CN116295179A

CN116295179A - Dimension measuring device applied to intelligent instrument product

Info

Publication number: CN116295179A
Application number: CN202310032667.9A
Authority: CN
Inventors: 刘建华; 胡荣利
Original assignee: Xuzhou Zhiyi New Energy Technology Co ltd
Current assignee: Xuzhou Zhiyi New Energy Technology Co ltd
Priority date: 2023-01-10
Filing date: 2023-01-10
Publication date: 2023-06-23

Abstract

The invention discloses a dimension measuring device applied to intelligent instrument products, which relates to the technical field of dimension measurement and comprises a fixed shell, a driving assembly, an adjusting assembly, a length measuring assembly and a height measuring assembly, wherein a first electromagnet and a second electromagnet are arranged in the adjusting assembly, the length measuring assembly comprises a screw rod, a first transmission gear and a push plate, a first laser ranging sensor is arranged on the push plate, the height measuring assembly comprises a first transmission part and a measuring part, the first transmission part comprises a first transmission rod, a second transmission gear and a third transmission gear, the measuring part comprises a first threaded pipe and a first threaded rod, and a second laser ranging instrument is arranged on a first movable block, so that the purposes of automatically measuring the length and the height of the intelligent instrument can be achieved, and the device has the characteristics of high working efficiency and convenience in use.

Description

Dimension measuring device applied to intelligent instrument product

Technical Field

The invention relates to the technical field of dimension measurement, in particular to a dimension measurement device applied to intelligent instrument products.

Background

With the continuous development of microelectronic technology and computer technology, the fundamental innovation of instrument structure is brought about, a microcomputer (single chip microcomputer) is taken as a main body, the computer technology and the detection technology are organically combined to form a new generation of intelligent instrument, and great progress is made in the aspects of automation of the measuring process, processing of measuring data and functional diversification compared with the conventional measuring circuit of the traditional instrument.

Before leaving the factory or before installing, the intelligent instrument product needs to use a dimension measuring device to measure the dimension of the intelligent instrument product, so that the situation that the intelligent instrument product cannot be installed on corresponding equipment is prevented.

The existing size measuring device applied to intelligent instrument products cannot automatically measure the three sizes of the intelligent instrument, namely the length, the width and the height through simpler operation, generally one size is measured at present, then the other size is measured, the measuring mode is inconvenient to use, and the working efficiency is low.

Disclosure of Invention

The invention aims to provide a dimension measuring device applied to intelligent instrument products, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: dimension measuring device for intelligent instrument product, including fixed casing, still include:

a drive assembly located on the stationary housing;

the adjusting assembly is positioned on the fixed shell, and a first electromagnet and a second electromagnet are arranged in the adjusting assembly;

the length measurement assembly is positioned below the fixed shell and comprises a screw rod, a first transmission gear and a push plate, the push plate is in threaded connection with the screw rod, the first transmission gear is movably sleeved on the screw rod, the first electromagnet after being electrified is in adsorption connection with the first transmission gear to drive the first transmission gear to move to be in meshed connection with the driving assembly, and the push plate is provided with a first laser ranging sensor;

the height measurement assembly is located above the fixed shell and comprises a first transmission part and a measurement part, the first transmission part comprises a first transmission rod, a second transmission gear and a third transmission gear, the second transmission gear and the third transmission gear are movably connected to the first transmission rod, a second electromagnet after being electrified is connected with the second transmission gear in an adsorption mode to achieve the purpose of driving the second transmission gear to be meshed with the drive assembly, the measurement part comprises a first threaded pipe and a first threaded rod, the first threaded pipe is meshed with the third transmission gear to be connected, one end of the first threaded rod is connected with the first threaded pipe in a threaded mode, the other end of the first threaded rod is connected with a first movable block, and a second laser range finder is installed on the first movable block.

As a further scheme of the invention: the width measuring assembly is arranged on one side of the fixed shell, the width measuring assembly and the height measuring assembly are symmetrically distributed about the axis of the fixed shell, the components in the width measuring assembly are consistent with the components in the height measuring assembly, and a third electromagnet which is in adsorption connection with the width measuring assembly is further arranged in the adjusting assembly.

