversely move towards one side far away from the base, the cushion blocks pulled by the cross rod can be matched with the clamping rods to drive the fixed protective sleeve and the core rod to be spliced between the base and the clamping pieces, and then the lead frame arranged at the bottom of the electric current measuring instrument in the power-on state can be matched with the two conductive inner pads to carry out selective bonding contact on the top ends of the core rods in the transverse moving process along the track, so that the device can be effectively ensured to carry out accurate power-on detection on the electric energy meters which are produced at the end and adjacent batches.

2. According to the invention, the two movable sliding rails are arranged on two sides of the top of the supporting plate, the two outer frames are fixedly arranged on the two sliding rails, the plurality of U-shaped sliding grooves which are distributed at equal intervals are formed in the two sliding rails, after the T-shaped ends at two ends of the base are respectively movably arranged in the sliding grooves in the two sliding rails, an operator can pair two sides of a plurality of electric energy meters in the next batch by adjusting the operation of the base along the sliding grooves in the sliding rails, and meanwhile, concave holes which are uniformly distributed and used for positioning and restraining the electric energy meters are formed in cooperation with the top of the supporting plate, so that the follow-up cushion blocks are ensured to be close to the base and the unified and convenient process of inserting the column head at the bottom end of the core rod into the gap of the base and the clamp is driven.

Drawings

FIG. 1 is a schematic illustration of the present invention in use;

FIG. 2 is a partial top view schematic of the present invention;

FIG. 3 is an illustration of the power representation of the present invention;

FIG. 4 is an enlarged and partially cut-away schematic illustration of the power meter of the present invention;

FIG. 5 is an enlarged schematic view of the invention at A;

FIG. 6 is a schematic view of a guide mechanism of the present invention;

FIG. 7 is a schematic view of a pressure mechanism of the present invention;

FIG. 8 is an enlarged schematic view of the present invention at B;

FIG. 9 is a schematic diagram of a wiring mechanism of the present invention;

FIG. 10 is an enlarged schematic view of the present invention at C;

FIG. 11 is a schematic diagram of a testing mechanism according to the present invention.

Reference numerals:

100. a storage mechanism; 110. a supporting plate; 120. an electric energy meter; 130. a protective outer cover; 140. a clamping frame; 150. a base; 160. a clamping piece;

200. a guide mechanism; 210. a slide rail; 220. an outer frame;

300. a pressure-bearing mechanism; 310. a base; 320. a first spring; 330. a traction frame; 340. a main pallet; 350. an auxiliary supporting plate; 360. a pressure spring; 370. a limiting baffle; 380. a guide rod; 390. a second spring;

400. a wiring mechanism; 410. a cross bar; 420. an outer plate; 430. a cushion block; 440. a clamping rod; 450. an insulating backing plate; 460. a protective sleeve; 470. a core bar; 480. a gasket;

500. a testing mechanism; 510. a track; 520. a slide fastener; 530. a current measuring instrument; 540. a lead frame; 550. and a conductive inner pad.

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present invention and features in the embodiments may be combined with each other.

It is to be understood that this description is merely exemplary in nature and is not intended to limit the scope of the present invention.

The following describes a detection device for a rail-mounted electric energy meter according to some embodiments of the present invention with reference to the accompanying drawings.

Embodiment one:

referring to fig. 1 to 11, the detection device for a rail-type electric energy meter provided by the invention comprises a storage mechanism 100, a guide mechanism 200 positioned right above the storage mechanism 100, a pressure-bearing mechanism 300 movably installed in the guide mechanism 200, a wiring mechanism 400 installed in the pressure-bearing mechanism 300, and a testing mechanism 500 installed on the wiring mechanism 400.

The storage mechanism 100 includes a pallet 110, an electric energy meter 120, a protective housing 130, a clamp frame 140, a base 150, and a clamp 160, the guide mechanism 200 includes a slide rail 210 and an outer frame 220, the pressure mechanism 300 includes a base 310, a first spring 320, a traction frame 330, a main pallet 340, an auxiliary pallet 350, a compression spring 360, a limit spacer 370, a guide rod 380, and a second spring 390, the wiring mechanism 400 includes a cross bar 410, an outer plate 420, a spacer 430, a clamp rod 440, an insulating spacer 450, a protective sleeve 460, a core rod 470, and a spacer 480, and the test mechanism 500 includes a rail 510, a slider 520, a current meter 530, a lead frame 540, and a conductive inner pad 550.

