CN208916190U - Electric energy meter discharge conveying device and automatic calibration of electric energy meter machine - Google Patents

Abstract

The utility model provides a kind of electric energy meter discharge conveying device and automatic calibration of electric energy meter machine, is related to the technical field of conveying equipment.Electric energy meter discharge conveying device includes side plate, rear baffle, bottom plate and telescopic component；Two side plates, rear baffles form calibrating type chamber after connecting with bottom plate, bottom plate and two are detachably connected between side plate, rear baffle；One end of telescopic component is connected on bottom plate, and the other end of telescopic component is connected in the back plate of calibrating type chamber；Telescopic component drives the delivery outlet of bottom plate closing calibrating type chamber, alternatively, telescopic component drives the delivery outlet of bottom plate opening calibrating type chamber.Electric energy meter is solved by the way of manually examining and determine, the problem of calibrating efficiency is poor, heavy workload.Using being detachably connected between side plate, rear baffle, telescopic component is able to drive the delivery outlet that bottom plate turns on or off calibrating type chamber by the bottom plate of the utility model and two, completes the process of automatic conveying electric energy meter.

Description

Electric energy meter discharge conveying device and automatic calibration of electric energy meter machine

Technical field

The utility model relates to the technical fields of conveying equipment, more particularly, to a kind of electric energy meter discharge conveying device and electricity It can table automatic calibration machine.

Background technique

With the fast development of Chinese economy, demand of all trades and professions to electricity is increasing, different time electricity consumption is uneven The phenomenon that weighing apparatus, also gets worse；To alleviate the increasingly sharp imbalance between power supply and demand in China, load curve is adjusted, improves electricity consumption not Balanced phenomenon, China carries out peak, flat, paddy tou power price system comprehensively, to improve the power consumption efficiency in China, rationally utilizes electric power Resource, China's power department start gradually to release multi-rate electric energy meter, convenient for the electricity consumption time-shared charge to user.

Above-mentioned used electric energy meter is a kind of instrument for measuring electric energy, also known as kilowatt-hour meter in the prior art, fire Table, kilowatt-hour table refer to the instrument for measuring various electrical quantities.

In power transmission and transformation, electric energy meter is necessary electric fittings, and the metering of electric energy is mainly carried out to electric energy, is being used Before, it needs to examine and determine electric energy meter, to ensure that electric energy meter being capable of normal use.

But when examining and determine electric energy meter, the mode manually examined and determine is generallyd use, the inefficient manually examined and determine, and And heavy workload, all electric energy meters can not be examined and determine one by one, cause electric energy meter that cannot accurately examine and determine, be unable to satisfy power supply The demand of enterprise.

Utility model content

The purpose of this utility model is to provide a kind of electric energy meter discharge conveying devices, to solve to exist in the prior art , electric energy meter is by the way of manually examining and determine, the technical issues of calibrating efficiency is poor, heavy workload.

The utility model also provides a kind of automatic calibration of electric energy meter machine, and to solve in the prior art, electric energy meter uses people The technical issues of mode of work calibrating, calibrating efficiency is poor, heavy workload.

A kind of electric energy meter discharge conveying device provided by the utility model, including side plate, rear baffle, bottom plate and flexible group Part；

The quantity of the side plate is two, and two side plates are connected to the opposite two sides of the bottom plate；After described Baffle is connected to the rear side of the bottom plate；

Two side plates, the rear baffle form calibrating type chamber, the bottom plate and two institutes after connecting with the bottom plate It states and is detachably connected between side plate, the rear baffle；One end of the telescopic component is connected on the bottom plate, and described flexible group The other end of part is connected in the back plate of calibrating type chamber；

The telescopic component is able to drive the delivery outlet that the bottom plate closes calibrating type chamber, to support electric energy to be detected Table, alternatively, the telescopic component is able to drive the delivery outlet that the bottom plate opens calibrating type chamber, to convey the electric energy after detection Table.

Further, the telescopic component includes pars contractilis；

One end of the pars contractilis is connected on the bottom plate, after the other end of the pars contractilis is connected to calibrating type chamber On plate.

Further, the quantity of the pars contractilis is multiple；

Multiple pars contractilis are connected between the bottom plate and the back plate of calibrating type chamber.

Further, the pars contractilis is telescopic cylinder；

Alternatively, the pars contractilis is electric pushrod.

Further, the side plate is equipped with the recessed sliding rail in side, and the side of the bottom plate is slidably connected at the recessed sliding rail in the side It is interior.

Further, it is equipped with guiding slot port in the bottom of calibrating type chamber, the guiding slot port is used for the electric energy after detection The glide direction of table guides.

Further, the quantity of the bottom plate is two, and the quantity of the telescopic component is two；

First bottom plate is connected on first side plate, and first telescopic component is connected to first institute It states on bottom plate；

Second bottom plate is connected on second side plate, and second telescopic component is connected to second institute It states on bottom plate；

First telescopic component, second telescopic component drive first bottom plate, second bottom When plate flying splice close to each other closes delivery outlet, electric energy meter can be supported；First telescopic component is stretched described in second It, can be to the electricity after detection when contracting component drives first bottom plate, second bottom plate to move out opening delivery outlet Energy table is conveyed.

It further, further include the second conveying assembly；

Second conveying assembly is connected to the lower part of calibrating type chamber, the delivery outlet of calibrating type chamber and the second conveying group The corresponding setting of the input terminal of part；

The output end of second conveying assembly connects rewinding box.

Further, second conveying assembly includes the second driving section and the second conveyer belt；

The output end of second driving section and the second conveying band connection, second driving section can drive described The operating of second conveyer belt, conveys second conveyer belt to the electric energy meter after detection.

The utility model also provides a kind of automatic calibration of electric energy meter machine, including rack and the electric energy meter discharge conveying Device；

The electric energy meter discharge conveying device is connected in the rack.