As still further aspects of the invention: the intelligent instrument is characterized in that a first guide rail, a second guide rail and a third guide rail are fixedly connected to the fixed shell, two ends of the screw rod are arranged on the side wall of the first guide rail, the push plate is in sliding connection with the first guide rail, an intelligent instrument is placed on one side, far away from the screw rod, of the first guide rail, and the height measuring assembly and the width measuring assembly are respectively arranged on the second guide rail and the third guide rail.

As still further aspects of the invention: the height measuring assembly and the width measuring assembly further comprise a measuring position adjusting part, the position adjusting part comprises a second threaded pipe, a second threaded rod and a fifth transmission gear, the second threaded pipe is arranged on the fixed shell, the fifth transmission gear is movably sleeved on the second threaded pipe, a fourth electromagnet and a fifth electromagnet are further arranged in the adjusting assembly, the fourth electromagnet and the fifth electromagnet after being electrified achieve the purpose of driving the fifth transmission gear to be meshed with the driving assembly in an adsorption connection mode with the fourth electromagnet and the fifth electromagnet, the second threaded rod is in threaded connection with the second threaded pipe, one end, close to the measuring part, of the second threaded rod is connected with a connecting frame, the first threaded pipe is arranged on one side of the connecting frame, the other side of the connecting frame is movably connected with the third transmission gear, and the connecting frame is further connected in the second guide rail and the third guide rail in a sliding mode.

As still further aspects of the invention: one end of the screw rod, which is close to the first electromagnet, is connected with a plurality of first limit ribs extending along the axial direction, the center position of the first transmission gear is movably sleeved on the plurality of first limit ribs, the screw rod is fixedly sleeved with a first limit block, a third reset spring is arranged between the first transmission gear and the first electromagnet, and the third reset spring is movably sleeved on the screw rod.

As still further aspects of the invention: the first transmission rod is connected with a plurality of second limiting ribs and a plurality of third limiting ribs which extend along the axis, a second limiting block is arranged between the plurality of second limiting ribs and the plurality of third limiting ribs, the second limiting block is fixedly sleeved on the first transmission rod, the second transmission gear is movably sleeved on the plurality of third limiting ribs, the third transmission gear is fixedly connected with a sleeve, the sleeve is movably sleeved on the plurality of second limiting ribs, the other side of the connecting frame is movably sleeved on the sleeve, a second reset spring is further arranged between the second transmission gear and the second electromagnet, and the second reset spring is movably sleeved on the first transmission rod.

As still further aspects of the invention: the side wall of the second threaded pipe is connected with a plurality of third limiting ribs extending along the axial direction, the fifth transmission gear is movably sleeved on the plurality of third limiting ribs, the side wall of the second threaded pipe is fixedly sleeved with a third limiting block, a third reset spring is further arranged between the fifth transmission gear and the fourth electromagnet, and the third reset spring is movably sleeved on the second threaded pipe.

As still further aspects of the invention: the position that fixed casing lateral wall corresponds with the push pedal is connected with first pressure sensor, still be provided with second pressure sensor in the measuring part, controlling means is still installed to one side that keeps away from first pressure sensor on the fixed casing, first pressure sensor and second pressure sensor all with controlling means electric connection, controlling means still with drive assembly, first laser rangefinder sensor, second laser rangefinder and adjusting part electric connection.

As still further aspects of the invention: the adjusting component further comprises a conductive ring, the conductive ring is fixedly sleeved outside the fixed shell, an electrode column is connected to the conductive ring, the electrode column is electrically connected with an external power supply, a control unit corresponding to the first electromagnet, the second electromagnet, the third electromagnet, the fourth electromagnet and the fifth electromagnet is further connected to the conductive ring, and the control device is further electrically connected with the control unit.

As still further aspects of the invention: the driving assembly comprises a driving gear and a driven gear, the outline of the driven gear is annular, the driving gear is meshed with the outer side of the driven gear, the first transmission gear, the second transmission gear and the fifth transmission gear are meshed with the inner side of the driven gear, and the driven gear is rotationally connected to the inner side of the fixed shell.