Specifically, a plurality of electric energy meters 120 are positioned at the top of the supporting plate 110, the protective outer cover 130 is movably arranged on the electric energy meters 120, the clamping frame 140 is fixed at the top of the electric energy meters 120, the base 150 is arranged at the bottom of the inner cavity of the clamping frame 140, the clamping piece 160 is arranged in the clamping frame 140 by bolts, two slide rails 210 are positioned at two sides of the top of the supporting plate 110, two outer frames 220 are fixedly arranged on the two slide rails 210, the base 310 is movably arranged between the two slide rails 210, the first spring 320 is positioned outside the vertical rod in the base 310, the traction frame 330 is movably arranged in the base 310, two main supporting plates 340 and three auxiliary supporting plates 350 connected to a plurality of rod bodies at the bottom of the traction frame 330 are respectively movably arranged on a plurality of vertical rods in the base 310, a plurality of pressure springs 360 are respectively connected in the main supporting plates 340 and the auxiliary supporting plates 350, a plurality of limiting separation plates 370 are movably arranged in the two main supporting plates 340 and the three auxiliary supporting plates 350, the guide rod 380 is fixedly installed at the outside of the base 310, the second spring 390 is located at the outside of the guide rod 380, a plurality of cross rods 410 are movably installed at the inside of the base 310, an outer plate 420 is fixed at one end of the cross rods 410, a cushion block 430 is fixed at the other end of the cross rods 410, a clamping rod 440 is installed on the outer wall of the cushion block 430, an insulating base plate 450 is located in a transverse groove at the top of the cushion block 430, a protective sleeve 460 is fixed at the inside of the clamping rod 440, a core rod 470 is installed at the inside of the protective sleeve 460, a gasket 480 is installed at the end head at the top of the core rod 470, a track 510 is fixed at the top of the cushion block 430 by bolts, a slider 520 is movably installed at the outside of the track 510, a current measuring instrument 530 is fixedly installed at the top of the slider 520, a lead frame 540 is installed at the middle of the bottom surface of the current measuring instrument 530, and two conductive inner pads 550 are installed in two ends at the bottom of the lead frame 540.

The main supporting plate 340, the auxiliary supporting plate 350 and the limiting baffle 370 which can lift the two sides of the protective cover 130 upwards are movably arranged in the rectangular groove at one side outside the base 310, the combined main supporting plate 340, auxiliary supporting plate 350 and limiting baffle 370 can roll over the protective cover 130 upwards after the traction frame 330 is lifted upwards until the clamping frame 140 is exposed at the bottom end of the core bar 470, when the outer plate 420 is controlled to move transversely towards one side far away from the base 310, the cushion block 430 pulled by the cross bar 410 can be matched with the clamping rod 440 to drive the fixed protective sleeve 460 and the core bar 470 to be inserted between the base 150 and the clamping piece 160, and then the current measuring instrument 530 in the electrified state moves transversely along the track 510, the lead frame 540 mounted at the bottom of the base 310 is matched with the two conductive inner pads 550 to selectively contact the top ends of the core rods 470, after the T-shaped ends at the two ends of the base 310 are respectively movably mounted in the sliding grooves in the two sliding rails 210, an operator can pair two sides of the next batch of the electric energy meters 120 by adjusting the operation of the base 310 along the sliding grooves in the sliding rails 210, and simultaneously the tops of the matched supporting plates 110 are provided with concave holes which are uniformly distributed and used for positioning and restraining the electric energy meters 120, so that the follow-up cushion blocks 430 are ensured to approach the base 310 and drive the bottom end column heads of the core rods 470 to be inserted into the gaps between the base 150 and the clamping pieces 160 uniformly and conveniently, and the accurate electrification detection of the adjacent batches of the electric energy meters 120 at the end of production can be effectively ensured.