A kind of electric energy meter discharge conveying device provided by the utility model, two side plates are connected to the bottom plate Opposite two sides, to form the two sidewalls of calibrating type chamber, the rear baffle is connected to the rear side of the bottom plate, to form calibrating type The rear wall of chamber, the calibrating type chamber formed after two side plates, the rear baffle, bottom plate connection can be to electric energy meter Position is positioned；Between the bottom plate and two side plates, the rear baffle by the way of being detachably connected, it is convenient for institute The delivery outlet of calibrating type chamber lower end surface can be opened by stating bottom plate, be conveyed to electric energy meter；One end of the telescopic component connects On the bottom plate, the other end of the telescopic component is connected in the back plate of calibrating type chamber, utilizes the back plate pair of calibrating type chamber Another end position of the telescopic component is fixed, so that the telescopic component is able to drive institute when carrying out stretching motion State the delivery outlet that bottom plate turns on or off calibrating type chamber；The telescopic component drives the output of the bottom plate closing calibrating type chamber When mouth, backplanes support electric energy meter to be detected can be made, the position of electric energy meter is defined, the telescopic component drives When the bottom plate opens the delivery outlet of calibrating type chamber, the electric energy meter on the bottom plate can be made to convey along delivery outlet, thus complete At the transmission process of electric energy meter.The structure design of the utility model is simple, is easily assembled, easy to use, can be realized electric energy The automatic calibration of table, conveying, improve the calibrating efficiency of electric energy meter.

The utility model also provides a kind of automatic calibration of electric energy meter machine, and above-mentioned electric energy meter discharge conveying device is connected to In the rack, the calibrating efficiency of entire automatic calibration of electric energy meter machine is high, and the workload of manpower intervention is small, improves calibrating effect Rate.

Detailed description of the invention

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the structural schematic diagram of automatic calibration of electric energy meter machine provided by the embodiment of the utility model；

Fig. 2 is the left view of automatic calibration of electric energy meter machine provided by the embodiment of the utility model；

Fig. 3 is the top view of automatic calibration of electric energy meter machine provided by the embodiment of the utility model；

Fig. 4 is positioning component provided by the embodiment of the utility model and the attachment structure schematic diagram for examining and determine component；

Fig. 5 is the structural schematic diagram of calibrating cavity bottom provided by the embodiment of the utility model；

Fig. 6 is the bottom substance schematic diagram of calibrating plug provided by the embodiment of the utility model；

Fig. 7 is the main view of calibrating plug provided by the embodiment of the utility model.

Icon: the first conveying assembly of 100-；200- positioning component；300- examines and determine component；400- push plate traveling component； 500- baffle traveling component；The second conveying assembly of 600-；700- electric energy meter；The first driving section 101-；102- first is conveyed Band；103- side baffle；201- calibrating type chamber；202- positioning plate；203- side plate；204- positioning cylinder；205- rear baffle； The first guide rod of 206-；207- bottom plate；208- telescopic component；209- pars contractilis；The recessed sliding rail in the side 210-；211- guide groove Mouthful；301- examines and determine plug；302- power arm；303- is lifted component；304- lifting portion；305- guiding axis；306- sliding Component；307- adjusting slider；308- adjusts sliding rail；309- guide sleeve；310- positioning pin；311- contact pin；312- induction Device；313- elastic construction；314- spring；315- spring pocket；316- sliding shaft hole；317- baffle；401- push plate； 402- push plate cylinder；403- push pedal bracket；The second guide rod of 404-；The first leading truck of 405-；406- the first screw thread silk Bar；407- first servo motor；501- barrier plate；502- barrier support；503- baffle pushing part；504- second is oriented to Frame；The second threaded screw rod of 505-；The second servo motor of 506-；601- rewinding box；The second driving section 602-；603- second Conveyer belt.

Specific embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally Field those of ordinary skill every other embodiment obtained without making creative work belongs to practical Novel protected range.

It is in the description of the present invention, it should be noted that term " center ", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only For ease of description the utility model and simplify description, rather than the device or element of indication or suggestion meaning must have it is specific Orientation, be constructed and operated in a specific orientation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Fig. 1 is the structural schematic diagram of automatic calibration of electric energy meter machine provided by the embodiment of the utility model；Fig. 2 is that this is practical The left view for the automatic calibration of electric energy meter machine that new embodiment provides；Fig. 3 is electric energy meter provided by the embodiment of the utility model The top view of automatic calibration machine.

As shown in Figures 1 to 3, a kind of electric energy meter discharge conveying device provided by the utility model, including side plate 203, rear gear Plate 205, bottom plate 207 and telescopic component 208；

The quantity of the side plate 203 is two, and two side plates 203 are connected to opposite two of the bottom plate 207 Side；The rear baffle 205 is connected to the rear side of the bottom plate 207；

Two side plates 203, the rear baffle 205 and the bottom plate 207 form calibrating type chamber 201 after connecting, described It is detachably connected between bottom plate 207 and two side plates 203, the rear baffle 205；One end of the telescopic component 208 connects It connects on the bottom plate 207, the other end of the telescopic component 208 is connected in the back plate of calibrating type chamber 201；

The telescopic component 208 is able to drive the delivery outlet that the bottom plate 207 closes calibrating type chamber 201, to be checked to support The electric energy meter 700 of survey, alternatively, the telescopic component 208 is able to drive the delivery outlet that the bottom plate 207 opens calibrating type chamber 201, To convey the electric energy meter 700 after detection.

Two side plates 203 are respectively left plate, right side plate, and left plate, right side plate are respectively perpendicular the left side for being connected to bottom plate 207 Side, right edge, rear baffle 205 are vertically connected on the back side edge of bottom plate 207, and the front side of bottom plate 207 forms calibrating type chamber 201 Opening.