Compared with the prior art, the invention has the technical effects that: the mode that only through a drive assembly as the drive power, adjusting part passes through first electro-magnet and second electro-magnet and adjusts first drive gear and second drive gear position just can reach the purpose of adjusting first laser range finder and second laser range finder position, and then reaches the length and the high purpose of automatic measurement intelligent instrument, possesses the convenient to use's of work efficiency height characteristics.

Drawings

Fig. 1 is a perspective view of a dimension measuring device applied to a smart meter product according to an embodiment of the present invention.

Fig. 2 is a side view of a dimension measuring device applied to a smart meter product according to an embodiment of the present invention.

Fig. 3 is a perspective view of a fixed housing in an embodiment of the present invention.

Fig. 4 is an assembly view of a driving assembly, an adjusting assembly, a length measuring assembly, a height measuring assembly and a width measuring assembly according to an embodiment of the present invention.

Fig. 5 is a perspective view of an adjustment assembly in an embodiment of the invention.

Fig. 6 is a schematic plan view of an adjustment assembly according to an embodiment of the present invention.

Fig. 7 is a schematic view illustrating an assembly of a stationary housing, a driving assembly and an adjusting assembly according to an embodiment of the present invention.

Fig. 8 is a perspective view of a length measuring assembly in an embodiment of the invention.

Fig. 9 is a perspective view of a height measurement assembly in accordance with an embodiment of the present invention.

FIG. 10 is a side view of a length measuring assembly, a height measuring assembly, and a width measuring assembly and an adjustment assembly according to an embodiment of the present invention.

Fig. 11 is an enlarged view of a portion of fig. 10 a in accordance with the present invention.

Fig. 12 is an enlarged view of a portion b of fig. 10 in accordance with the present invention.

In the figure: 1-fixed housing, 11-first rail, 12-second rail, 13-third rail, 14-first pressure sensor, 2-drive assembly, 21-drive gear, 22-driven gear, 3-adjustment assembly, 31-conductive ring, 311-electrode post, 32-first electromagnet, 33-second electromagnet, 34-third electromagnet, 35-fourth electromagnet, 36-fifth electromagnet, 37-control unit, 4-length measurement assembly, 41-screw, 42-first drive gear, 43-push plate, 431-baffle, 44-first return spring, 45-first stopper, 46-first stopper rib, 47-first laser distance measuring sensor, 5-height measurement assembly, 51-first transmission portion 511-first drive rod, 512-second limit bar, 513-second drive gear, 514-second return spring, 515-third drive gear, 5151-sleeve, 516-second limit block, 517-third limit bar, 52-measuring part, 521-first threaded tube, 522-first threaded rod, 523-fourth drive gear, 524-first movable block, 525-second pressure sensor, 526-second laser rangefinder, 53-measuring position adjustment part, 531-second threaded tube, 532-second threaded rod, 533-fifth drive gear, 534-third return spring, 535-connecting frame, 536-third limit block, 537-third limit bar, 6-width measuring assembly, 7-control means.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 to 12, the present embodiment provides a dimension measuring device applied to a smart meter product, including a fixed housing 1, further including:

a driving assembly 2 located on the stationary housing 1;

an adjusting component 3 positioned on the fixed shell 1, wherein a first electromagnet 32 and a second electromagnet 33 are arranged in the adjusting component 3;

the length measurement assembly 4 is positioned below the fixed shell 1, the length measurement assembly 4 comprises a screw rod 41, a first transmission gear 42 and a push plate 43, the push plate 43 is in threaded connection with the screw rod 41, the first transmission gear 42 is movably sleeved on the screw rod 41, the first electromagnet 32 after being electrified achieves the purpose of driving the first transmission gear 42 to move to be in meshed connection with the driving assembly 2 in an adsorption connection mode with the first transmission gear 42, and the push plate 43 is provided with a first laser ranging sensor 47;

the height measurement assembly 5 is located above the fixed shell 1, the height measurement assembly 5 comprises a first transmission part 51 and a measurement part 52, the first transmission part 51 comprises a first transmission rod 511, a second transmission gear 513 and a third transmission gear 515, the second transmission gear 513 and the third transmission gear 515 are movably connected to the first transmission rod 511, the second electromagnet 33 after being electrified is connected with the second transmission gear 513 in an adsorption mode to achieve the purpose of driving the second transmission gear 51 to be connected with the driving assembly 2 in an engaged mode, the measurement part 52 comprises a first threaded pipe 521 and a first threaded rod 522, the first threaded pipe 521 is connected with the third transmission gear 515 in an engaged mode, one end of the first threaded rod 522 is connected in the first threaded pipe 521 in a threaded mode, the other end of the first threaded rod 522 is connected with a first movable block 524, and the first movable block 524 is provided with a second laser distance measuring instrument 526.