Embodiment two:

referring to fig. 1 to 11, on the basis of the first embodiment, the middle part of the bottom surface of the base 150 and the middle part of the top surface of the clamping piece 160 are provided with arc grooves which are symmetrically distributed, the bottoms of the base 310 and the cushion block 430 are provided with holes, rollers are movably installed in the holes of the base 310 and the bottom of the cushion block 430, T-shaped ends at two ends of the base 310 respectively penetrate into the two sliding rails 210, two inserting rods are installed at one side of the outer part of the limiting partition 370, and a triangular end post scraping the side edge of the protecting cover 130 is installed at the middle part of the other side of the limiting partition 370.

When the electric energy meter 120 is manufactured and is uniformly stacked on the top of the supporting plate 110, along with the transportation and movement of the base 310 and the cushion block 430 along the sliding grooves in the sliding rail 210, the rollers move along the top of the supporting plate 110, friction resistance is reduced, meanwhile, fine adjustment treatment can be performed on pairing of the subsequent electric energy meter 120 by the device, elastic traction of the plurality of limiting baffles 370 is combined with the plurality of pressure springs 360 installed in the two main supporting plates 340 and the three auxiliary supporting plates 350, after the traction frame 330 is controlled to lift along the base 310, the combined main supporting plates 340, auxiliary supporting plates 350 and limiting baffles 370 can conveniently lift and support side-turning of the adjacent plurality of protective covers 130, a certain gap exists between the preset base 150 and the preset clamp 160, when the cushion block 430 is pulled by the cross rod 410 and approaches to the base 310, the bottom end column 470 which is clamped and fixed can be inserted into the gap between the base 150 and the clamp 160, and meanwhile, the movable detection of the current measuring instrument 530 can be facilitated along the core bar track 510.

Embodiment III:

referring to fig. 3-10, in the first embodiment, a transverse chute and a plurality of U-shaped chutes are formed in the sliding rail 210, and the U-shaped chute in the sliding rail 210 is located at the outer side of the electric energy meter 120.

After the base 310 is movably installed between the two slide rails 210, along with the completion of the detection of the plurality of electric energy meters 120 in the same batch, an operator can control the base 310 to retract along the U-shaped chute toward the transverse chute, and finally the pressure-bearing mechanism 300 and the wiring mechanism 400 can be conveniently transferred to the plurality of electric energy meters 120 in the next batch, so that the device is convenient for carrying out quick power-on test on the electric energy meters 120 in batch production.

Embodiment four:

referring to fig. 5, 9, 10 and 11, on the basis of the first embodiment, a collar uniformly distributed is installed in the clamping rod 440, an insulating paint surface is coated on the outer portion of the clamping rod 440, the protective sleeve 460 is made of ceramic, the core rod 470 is integrally in an L-shaped structure, the conductive end at the top of the core rod 470 is adapted to penetrate to the top of the insulating pad 450, and the lead frame 540 is made of a ceramic pad, two zigzag porcelain tubes and a silica gel pad installed at the bottom end of the porcelain tubes.

When the current measuring instrument 530 drives the lead frame 540 to move right above the two adjacent core rods 470, the two conductive inner pads 550 installed in the two ends of the bottom of the lead frame 540 can be convenient to attach the column heads at the top ends of the two core rods 470, the lead frame 540 and the conductive inner pads 550 can be convenient to carry out electrifying test on different electric energy meters 120 along with the transverse movement of the current measuring instrument 530 along the outside of the track 510, meanwhile, the clamping rods 440 are fixedly installed between the two adjacent cushion blocks 430, the sleeve rings in the clamping rods 440 are matched to clamp and fix the protective sleeve 460, the core rods 470 fixed on the protective sleeve 460 can be spliced along with the movement of the cushion blocks 430 towards the gap between the base 150 and the clamping pieces 160, and the transverse movement of the current measuring instrument 530 is carried out, so that the adjacent electric energy meters 120 can be ensured to be conveniently electrified detected, and the ceramic cushion blocks in the lead frame 540, the two Z-shaped porcelain tubes and the silica gel cushion plates installed at the bottom ends of the porcelain tubes can be matched with the gaskets 480 to provide electric shock protection for the electrified current measuring instrument 530 and the electric energy meters 120.