Dismountable mode is used between bottom plate 207 and left plate, right side plate, so that the arranged on left and right sides of bottom plate 207 can Pull movement is done respectively along left plate, right side plate, bottom plate 207 opens the delivery outlet of calibrating type chamber 201 from two side directions.

Dismountable mode is used between bottom plate 207 and rear baffle 205, so that the rear side of bottom plate 207 can fully open, The delivery outlet of calibrating type chamber 201 is opened from rear direction.

In one embodiment of the utility model, the outboard end of telescopic component 208 is connected on bottom plate 207, telescopic component 208 inner end is connected in the back plate of calibrating type chamber 201, and the inner end of telescopic component 208 is fixed.Telescopic component 208 is inside When contraction, telescopic component 208 drives bottom plate 207 inwardly to move, and the delivery outlet of calibrating type chamber 201 is closed at this time, to utilize bottom plate 207 support electric energy meters 700；When telescopic component 208 outwardly opens, telescopic component 208 drives bottom plate 207 to move out, and examines at this time The delivery outlet of sizing chamber 201 is opened, and is exported convenient for electric energy meter 700 along the delivery outlet of calibrating type chamber 201.

A kind of automatic calibration of electric energy meter machine, including the first conveying assembly 100, positioning component 200, calibrating component 300, push away Plate traveling component 400, baffle traveling component 500, supplied materials detection components and the second conveying assembly 600；

First conveying assembly 100 is connected in the rack of verification machine；The positioning component 200 is connected to described first The one side exit of conveying assembly 100, the positioning component 200 is for positioning electric energy meter 700 to be detected；It is described Calibrating component 300 is connected to the side of the positioning component 200；The push plate traveling component 400 is connected to first conveying The another side corresponding with one side of component 100, the calibrating type of the push plate traveling component 400 and the positioning component 200 The opening of chamber 201 is oppositely arranged；The baffle traveling component 500 is connected to the side of the push plate traveling component 400, and is arranged In the output end of first conveying assembly 100；The supplied materials detection components are connected on the baffle traveling component 500；Institute State the equipped at outlet port that the second conveying assembly 600 is connected to calibrating type chamber 201, the delivery outlet of calibrating type chamber 201 and described second defeated The corresponding setting of the input terminal of sending component 600；

First conveying assembly 100, positioning component 200, calibrating component 300, push plate traveling component 400, baffle are advanced Component 500, supplied materials detection components, the second conveying assembly 600 are connected with the control device electric signal in rack.

In Fig. 1, the first conveying assembly 100 is horizontally disposed, and the first conveying assembly 100 is connected on the left of the upper surface of rack In slot；Multiple electric energy meters to be detected 700 are placed on the first conveying assembly 100, when so that the first conveying assembly 100 starting, Multiple electric energy meters 700 to be detected can be conveyed.Positioning component 200 is connected on the upper surface right side plate of rack, fixed Hyte part 200 is connected to the right side exit of the first conveying assembly 100, so as to be detected on the first conveying assembly 100 Electric energy meter 700 can enter positioning component directed along the outlet of 100 right side of the first conveying assembly during conveying 200, directly electric energy meter 700 to be detected is positioned using positioning component 200.Calibrating component 300 is connected to the upper of rack On the right side plate of end face, calibrating component 300 is connected to the right side of positioning component 200, and examines and determine the calibrating plug of component 300 301 are arranged in the top of positioning component 200, and calibrating plug 301 is oppositely arranged with electric energy meter 700 to be detected, is inserted using calibrating First 301 pairs of electric energy meters 700 to be detected carry out automatic Verification, realize the automatic Verification process of electric energy meter 700, calibrating efficiency Height, when calibrating, the workload of manpower intervention is small.Push plate traveling component 400 is connected by screw bolts the left side of end face on the rack, and The left side of first conveyer belt 102 is set；When push plate traveling component 400 extends, push plate traveling component 400 can with it is first defeated Sending band 102, square crossing is arranged in the horizontal direction；Calibrating type chamber 201 is connected by screw bolts the right side of end face on the rack, and sets It sets in the right side of first conveyer belt 102.Push plate traveling component 400 and the opening of calibrating type chamber 201 are oppositely arranged, so that push plate Traveling component 400 can push the electric energy meter 700 in first conveyer belt 102 when doing stretching motion, and electric energy meter 700 is pushed away It moves to calibrating type chamber 201, to be positioned to electric energy meter 700.Baffle traveling component 500 is connected to push plate traveling component 400 Left end face, and the output end position of first conveyer belt 102 is arranged in baffle traveling component 500, to be advanced using baffle Component 500 is defined the position of electric energy meter 700 in first conveyer belt 102, avoids electric energy meter 700 along first conveyer belt 102 output end slides.Supplied materials detection components are connected on baffle traveling component 500, and the setting of supplied materials detection components is the The top position of one conveyer belt 102, to be detected using supplied materials detection components to the supplied materials in first conveyer belt 102.Supplied materials Detection components are connected by screw bolts the side on barrier plate 501 relative to 102 feedstock direction of first conveyer belt；Supplied materials detection group Part is microswitch, infrared sensor, any one in position sensor.Second conveying assembly 600 is connected to calibrating The lower part of type chamber 201, the setting corresponding with the input terminal of second conveying assembly 600 of the delivery outlet of calibrating type chamber 201.

First conveying assembly 100, positioning component 200, calibrating component 300, push plate traveling component 400, baffle traveling component 500, supplied materials detection components, the second conveying assembly 600 are connected with the control device electric signal in rack, and control device is PLC control Device processed.