Further, the width measuring assembly 6 is located at one side of the fixed housing 1, the width measuring assembly 6 and the height measuring assembly 5 are symmetrically distributed about the axis of the fixed housing 1, and the component parts in the width measuring assembly 6 are identical to the component parts in the height measuring assembly 5, so that the component parts in the width measuring assembly 6 will not be further described, when the working principle of the width measuring assembly 6 is described, the names of the component parts in the height measuring assembly 5 will be directly described, and the adjusting assembly 3 is further provided with a third electromagnet 34 in adsorption connection with the width measuring assembly 6.

Further, fixedly connected with first guide rail 11, second guide rail 12 and third guide rail 13 on the fixed casing 1, the both ends of lead screw 41 are installed at first guide rail 11 lateral wall, push pedal 43 and first guide rail 11 sliding connection, intelligent instrument has been placed to one side that keeps away from lead screw 41 on the first guide rail 11, height measurement subassembly 5 and width measurement subassembly 6 are installed respectively on second guide rail 12 and third guide rail 13, still fixedly connected with baffle 431 on push pedal 43, and baffle 431 plays spacing effect, and intelligent instrument product is in the gliding in-process on first guide rail 11, and baffle 431 is laminated with intelligent instrument product lateral wall, so when first movable block 531 in width measurement subassembly 6 and intelligent instrument product lateral wall laminating, second laser rangefinder 526 can obtain intelligent instrument product's width through measuring the distance between itself and baffle 431, and the same, second laser rangefinder 526 in height measurement subassembly 5 can obtain intelligent instrument product's height through measuring the distance between itself and first guide rail 11.

In the above scheme, only through a drive assembly 2 as driving force, the mode that the adjusting part 3 adjusted first drive gear 42 and second drive gear 513 position through first electro-magnet 32 and second electro-magnet 33 just can reach the purpose of adjusting first laser range finder 47 and second laser range finder 526 position, and then reaches the length and the high purpose of automatic measurement intelligent instrument, possesses work efficiency height and convenient to use's characteristics.

Referring to fig. 1 to 12, as an embodiment of the present invention, one end of the screw rod 41 near the first electromagnet 32 is connected with a plurality of first limiting ribs 46 extending along an axial direction, a central position of the first transmission gear 42 is movably sleeved on the plurality of first limiting ribs 46, a first limiting block 45 is fixedly sleeved on the screw rod 41, a third return spring 534 is disposed between the first transmission gear 42 and the first electromagnet 32, the third return spring 534 is movably sleeved on the screw rod 41, and the first limiting block 45 is used for limiting a position of the first transmission gear 42 to prevent the first transmission gear 42 from falling off from the first limiting ribs 46.

Further, the first pressure sensor 14 is connected to the position of the side wall of the fixed housing 1 corresponding to the push plate 43, the second pressure sensor 525 is further disposed in the measuring portion 52, the control device 7 is further mounted on the side, far away from the first pressure sensor 14, of the fixed housing 1, the first pressure sensor 14 and the second pressure sensor 525 are electrically connected to the control device 7, and the control device 7 is further electrically connected to the driving assembly 2, the first laser ranging sensor 47, the second laser ranging instrument 526 and the adjusting assembly 3.

Further, the adjusting component 3 further includes a conductive ring 31, the conductive ring 31 is fixedly sleeved on the outer side of the fixed housing 1, an electrode column 311 is connected to the conductive ring 31, the electrode column 311 is electrically connected to an external power supply, a control unit 37 corresponding to the first electromagnet 32, the second electromagnet 33, the third electromagnet 34, the fourth electromagnet 35 and the fifth electromagnet 36 is further connected to the conductive ring 31, the control device 7 is further electrically connected to the control unit 37, and a display panel for operating and displaying parameters by a worker is arranged in the control device 7.