The working principle and the using flow of the invention are as follows: the slider 520 is fixedly installed at the bottom of the current measuring instrument 530 in advance, the lead frame 540 is fixedly installed at the middle of the bottom surface of the current measuring instrument 530, at this time, the internal wires of the current measuring instrument 530 penetrate through the two ends of the bottom of the lead frame 540, the two conductive inner pads 550 are respectively connected to the two ends of the bottom of the lead frame 540, the two wires penetrating through the inside of the lead frame 540 are respectively connected to the two conductive inner pads 550, then the combined test mechanism 500 is assembled right above the cushion block 430 by utilizing brackets and a plurality of bolts installed at the two ends of the track 510, at this time, the two ends of the bottom of the lead frame 540 are attached to the top of the insulating cushion 450, then a plurality of cushion blocks 430 are connected by utilizing a plurality of clamping rods 440, the core rod 470 penetrating through the inside of the protective sleeve 460 is clamped by the plurality of clamping rods 440 until the state is fixed in a transverse state, the ends of the top of the core rod 470 penetrate through the top of the insulating cushion 450, the cushion 480 provides pressure for the top of the core rod 470, at this time, the ends of the core 470 penetrating through the middle of the cushion 480 are attached to the bottom surface of the cushion blocks 550, the four ends of the cushion blocks 310 are attached to the bottom surfaces of the cushion blocks 430, and the four ends of the cushion blocks 310 are penetrated through the outer plates 410 are installed far away from the outer plates 410, and are installed far from the outer plates 410;

then, the T-shaped ends at two ends of the base 310 are movably installed in the sliding grooves in the two sliding rails 210, and the guide rod 380 fixed at one side of the outer portion of the base 310 is matched with the second spring 390 to provide elastic support for the outer plate 420, when the base 310 is controlled to move along the U-shaped sliding grooves in the sliding rails 210 until the rectangular notch in the base 310 clamps a plurality of adjacent electric energy meters 120, an operator needs to control the lifting of the traction frame 330 to drive the combined main supporting plate 340, auxiliary supporting plate 350 and limiting partition plate 370 to roll over the adjacent protective outer covers 130 upwards, and at the moment, the clamping frame 140, the base 150 and the clamping piece 160 installed on the electric energy meters 120 are exposed near the bottom ends of the limiting partition plate 370;

when the outer plate 420 is controlled to move transversely along the top of the supporting plate 110, the cushion blocks 430 drawn by the cross bars 410 are matched with the clamping bars 440 on the inner side to deliver the clamped core rod 470 and the protective sleeve 460 to the inner cavity of the clamping frame 140 until the bottom end column head of the core rod 470 is inserted into the arc-shaped groove formed between the clamping piece 160 and the base 150, after the outer lead of the current measuring instrument 530 is electrified, an operator controls the current measuring instrument 530 and the slider 520 to move transversely along the outside of the track 510, two conductive inner pads 550 arranged on two ends of the bottom of the lead frame 540 are selectively contacted with the ends of the top of the core rods 470, finally, the adjacent electric energy meters 120 can be matched with the current measuring instrument 530 to carry out accurate electrifying detection, when the electric energy meters 120 positioned on the top of the supporting plate 110 and adjacently arranged transversely arranged are detected, the outer plate 420 is pushed towards the base 310, finally, after the bottom end column head of the core rod 470 is withdrawn from between the base 150 and the clamping piece 160, the traction frame 330 is pressed until the whole body 130 is restored to the initial state, the base 310 is controlled to separate outwards along the U-shaped sliding groove inside the sliding groove of the sliding rail 210, finally, until the whole body 300 is shifted to the whole body 300 and the whole body 500 is moved towards the whole sliding rail 500, and the whole body is ready to be detected, and the whole sliding rail 500 is moved towards the test mechanism is ready.