In one embodiment of the utility model, electric energy meter 700 is in the first conveyer belt 102 of the first conveying assembly 100 Conveying；Supplied materials detection components detect the position signal of electric energy meter 700, and position signal detected is sent to PLC control In device；PLC controller control baffle traveling component 500 hinders the advanced positions of the electric energy meter 700 in first conveyer belt 102 Gear, to ensure that electric energy meter 700 can accurately convey in first conveyer belt 102；Meanwhile PLC controller control push plate is advanced Component 400 does stretching motion, and the electric energy meter 700 in first conveyer belt 102 is pushed to the calibrating type chamber of positioning component 200 In 201, the position of electric energy meter 700 is positioned；Electric energy meter 700 in calibrating 300 pairs of calibrating type chambers 201 of component is examined It is fixed；After calibrating, the delivery outlet of calibrating type chamber 201 is opened, and electric energy meter 700 is delivered to along the delivery outlet of calibrating type chamber 201 Second conveying assembly 600, the electric energy meter 700 after the calibrating of the second 600 pairs of conveying assembly are conveyed outward.

Further, first conveying assembly 100 includes the first driving section 101, first conveyer belt 102 and side baffle 103；

The output end of first driving section 101 is connect with the first conveyer belt 102；The quantity of the side baffle 103 It is two, two side baffles 103 are connected to the opposite two sides of the first conveyer belt 102；The side baffle 103 On be connected with the first guide roller.

In Fig. 4, the first driving section 101 uses driving motor, and the zone face of first conveyer belt 102 is more strong using material Conveyer belt plane materiel material be made so that electric energy meter to be detected 700 can be accurately positioned in first conveyer belt 102.First is defeated Band 102 is sent to be connected in the upper surface left side groove of rack, first conveyer belt 102 is upper conveyor belt.The output shaft of driving motor with The driving wheel of first conveyer belt 102 connects, and when so that driving motor starting, driving wheel rotation is able to drive, to drive first Conveyer belt 102, first conveyer belt 102 driven wheel rotation, make first conveyer belt 102 it is lasting rotate, to be detected Electric energy meter 700 is conveyed.The width of upper conveyor belt and the width of electric energy meter 700 match, so that electric energy meter 700 can be upper It is accurately positioned on conveyer belt.The left side and right side of upper conveyor belt are connected separately with side baffle 103, utilize two side baffles 103 respectively limit the arranged on left and right sides of electric energy meter 700.In two side baffles 103 for being located at 700 direction of travel of electric energy meter On be separately connected the first guide roller, electric energy meter 700 is conveyed using the first guide roller.

Fig. 4 is positioning component provided by the embodiment of the utility model and the attachment structure schematic diagram for examining and determine component；Fig. 5 is this The structural schematic diagram for the calibrating cavity bottom that utility model embodiment provides；Fig. 6 is calibrating provided by the embodiment of the utility model The bottom substance schematic diagram of plug；Fig. 7 is the main view of calibrating plug provided by the embodiment of the utility model.

As also shown in e.g. figs. 4-7, further, the telescopic component 208 includes pars contractilis 209；

One end of the pars contractilis 209 is connected on the bottom plate 207, and the other end of the pars contractilis 209 is connected to inspection It is formed in the back plate of chamber 201.

The outboard end of pars contractilis 209 is connected on bottom plate 207, and the inner end of pars contractilis 209 is fixedly connected on calibrating type chamber In 201 back plate.

When pars contractilis 209 does stretching motion, it is able to drive the delivery outlet that bottom plate 207 turns on or off calibrating type chamber 201.

Further, the quantity of the pars contractilis 209 is multiple；

Multiple pars contractilis 209 are connected between the bottom plate 207 and the back plate of calibrating type chamber 201.

Connect multiple pars contractilis 209 between bottom plate 207 and the back plate of calibrating type chamber 201, multiple pars contractilis 209 are the bottom of along Plate 207 uniformly arranges, thus keep drawing force suffered by bottom plate 207 balanced, the movement of bottom plate 207 at the uniform velocity, to open calibrating type chamber 201 delivery outlet.

Further, the pars contractilis 209 is telescopic cylinder；

Alternatively, the pars contractilis 209 is electric pushrod.

In one embodiment of the utility model, pars contractilis 209 is telescopic cylinder, and the pedestal of telescopic cylinder is fixedly connected on In the back plate of calibrating type chamber 201, the telescopic rod connecting bottom board 207 of telescopic cylinder, so that telescopic cylinder is when doing stretching motion, energy Bottom plate 207 is enough driven to turn on or off the delivery outlet of calibrating type chamber 201.

In another embodiment of the utility model, pars contractilis is electric pushrod, and the pedestal of electric pushrod is fixedly connected on In the back plate of calibrating type chamber 201, the push rod connecting bottom board 207 of electric pushrod, so that electric pushrod is when doing stretching motion, it can Bottom plate 207 is driven to turn on or off the delivery outlet of calibrating type chamber 201.

Further, the side plate 203 is equipped with the recessed sliding rail 210 in side, and the side of the bottom plate 207 is slidably connected at described In the recessed sliding rail 210 in side.

The recessed sliding rail 210 in side includes the recessed sliding rail in left side, the recessed sliding rail in right side, and the recessed sliding rail in left side is connected to the lower end of left plate, right The recessed sliding rail in side is connected to the lower end of right side plate；The left side of bottom plate 207 is slidably connected in the recessed sliding rail in left side, the right side of bottom plate 207 Side is slidably connected in the recessed sliding rail in right side, when so that pars contractilis 209 driving bottom plate 207 to do stretching motion, the left side of bottom plate 207 Edge left side recessed sliding rail sliding, the right edge of bottom plate 207 slided along the recessed sliding rail in right side, to the arranged on left and right sides of bottom plate 207 Sliding position is defined, with the axial direction for keeping bottom plate 207 to move.