Further, the driving assembly 2 includes a driving gear 21 and a driven gear 22, the outline of the driven gear 22 is annular, the driving gear 21 is engaged with the outer side of the driven gear 22, the first transmission gear 42, the second transmission gear 513 and the fifth transmission gear 533 are engaged with the inner side of the driven gear 22, the driven gear 22 is rotatably connected to the inner side of the fixed housing 1, and the driving assembly 2 further includes a driving motor connected with the driving gear 21, and the driving motor is electrically connected with the control device 7.

In the above scheme, the intelligent instrument product to be tested is placed on the first guide rail 11, then the control unit 37 corresponding to the first electromagnet 32 is opened through the control device 7, so that the first electromagnet 32 is electrified, the first electromagnet 32 overcomes the elastic force of the first reset spring 44 to drive the first transmission gear 42 to move, when the first transmission gear 42 is meshed with the driven gear 22, the first electromagnet 32 just contacts with the surface of the first transmission gear 42, then the driving motor in the driving assembly 2 is started, the screw rod 41 can be driven to rotate through the driven gear 22 and the first transmission gear 42, and then the push plate 43 and the intelligent instrument product are driven to move on the first guide rail 11, when the intelligent instrument product contacts with the first pressure sensor 14, the first pressure sensor 14 can send signals to the through control device 7, the control device 7 receiving the signals can send signals to the control unit 37 corresponding to the first electromagnet 32 and the first laser ranging sensor 47 respectively, the control unit 37 corresponding to the first electromagnet 32 receiving the signals can power off the first electromagnet 32, the elastic force of the first reset spring 44 drives the first transmission gear 42 to leave the driven gear 22, the first laser ranging sensor 47 receiving the signals can obtain the length of the intelligent instrument product by measuring the distance between the push plate 43 and the side wall of the fixed shell 1, and the intelligent instrument product has the characteristic of convenient measurement.

Referring to fig. 1 to 12, as an embodiment of the present invention, the height measuring assembly 5 and the width measuring assembly 6 further include a measuring position adjusting portion 53, the position adjusting portion 53 includes a second threaded pipe 531, a second threaded rod 532, and a fifth transmission gear 533, the second threaded pipe 531 is mounted on the fixed housing 1, the fifth transmission gear 533 is movably sleeved on the second threaded pipe 531, a fourth electromagnet 35 and a fifth electromagnet 36 are further disposed in the adjusting assembly 3, the fourth electromagnet 35 and the fifth electromagnet 36 after being energized achieve the purpose of driving the fifth transmission gear 533 to be engaged with the driving assembly 2 by being in adsorption connection with the fourth electromagnet 35 and the fifth electromagnet 36, the second threaded rod 532 is in threaded connection with the second threaded pipe 531, one end 515 of the second threaded rod 532, which is close to the measuring portion 52, is connected with a connecting frame 535, the first threaded pipe 521 is mounted on one side of the connecting frame 535, the other side of the connecting frame 535 is movably connected with the third transmission gear, and the connecting frame 535 is slidably connected with the second guide rail 12 and the third guide rail 13.

Further, the first transmission rod 511 is connected with a plurality of second limit ribs 512 and a plurality of third limit ribs 517 that extend along the axis, a second limit block 516 is disposed between the plurality of second limit ribs 512 and the plurality of third limit ribs 517, the second limit block 516 is fixedly sleeved on the first transmission rod 511, the second transmission gear 513 is movably sleeved on the plurality of third limit ribs 517, the third transmission gear 515 is fixedly connected with a sleeve 5151, the sleeve 5151 is movably sleeved on the plurality of second limit ribs 512, the other side of the connection frame 535 is movably sleeved on the sleeve 5151, an annular groove is formed in the surface of the sleeve 5151, and the connection frame 535 is rotatably connected in the annular groove, so that when the connection frame 535 moves, the sleeve 5151 and the third transmission gear 515 can be driven to move together, meanwhile, the connection frame 535 is slidably connected in the second guide rail 12 and the third guide rail 13, a second reset spring 514 is further disposed between the second transmission gear 513 and the second electromagnet 33, and the second reset spring 514 is movably sleeved on the first transmission rod 511.