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

Claims (9)

1. The guide rail type electric energy meter detection device is characterized by comprising a storage mechanism (100), a guide mechanism (200) positioned right above the storage mechanism (100), a pressure-bearing mechanism (300) movably installed in the guide mechanism (200), a wiring mechanism (400) installed in the pressure-bearing mechanism (300) and a testing mechanism (500) installed on the wiring mechanism (400);

the guide mechanism (200) comprises two sliding rails (210) and two outer frames (220) fixedly arranged on the two sliding rails (210);

the pressure-bearing mechanism (300) comprises a base (310) movably mounted between two sliding rails (210), a first spring (320) positioned outside a vertical rod in the base (310), a traction frame (330) movably mounted in the base (310), and two main supporting plates (340) and three auxiliary supporting plates (350) movably mounted on the vertical rod in the base (310) and connected to a plurality of rod bodies at the bottom of the traction frame (330);

the wiring mechanism (400) comprises a plurality of cross bars (410) movably arranged in the base (310), an outer plate (420) fixed at one end of the cross bars (410), a cushion block (430) fixed at the other end of the cross bars (410), a clamping rod (440) arranged on the outer wall of the cushion block (430), an insulating base plate (450) positioned in a transverse groove at the top of the cushion block (430), a protective sleeve (460) fixed in the clamping rod (440), a core bar (470) arranged in the protective sleeve (460) and a gasket (480) arranged on the top end of the core bar (470);

the testing mechanism (500) comprises a track (510), a slide buckle (520) movably arranged outside the track (510), a current measuring instrument (530) fixedly arranged at the top of the slide buckle (520), a lead frame (540) arranged in the middle of the bottom surface of the current measuring instrument (530) and conductive inner pads (550) arranged in two ends at the bottom of the lead frame (540), wherein the track (510) is fixed at the top of the cushion block (430) by bolts.

2. The guide rail type electric energy meter detection device according to claim 1, wherein the storage mechanism (100) comprises a plurality of electric energy meters (120) located at the top of the supporting plate (110), a protective outer cover (130) movably mounted on the electric energy meters (120), a clamping frame (140) fixed at the top of the electric energy meters (120), a base (150) mounted at the bottom of an inner cavity of the clamping frame (140) and clamping pieces (160) mounted in the clamping frame (140) by bolts, and two sliding rails (210) are located at two sides of the top of the supporting plate (110).

3. The guide rail type electric energy meter detection device according to claim 2, wherein the middle part of the bottom surface of the base (150) and the middle part of the top surface of the clamping piece (160) are provided with arc grooves which are symmetrically distributed.

4. The guide rail type electric energy meter detection device according to claim 1, wherein a transverse sliding groove and a plurality of U-shaped sliding grooves are formed in the sliding rail (210), and the U-shaped sliding groove in the sliding rail (210) is located at the outer side of the electric energy meter (120).

5. The guide rail type electric energy meter detection device of claim 1, wherein the pressure-bearing mechanism (300) comprises a plurality of pressure springs (360) respectively connected in the main supporting plate (340) and the auxiliary supporting plate (350), a plurality of limiting separation plates (370) movably installed in the two main supporting plates (340) and the three auxiliary supporting plates (350), a guide rod (380) fixedly installed outside the base (310) and a second spring (390) positioned outside the guide rod (380).

6. The device for detecting the guide rail type electric energy meter according to claim 1, wherein holes are formed in the bottom of the base (310) and the bottom of the cushion block (430), rollers are movably mounted in the holes in the bottoms of the base (310) and the cushion block (430), and T-shaped ends at two ends of the base (310) penetrate into the two sliding rails (210) respectively.

7. The guide rail type electric energy meter detection device according to claim 5, wherein two inserting rods are installed on one side of the outer portion of the limiting partition plate (370), and a triangular end post scraping the side edge of the protective outer cover (130) is installed in the middle of the other side of the limiting partition plate (370).

8. The guide rail type electric energy meter detection device according to claim 1, wherein uniformly distributed lantern rings are installed in the clamping rods (440), and the outer parts of the clamping rods (440) are coated with insulating paint surfaces;

the protective sleeve (460) is made of ceramic, the core rod (470) is integrally of an L-shaped structure, and a conductive end at the top of the core rod (470) is adapted to penetrate to the top of the insulating base plate (450).

9. The guide rail type electric energy meter detection device according to claim 1, wherein the lead frame (540) is composed of a ceramic cushion block, two Z-shaped ceramic tubes and a silica gel pad arranged at the bottom end of each ceramic tube.