Further, it is equipped with guiding slot port 211 in the bottom of calibrating type chamber 201, the guiding slot port 211 is used for detection The glide direction of electric energy meter 700 afterwards guides.

The size of guiding slot port 211 and the type chamber of electric energy meter 700 match.

The equipped at outlet port of 201 bottom of calibrating type chamber is arranged in guiding slot port 211, so that telescopic cylinder drives bottom plate 207 to beat After opening, electric energy meter 700 is successively conveyed along delivery outlet, guiding slot port 211 outward.

It is separately connected the second guide roller in the left and right two side walls of guiding slot port 211, so that the two sides of electric energy meter 700 It can be conveyed downwards respectively along the second guide roller, stablize the conveying effect of electric energy meter 700.

Further, the quantity of the bottom plate 207 is two, and the quantity of the telescopic component 208 is two；

First bottom plate 207 is connected on first side plate 203, and first telescopic component 208 connects On first bottom plate 207；

Second bottom plate 207 is connected on second side plate 203, and second telescopic component 208 connects On second bottom plate 207；

First telescopic component 208, second telescopic component 208 drives first bottom plate 207, second When a bottom plate 207 flying splice close to each other closes delivery outlet, electric energy meter 700 can be supported；First described flexible group Part 208, second telescopic components 208 drive first bottom plate, 207, second bottom plates 207 to move out and beat When opening delivery outlet, the electric energy meter 700 after detection can be conveyed.

In one embodiment of the utility model, first bottom plate 207 is left bottom plate, and second bottom plate 207 is right bottom plate, First telescopic component 208 is left telescopic cylinder, and second telescopic component 208 is right telescopic cylinder；Left telescopic cylinder drives left Bottom plate stretching motion, right telescopic cylinder drive right bottom plate stretching motion.Left telescopic cylinder drives left bottom plate, right telescopic cylinder to drive Right bottom plate does movement close to each other, is spliced, to close the delivery outlet of calibrating type chamber 201, alternatively, left telescopic cylinder drives a left side Bottom plate, right telescopic cylinder drive right bottom plate to outwardly open movement, to open the delivery outlet of calibrating type chamber 201, utilize calibrating type The delivery outlet of chamber 201 conveys the electric energy meter 700 after detection.

It further, further include the second conveying assembly 600；

Second conveying assembly 600 is connected to the lower part of calibrating type chamber 201, the delivery outlet of calibrating type chamber 201 with it is described The corresponding setting of input terminal of second conveying assembly 600；

The output end of second conveying assembly 600 connects rewinding box 601.

In one embodiment of the utility model, bottom plate 207 opens calibrating type chamber under the stretching motion of pars contractilis 209 When 201 delivery outlet, the electric energy meter 700 after calibrating is discharged along the delivery outlet of calibrating type chamber 201, and passes through guiding slot port 211 It falls on the second conveying assembly 600, electric energy meter 700 is discharged along the second conveying assembly 600, until entering the second conveying assembly The rewinding box 601 of 600 output ends, the electric energy meter 700 after 601 pairs of rewinding box calibratings are collected.

Guided way is set between the second conveyer belt 603 and rewinding box 601 of the second conveying assembly 600, and guided way is to incline Arc panel obliquely, stress when being fallen using guided way buffering electric energy meter 700.

Further, second conveying assembly 600 includes the second driving section 602 and the second conveyer belt 603；

The output end of second driving section 602 is connect with second conveyer belt 603,602 energy of the second driving section Second conveyer belt 603 is enough driven to operate, the electric energy meter 700 after making 603 pairs of second conveyer belt detections conveys.

Second conveyer belt 603 is connected in rack, and the second conveyer belt 603 is arranged in parallel with first conveyer belt 102, and the The lower right side position of first conveyer belt 102 is arranged in two conveyer belts 603, and the conveying direction of two conveyer belts is arranged in parallel.

The bottom position of guiding slot port 211 is arranged in the input terminal of second conveyer belt 603, and rewinding box 601 is connected to second The output end of conveyer belt 603, the second driving section 602 are driving motor, the master of the output shaft of driving motor and the second conveyer belt 603 Driving wheel connection is able to drive driving wheel and is rotated when driving motor starts, to drive the second conveyer belt 603, connection Driven wheel rotary motion on the second conveyer belt 603.

Further, the calibrating component 300 includes calibrating plug 301, power arm 302, lifting portion 304, guiding axis 305, adjusting slider 307 and adjusting sliding rail 308；

One end of the power arm 302 connects the calibrating plug 301；The one end in the lifting portion 304 is connected to described On adjusting slider 307, the other end in the lifting portion 304 connects the another of the power arm 302 by the guiding axis 305 End；The side for adjusting sliding rail 308 and being connected to positioning component 200, the adjusting slider 307 are connected to the adjusting sliding rail On 308.

The left end connection calibrating plug 301 of power arm 302, using calibrating plug 301 to be detected in positioning component 200 Electric energy meter 700 is detected.The right end connection lifting component 303 of power arm 302, lifting component 303 are connected to positioning component 200 Right side, to enable to examine and determine plug 301, the top of electric energy meter 700 is set.

When lifting component 303 does stretching motion along vertical direction, the right end of power arm 302 is driven to do along vertical direction Stretching motion, to make the left end of power arm 302 move along vertical direction, between calibrating plug 301 and electric energy meter 700 Distance is adjusted, and completes the automatic detection process of electric energy meter 700.

Power arm 302 is П shape.Power arm 302 includes the left side first connecting rod being vertically arranged, horizontally disposed centre Second connecting rod and the right side third connecting rod being vertically arranged.The lower end of first connecting rod is connected by screw bolts calibrating plug 301, In the lower end surface connecting contact pin 311 of calibrating plug 301, the connecting terminal of the junction block of contact pin 311 and electric energy meter 700 to be detected Match, the upper end of first connecting rod is vertical with the left end of the second connecting rod to be connect, and the right end of the second connecting rod is connect with third The upper end of bar vertically connects, the upper end of the lower end connection lifting component 303 of third connecting rod.