Further, the side wall of the second threaded pipe 531 is connected with a plurality of third limit ribs 537 extending along the axial direction, the fifth transmission gear 533 is movably sleeved on the plurality of third limit ribs 537, the side wall of the second threaded pipe 531 is fixedly sleeved with a third limit block 536, a third return spring 534 is further arranged between the fifth transmission gear 533 and the fourth electromagnet 35, the third return spring 534 is movably sleeved on the second threaded pipe 531, and the second limit block 516 and the third limit block 536 are consistent with the first limit block 45.

In the above scheme, the control device 7 that has received the signal of the first pressure sensor 14 can also send a signal to the control unit 37 corresponding to the second transmission gear 513 in the height measurement assembly 5 and the width measurement assembly 6, respectively, the control unit 37 makes the second electromagnet 33 and the third electromagnet 34 energized, the energized second electromagnet 33 and the third electromagnet 34 can overcome the elastic force of the second return spring 514 to drive the second transmission gear 513 to move to a position meshed with the driven gear 22 to stop, at this time, the driven gear 22 can drive the first threaded pipe 521 to rotate through the first transmission rod 511, the third transmission gear 515 and the fourth transmission gear 523, the rotating first threaded pipe 521 can drive the first movable block 524 to move from above and to the side towards the direction approaching the intelligent instrument product through the first threaded rod 522, respectively, when the second pressure sensor 525 on the first movable block 524 contacts the surface of the intelligent instrument product, the second pressure sensor can send a signal to the second laser range finder 526 through the control device 7, the second laser range finder 526 on both sides can also send a signal to the second laser range finder 526 through the way of sensing the pressure signal, and the first laser range finder 526 can also send the height measurement meter 525 and the first laser range finder 526 can also send a data to the first laser range finder 47 and can automatically display the value to the first laser range finder 7, and can also display the value of the operator 47; when the height and width of different positions on the intelligent instrument product need to be measured, the control device 7 is controlled to electrify the fourth electromagnet 35, the electrified fourth electromagnet 35 overcomes the elasticity of the third reset spring 534 to drive the fifth transmission gear 533 to move to a position meshed with the driven gear 22 to stop, at this moment, the driven gear 22 drives the second threaded pipe 531 to rotate through the fifth transmission gear 533, the rotating second threaded pipe 531 drives the connecting frame 535, the third transmission gear 515 and the measuring part 52 to do linear motion through the second threaded rod 532, after the measuring part 52 moves to a designated position, the control device 7 can also achieve the purpose of measuring the height and width by controlling the measuring part 52 to move towards the intelligent instrument product, and the intelligent instrument product measuring device has the characteristics of high degree of automation and convenience in measuring the sizes of different positions on the intelligent instrument product.

It should be noted that the technical scheme is not only suitable for the dimension measurement of intelligent instrument products, but also suitable for the dimension measurement of other products.

Working principle: firstly, a to-be-detected intelligent instrument product is placed on a first guide rail 11, then a control unit 37 corresponding to a first electromagnet 32 is opened through a control device 7, so that the first electromagnet 32 is electrified, the first electromagnet 32 overcomes the elasticity of a first reset spring 44 to drive a first transmission gear 42 to move, when the first transmission gear 42 is meshed with a driven gear 22, the first electromagnet 32 is just contacted with the surface of the first transmission gear 42, then a driving motor in a driving assembly 2 is started, a screw rod 41 can be driven to rotate through the driven gear 22 and the first transmission gear 42, a push plate 43 and the intelligent instrument product are driven to move on the first guide rail 11, when the intelligent instrument product is contacted with a first pressure sensor 14, the first pressure sensor 14 can send signals to the control unit 37 and a first laser distance measuring sensor 47 corresponding to the first electromagnet 32 respectively, when the control unit 37 receiving the signals is meshed with the driven gear 22, the first electromagnet 32 is powered off, the elasticity of the first reset spring 44 drives the first transmission gear 42 to drive the first electromagnet 41 to rotate, and the distance measuring device 43 can be fixed through the distance measuring distance between the first pressure sensor 47 and the intelligent instrument product and the first guide rail 11;

meanwhile, the control device 7 receiving the signals of the first pressure sensor 14 can also send signals to the control unit 37 corresponding to the second transmission gear 513 in the height measuring assembly 5 and the width measuring assembly 6 respectively, the control unit 37 enables the second electromagnet 33 and the third electromagnet 34 to be electrified, the electrified second electromagnet 33 and the third electromagnet 34 can overcome the elastic force of the second reset spring 514 to drive the second transmission gear 513 to move to a position meshed with the driven gear 22 to stop, at the moment, the driven gear 22 can drive the first threaded pipe 521 to rotate through the first transmission rod 511, the third transmission gear 515 and the fourth transmission gear 523, the rotating first threaded pipe 521 can drive the first movable block 524 to move towards the direction approaching to the intelligent instrument product from above and at the side through the first threaded rod 522 respectively, when the second pressure sensor 525 on the first movable block 524 is contacted with the surface of the intelligent instrument product, the second pressure sensor 525 can send signals to the second laser range finder 526 through the control device 7 in a mode of sensing the pressure signals, the second laser range finder 526 on two sides can also measure the height of the intelligent instrument product and the width of the first laser range finder 526 respectively, the first laser range finder 7 and the second laser range finder 7 can also be conveniently displayed by the control device, and the operator can also display the values of the laser range finder 7 can be conveniently displayed;

when the heights and widths of different positions on the intelligent instrument product need to be measured, the control device 7 is operated to electrify the fourth electromagnet 35, the electrified fourth electromagnet 35 overcomes the elasticity of the third reset spring 534 to drive the fifth transmission gear 533 to move to a position meshed with the driven gear 22 to stop, at this time, the driven gear 22 drives the second threaded pipe 531 to rotate through the fifth transmission gear 533, the rotating second threaded pipe 531 drives the connecting frame 535, the third transmission gear 515 and the measuring part 52 to do linear motion through the second threaded rod 532, and after the measuring part 52 moves to a specified position, the control device 7 can also achieve the purpose of measuring the heights and the widths by controlling the measuring part 52 to move towards the intelligent instrument product;

after the measurement of the size of the smart meter product is completed, the control device 7 is operated to make the first transmission gear 42 meshed with the driven gear 22 again, and make the driving motor and the driven gear 22 reversely rotate, so that the push plate 43 and the first movable block 524 simultaneously move towards a direction away from the smart meter product, and the product is convenient for a worker to take out.

In summary, the driving force of the driving assembly 2 is only one, and the adjusting assembly 3 adjusts the positions of the first transmission gear 42 and the second transmission gear 513 through the first electromagnet 32 and the second electromagnet 33, so that the purpose of adjusting the positions of the first laser ranging sensor 47 and the second laser ranging instrument 526 can be achieved, and the purposes of automatically measuring the length and the height of the intelligent instrument can be achieved.

It should be noted that, although the present disclosure describes embodiments, each embodiment does not include a separate technical solution, and the description is only for clarity, those skilled in the art should understand that the technical solutions in the embodiments may be properly combined to form other embodiments that can be understood by those skilled in the art, and the above embodiments only describe preferred embodiments of the present disclosure, which are described in more detail and detail, but should not be construed as limiting the scope of the claims of the present disclosure. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are intended to be within the scope of the invention.

Claims

1. Be applied to size measurement device of intelligent instrument product, including fixed casing, its characterized in that still includes:

a drive assembly located on the stationary housing;

2. The device for measuring the dimension of the intelligent instrument product according to claim 1, further comprising a width measuring assembly positioned on one side of the fixed shell, wherein the width measuring assembly and the height measuring assembly are symmetrically distributed about the axis of the fixed shell, the component composition in the width measuring assembly is consistent with the component composition in the height measuring assembly, and a third electromagnet in adsorption connection with the width measuring assembly is further arranged in the adjusting assembly.