Being lifted component 303 includes lifting portion 304 and guiding axis 305.Lifting portion 304 is hydraulic cylinder or is push-rod electric machine. The lower end in lifting portion 304 connects adjusting slider 307, and it is sliding that adjusting slider 307 is connected to the adjusting on the upper surface right side plate of bracket On rail 308, adjusting slider 307 can adjust sliding rail 308 in slide, to lifting portion 304 200 side of positioning component position It is adjusted；The right side of positioning component 200 is arranged in lifting portion 304, connects guiding axis 305 in the upper end in lifting portion 304, leads The guiding axis 305 being vertically arranged to axis 305, the lower end of guiding axis 305, which is fixed, is connected to the upper end in lifting portion 304, moves The right end of the arm of force 302 is fixed in the upper end of guiding axis 305, to guarantee that calibrating plug 301 is axial in vertical lifting, thus When making power arm 302 that calibrating plug 301 be driven to press down on, the grafting between contact pin 311 and the junction block of electric energy meter 700 is improved The stability of cooperation.

Further, the calibrating plug 301 further includes guide sleeve 309, positioning pin 310 and contact pin 311；

The quantity of the positioning pin 310 be it is multiple, multiple positioning pins 310 are uniformly connected to the guide sleeve 309 One end；The quantity of the contact pin 311 be it is multiple, multiple contact pins 311 are uniformly connected to the other end of the guide sleeve 309； For matching with the junction block of electric energy meter 700, multiple contact pins 311 are connected by signal wire multiple contact pins 311 respectively Connect the voltage follower circuit or current output circuit in verification parameters display device；The end of the positioning pin 310 is connected with Sensing device 312, the sensing device 312 are connect with verification parameters display device electric signal, and the sensing device 312 is used for will The switching value information of detection is fed back in verification parameters display device.

Guide sleeve 309 and the junction block shape of electric energy meter 700 match, and the upper of calibrating type chamber 201 is arranged in guide sleeve 309 Side.

In one embodiment of the utility model, four positioning pins 310 are uniformly connected in the upper surface of guide sleeve 309, The lower end surface of guide sleeve 309 uniformly connects four contact pins 311.

Four positioning pins 310 are connected in the upper surface of guide sleeve 309, four positioning pins 310 connect with electric energy meter 700 respectively The patch jack of line seat is corresponding, and four positioning shaft holes, each positioning shaft hole and each 310 phase of positioning pin are arranged on junction block It is correspondingly arranged, so as to which vertical direction can be kept during calibrating plug 301 is pushed along the junction block of electric energy meter 700 Axially position, and examine and determine the positioning shaft hole accurate positioning grafting of the contact pin 311 of plug 301 and the junction block of electric energy meter 700.

Positioning shaft hole is the threaded hole formed on the upper cover plate of the junction block of electric energy meter 700.In the lower end of guide sleeve 309 Face connects four contact pins 311, and four contact pins 311, will by four contact pins 311 for matching with the junction block of electric energy meter 700 Signal is fed back on electric energy meter 700, passes through the display data and verification parameters display device of comparison electric energy meter 700 by testing person It is whether consistent, it will be able to judge whether electric energy meter 700 detected belongs to satisfactory electric energy meter 700, for meeting the requirements Electric energy meter 700 by the conveying of the second conveyer belt 603 of 201 lower end of calibrating type chamber after, satisfactory electric energy meter 700 is in rewinding It is collected in box 601.

Sensing device 312 is connected in the end of 310 lower end surface of positioning pin, passes through the calibrating on sensing device 312 and frame body Parameter displaying device electric signal connection, in use, detecting the switching value information of electric energy meter 700 by sensing device 312, and will inspection The information measured is fed back in the verification parameters display device in rack, is plugged on showing whether four contact pins 311 are stable On the junction block of electric energy meter 700.Sensing device 312 is microswitch, any one in infrared sensor.

The inclined-plane guide part being obliquely extended by inside to lateral direction, inclined-plane guiding are set in the lower end surface of guide sleeve 309 Portion is oblique groove；The upper surface of electric energy meter 700, it may be assumed that be correspondingly arranged on junction block matched with inclined-plane guide part it is oblique convex It rises；Oblique protrusion is fixed with oblique groove, can be with so that calibrating plug 301 is when being depressed into downwards the junction block of electric energy meter 700 It is mutually matched and is plugged and fixed.

Further, the calibrating plug 301 further includes spring 314 and spring pocket 315；

The spring 314 is connected in the spring pocket 315, one end of the spring pocket 315 and the guide sleeve 309 Other end connection, in one end of the spring 314 and the guide sleeve 309 voltage follower circuit of verification parameters display device or The connection of person's current output circuit, the other end of the spring pocket 315 are equipped with sliding shaft hole 316, and the contact pin 311 passes through the cunning Shaft hole 316 is connect with the baffle 317 of the other end of the spring 314.

The upper end of spring 314 is connected to the lower end surface of guide sleeve 309, the lower end connecting contact pin 311 of spring 314, so as to insert Needle 311 can be connected to the lower end surface of guide sleeve 309 by spring 314.The upper end of spring pocket 315 is connected to guide sleeve 309 There is spring intracavity between thread bush outside lower end surface, spring pocket 315 and spring 314, the thread bush outside spring 314 External screw thread is arranged in outer peripheral surface, internal screw thread is arranged in the inner peripheral surface of spring pocket 315, the external screw thread of thread bush is interior with spring pocket 315 It is threadedly engaged connection.Thread bush outside spring 314 is connected in spring pocket 315, the calibrating on the upper end and rack of spring 314 The voltage follower circuit or current output circuit electric signal of parameter displaying device connect.The lower end surface centre bit of spring pocket 315 Sliding shaft hole 316 is installed, the upper end of contact pin 311 passes through sliding shaft hole 316 and is connected on the lower end surface of spring 314.In spring 314 lower end connects baffle 317, and the thread bush lower end of spring 314 is arranged in baffle 317, slides so that the upper end of contact pin 311 passes through Shaft hole 316 is connected to the lower end surface of baffle 317.

Further, the push plate traveling component 400 includes push plate 401, push plate cylinder 402, push pedal bracket 403, second Guide rod 404, the first leading truck 405, the first threaded screw rod 406 and first servo motor 407；

One end of the push plate cylinder 402 is connected in the push pedal bracket 403, the other end of the push plate cylinder 402 Connect the push plate 401；One end of second guide rod 404 is connected in the push pedal bracket 403, second guide rod 404 other end is connected in the push plate 401；The side of the push plate cylinder 402 is arranged in second guide rod 404； First leading truck 405 is connected to the side of the first conveyer belt 102, and first threaded screw rod 406 is connected to described In first leading truck 405, the first servo motor 407 is connect with first threaded screw rod 406；First threaded screw rod 406, which are equipped with the first screw thread department, covers, and the push pedal bracket 403 is connected to first screw thread department and puts on.

Push plate cylinder 402 is connected in push pedal bracket 403, and the left side of first conveyer belt 102 is arranged in push pedal bracket 403 The right end in face, push plate cylinder 402 connects push plate 401, and the left end extension elongation of push plate cylinder 402 is longer, the right side of push plate cylinder 402 It holds shorter；When push plate cylinder 402 extends, the top of first conveyer belt 102 can be set, to push electric energy using push plate 401 In table 700 to calibrating type chamber 201.Push plate 401 is " shape, including horizontally disposed first connecting plate and the second company being vertically arranged Fishplate bar, the left end of the first connecting plate is vertical with the upper end of the second connecting plate to be connect, and the right end setting of the first connecting plate is defeated first The top of band 102 is sent, so that the right side of two connecting plates forms a half mould chamber, push plate cylinder 402 is connected to the second connecting plate Left side middle position；When push plate cylinder 402 does stretching motion, half mould chamber can push electric energy meter 700 to calibrating type chamber 201 It is interior.Push pedal bracket 403 is connected by screw bolts in the left side of first conveyer belt 102, and the left end of push plate cylinder 402 is connected to push plate On bracket 403, to be fixed using position of the push pedal bracket 403 to push plate cylinder 402.The left end of second guide rod 404 connects It connects in push pedal bracket 403, the right end of the second guide rod 404 is connected to the second connecting plate left side of push plate 401, connects second The left side of fishplate bar connects guiding axis, and the second guide rod 404 is slidably connected in guiding axis, so that push plate cylinder 402 exists Second guide rod 404 moves in the range of limiting, to guarantee in the stable propulsion calibrating type chamber 201 of electric energy meter 700.Second leads Be to the quantity of bar 404 it is multiple, multiple second guide rods 404 are evenly arranged on the left side of push plate cylinder 402, right side, with using multiple Second guide rod 404 makes the left and right sides stress equalization of push plate cylinder 402.First leading truck 405, the first threaded screw rod 406 are It is arranged in parallel with the direction of travel of first conveyer belt 102；First threaded screw rod 406 is connected to the interposition of the first leading truck 405 It sets, first servo motor 407 is connected to the right end of the first threaded screw rod 406, and push pedal bracket 403 is connected to the first threaded screw rod On 406.When first servo motor 407 starts, the first threaded screw rod 406 is driven to be rotated, and then make the first screw thread silk Push pedal bracket 403 on bar 406 is moved along the direction of travel of first conveyer belt 102, to push plate 401 in first conveyer belt 102 The position of direction of travel be adjusted.The position of push pedal bracket 403 is fixed using the first screw thread department set, to push plate Position of the bracket 403 on the first threaded screw rod 406 is adjusted.

Further, the baffle traveling component 500 include barrier plate 501, barrier support 502, the second leading truck 504, Second threaded screw rod 505 and the second servo motor 506；

The supplied materials detection components are connected on the barrier plate 501, and the barrier plate 501 is connected to the barrier support 502 one end, the other end of the barrier support 502 are connected on second threaded screw rod 505；Second leading truck 504 are connected to the end face of the push plate traveling component 400, and second threaded screw rod 505 is connected to second leading truck 504 It is interior；Second threaded screw rod 505 is covered equipped with the second screw thread department, and the other end of the barrier support 502 is connected to described the Two screw thread departments put on；Second servo motor 506 is connected to the end face of second threaded screw rod 505.

The length of barrier plate 501 is less than the width of first conveyer belt 102, and it is right that supplied materials detection components are connected to barrier plate 501 The outboard end at end, so that the top position of first conveyer belt 102 is arranged in supplied materials detection components.Barrier plate 501 is connected to baffle The right end of bracket 502, direction of travel of the barrier plate 501 in the horizontal direction with first conveyer belt 102 are vertically arranged, barrier support 502 left end connects baffle pushing part 503, and baffle pushing part 503 is connected to the left end of the first leading truck 405.Baffle pushing part 503 can push barrier plate 501 to move along the direction of travel of first conveyer belt 102, with to barrier plate 501 in first conveyer belt The position of 102 tops is adjusted.The direction of travel of second leading truck 504, the second threaded screw rod 505 and first conveyer belt 102 It is arranged in parallel.Second leading truck 504 is connected to the left end of the first leading truck 405, and the second threaded screw rod 505 is connected to the second guiding In frame 504, the second servo motor 506 is connected to the left end of the second threaded screw rod 505.It, can when second servo motor 506 starts It drives the second threaded screw rod 505 to be rotated, the position in the horizontal direction of the second leading truck 504 is adjusted, thus to resistance Baffle 501 is adjusted in the direction of travel position of first conveyer belt 102.It is covered using the second screw thread department to barrier support 502 Position is fixed, and moves barrier plate 501 along the direction of travel of first conveyer belt 102.