3. The device for measuring the size of the intelligent instrument product according to claim 2, wherein the fixed housing is fixedly connected with a first guide rail, a second guide rail and a third guide rail, two ends of the screw rod are installed on the side wall of the first guide rail, the push plate is slidably connected with the first guide rail, the intelligent instrument is placed on one side, far away from the screw rod, of the first guide rail, and the height measuring assembly and the width measuring assembly are installed on the second guide rail and the third guide rail respectively.

4. The size measurement device for intelligent instrument products according to claim 3, wherein the height measurement assembly and the width measurement assembly further comprise a measurement position adjustment part, the position adjustment part comprises a second threaded pipe, a second threaded rod and a fifth transmission gear, the second threaded pipe is arranged on the fixed shell, the fifth transmission gear is movably sleeved on the second threaded pipe, a fourth electromagnet and a fifth electromagnet are further arranged in the adjustment assembly, the fourth electromagnet and the fifth electromagnet after being electrified achieve the purpose of driving the fifth transmission gear to be meshed with the driving assembly in an adsorption connection mode with the fourth electromagnet and the fifth electromagnet, the second threaded rod is in threaded connection with the second threaded pipe, one end, close to the measurement part, of the second threaded rod is connected with a connecting frame, the first threaded pipe is arranged on one side of the connecting frame, the other side of the connecting frame is movably connected with the third transmission gear, and the connecting frame is further slidably connected in the second guide rail and the third guide rail.

5. The size measurement device for intelligent instrument products according to claim 4, wherein one end of the screw rod, which is close to the first electromagnet, is connected with a plurality of first limiting ribs extending along the axial direction, the center position of the first transmission gear is movably sleeved on the plurality of first limiting ribs, the screw rod is fixedly sleeved with a first limiting block, a third reset spring is arranged between the first transmission gear and the first electromagnet, and the third reset spring is movably sleeved on the screw rod.

6. The size measurement device for intelligent instrument products according to claim 5, wherein the first transmission rod is connected with a plurality of second limiting ribs and a plurality of third limiting ribs which extend along the axis, a second limiting block is arranged between the plurality of second limiting ribs and the plurality of third limiting ribs, the second limiting block is fixedly sleeved on the first transmission rod, the second transmission gear is movably sleeved on the plurality of third limiting ribs, the third transmission gear is fixedly connected with a sleeve, the sleeve is movably sleeved on the plurality of second limiting ribs, the other side of the connecting frame is movably sleeved on the sleeve, a second reset spring is further arranged between the second transmission gear and the second electromagnet, and the second reset spring is movably sleeved on the first transmission rod.

7. The size measurement device for intelligent instrument products according to claim 6, wherein the side wall of the second threaded pipe is connected with a plurality of third limiting ribs extending along the axial direction, the fifth transmission gear is movably sleeved on the plurality of third limiting ribs, the side wall of the second threaded pipe is fixedly sleeved with a third limiting block, a third reset spring is further arranged between the fifth transmission gear and the fourth electromagnet, and the third reset spring is movably sleeved on the second threaded pipe.

8. The device for measuring the size of the intelligent instrument product according to claim 7, wherein the side wall of the fixed shell is connected with a first pressure sensor at a position corresponding to the push plate, a second pressure sensor is further arranged in the measuring part, a control device is further arranged on one side, far away from the first pressure sensor, of the fixed shell, the first pressure sensor and the second pressure sensor are electrically connected with the control device, and the control device is further electrically connected with the driving assembly, the first laser ranging sensor, the second laser ranging instrument and the adjusting assembly.

9. The device for measuring the size of the intelligent instrument product according to claim 8, wherein the adjusting component further comprises a conductive ring, the conductive ring is fixedly sleeved outside the fixed shell, an electrode column is connected to the conductive ring and is electrically connected with an external power supply, the conductive ring is further connected with a control unit corresponding to the first electromagnet, the second electromagnet, the third electromagnet, the fourth electromagnet and the fifth electromagnet, and the control device is further electrically connected with the control unit.

10. The device for measuring the size of a smart meter product according to claim 9, wherein the driving assembly comprises a driving gear and a driven gear, the driven gear has a ring-shaped outline, the driving gear is engaged with the outer side of the driven gear, the first transmission gear, the second transmission gear and the fifth transmission gear are engaged with the inner side of the driven gear, and the driven gear is rotatably connected with the inner side of the fixed housing.