The utility model also provides a kind of automatic calibration of electric energy meter machine, including rack and the electric energy meter discharge conveying Device；

The electric energy meter discharge conveying device is connected in the rack.

After connecting between left plate, right side plate, rear baffle and bottom plate, the calibrating type chamber of front openings, calibrating type chamber are formed It is connected on the right side plate in frame upper end face, is defined using position of the calibrating type chamber to electric energy meter；Bottom plate and left plate, the right side Between side plate, rear baffle by the way of being detachably connected, when so that telescopic cylinder driving bottom plate to do stretching motion, bottom plate can It closes, to support electric energy meter, alternatively, bottom plate can be opened, and electric energy meter is along inspection when telescopic cylinder drives bottom plate to do shortening movement Delivery outlet, the second conveyer belt of sizing chamber are delivered in rewinding box；Second conveying assembly is connected to the lower position of calibrating type chamber, Convenient for being conveyed to the electric energy meter after calibrating；The transfer position of electric energy meter is stablized, accurate positioning, and calibrating efficiency is high, to mention The high calibrating efficiency of automatic calibration of electric energy meter machine.

Finally, it should be noted that the above various embodiments is only to illustrate the technical solution of the utility model, rather than it is limited System；Although the present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should Understand: it is still possible to modify the technical solutions described in the foregoing embodiments, or to some or all of Technical characteristic is equivalently replaced；And these are modified or replaceed, it does not separate the essence of the corresponding technical solution, and this is practical new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of electric energy meter discharge conveying device, which is characterized in that including side plate (203), rear baffle (205), bottom plate (207) and Telescopic component (208)；

The quantity of the side plate (203) is two, and it is opposite that two side plates (203) are connected to the bottom plate (207) Two sides；The rear baffle (205) is connected to the rear side of the bottom plate (207)；

Calibrating type chamber (201) are formed after two side plates (203), the rear baffle (205) and the bottom plate (207) connection, The bottom plate (207) and two side plates (203), the rear baffles are detachably connected between (205)；The telescopic component (208) one end is connected on the bottom plate (207), and the other end of the telescopic component (208) is connected to calibrating type chamber (201) Back plate on；

The telescopic component (208) be able to drive the bottom plate (207) close calibrating type chamber (201) delivery outlet, with support to The electric energy meter (700) of detection, alternatively, the telescopic component (208), which is able to drive the bottom plate (207), opens calibrating type chamber (201) delivery outlet, to convey the electric energy meter (700) after detection.

2. electric energy meter discharge conveying device according to claim 1, which is characterized in that the telescopic component (208) includes Pars contractilis (209)；

One end of the pars contractilis (209) is connected on the bottom plate (207), and the other end of the pars contractilis (209) is connected to In the back plate of calibrating type chamber (201).

3. electric energy meter discharge conveying device according to claim 2, which is characterized in that the quantity of the pars contractilis (209) It is multiple；

Multiple pars contractilis (209) are connected between the bottom plate (207) and the back plate of calibrating type chamber (201).

4. electric energy meter discharge conveying device according to claim 2, which is characterized in that the pars contractilis (209) is flexible Cylinder；

Alternatively, the pars contractilis (209) is electric pushrod.

5. electric energy meter discharge conveying device according to claim 1, which is characterized in that the side plate (203) is equipped with side Recessed sliding rail (210), the side of the bottom plate (207) are slidably connected in the recessed sliding rail in the side (210).

6. electric energy meter discharge conveying device according to claim 1, which is characterized in that in the bottom of calibrating type chamber (201) Equipped with guiding slot port (211), the guiding slot port (211) is for drawing the glide direction of the electric energy meter (700) after detection It leads.

7. electric energy meter discharge conveying device according to claim 1, which is characterized in that the quantity of the bottom plate (207) is Two, the quantity of the telescopic component (208) is two；

First bottom plate (207) is connected on first side plate (203), and first telescopic component (208) is even It connects on first bottom plate (207)；

Second bottom plate (207) is connected on second side plate (203), and second telescopic component (208) is even It connects on second bottom plate (207)；

First telescopic component (208), second telescopic component (208) drive first bottom plate (207), the When two bottom plate (207) flying splices close to each other close delivery outlet, electric energy meter (700) can be supported；Described in first Telescopic component (208), second telescopic component (208) drive first bottom plate (207), second bottom plate (207) when moving out opening delivery outlet, the electric energy meter (700) after detection can be conveyed.

8. electric energy meter discharge conveying device according to claim 1, which is characterized in that further include the second conveying assembly (600)；

Second conveying assembly (600) is connected to the lower part of calibrating type chamber (201), the delivery outlet of calibrating type chamber (201) and institute State the corresponding setting of input terminal of the second conveying assembly (600)；

The output end of second conveying assembly (600) connects rewinding box (601).

9. electric energy meter discharge conveying device according to claim 8, which is characterized in that second conveying assembly (600) Including the second driving section (602) and the second conveyer belt (603)；

The output end of second driving section (602) is connect with second conveyer belt (603), second driving section (602) Second conveyer belt (603) can be driven to operate, make second conveyer belt (603) to the electric energy meter (700) after detection into Row conveying.

10. a kind of automatic calibration of electric energy meter machine, which is characterized in that including rack and as described in any one of claim 1-9 Electric energy meter discharge conveying device；

The electric energy meter discharge conveying device is connected in the rack.