CN112697043A

CN112697043A - A quick conversion equipment for thing networking laser scanner

Info

Publication number: CN112697043A
Application number: CN202011451416.7A
Authority: CN
Inventors: 齐伟; 赵加强; 陈立昌
Original assignee: Zhongshan Biaozhi Electronic Technology Co ltd
Current assignee: Zhongshan Biaozhi Electronic Technology Co ltd
Priority date: 2020-12-09
Filing date: 2020-12-09
Publication date: 2021-04-23

Abstract

The invention provides a quick conversion device for an Internet of things laser scanner, which comprises a base plate, a base, a starting component, a rubber pad, a pressing block, a fixing hole, a partition plate, a spring, a connecting rod, a conductive block, a compression rod, a hinge ring, a connecting port, a fixing head, a fixing block, a fixing rod, a shell, a convex mirror, a mirror surface, a heat dissipation bin, a lampshade, an LED lamp bead, a scanner, a supporting plate, a supporting column, a heat dissipation net, a transmission rod, blades, a connecting ring, a wire shell, a locking component and a scanning component, wherein the lower end surface of the base plate is connected with the base, the left end of the base is provided with the connecting port, the upper end of the starting component is pasted with the rubber pad, the left end of the locking component is provided with the fixing head, and the: the problem of large power consumption when the device works discontinuously for a long time is solved, the problem of small scanning area of the original device is solved, and the quick conversion power-saving effect of the invention is improved.

Description

A quick conversion equipment for thing networking laser scanner

Technical Field

The invention discloses a quick conversion device for a laser scanner of the Internet of things, and belongs to the technical field of laser scanners of the Internet of things.

Background

The laser scanner is an instrument for measuring the size and shape of a workpiece by a scanning technique, and the laser scanner must use a rotating motor with good stability and precision, and when a light beam is projected (emitted) onto a polygon mirror driven by the motor and reflected, the light beam is formed into a scanning beam. Because the polygon mirror is located on the front focal plane of the scanning lens and rotates uniformly, the incident angle of the laser beam to the reflecting mirror changes continuously, so the reflecting angle also changes continuously, and a parallel and continuous scanning line from top to bottom is formed through the action of the scanning lens.

Laser scanner uses extensively among the prior art, but electric energy loss is great when laser scanner is used for a long time discontinuously, and laser scanner can't work under light dim condition, and current laser scanner scanning area is less, and the scanning success rate is lower, consequently, needs a quick conversion equipment who is used for thing networking laser scanner to solve above problem now urgently.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a quick conversion device for a laser scanner of the internet of things, which solves the problems in the background technology by adding a base plate, a base, a starting component, a locking component and a scanning component.

The technical scheme of the invention is realized as follows: the utility model provides a quick conversion equipment for thing networking laser scanner, includes backing plate, base, starting parts, locking parts and scan component, the terminal surface is connected with the base under the backing plate, base internally mounted has starting parts, the locking parts is installed to the terminal surface before the base, scan component is installed to backing plate right-hand member face, the base includes connector, go-between and line shell, starting parts includes the rubber pad, presses briquetting, fixed orifices, baffle, spring, connecting rod, conducting block, compression pole and hinge ring, the locking parts includes fixed head, fixed block and dead lever, scan component includes shell, convex mirror, mirror surface, heat dissipation storehouse, lamp shade, LED lamp pearl, scanner, fagging, support column, radiator-grid, transfer line and blade.

In a preferred embodiment, a connection port is formed at the left end of the base, a connection ring is mounted on the right end face of the connection port, and a line shell is mounted on the right end face of the connection ring.

As a preferred embodiment, a sealing ring is installed inside the connecting port, a cable line is installed inside the cable shell, the cable shell is made of rubber material, two groups of cable shells are provided, specifications of the two groups of cable shells are the same, a soldering electric surface is arranged at the position where the cable shell is interrupted, the cable line and the soldering electric surface are connected with each other, in actual use, an external device is inserted into the connecting port, the sealing ring can effectively prevent external dust and water from invading into the connecting port, and the working flow of scanning is completed through connection of the cable line inside the cable shell.

As a preferred embodiment, a rubber pad is adhered to the upper end of the starting component, a pressing block is mounted on the lower end face of the rubber pad, a fixing hole is formed in the middle of the right end of the pressing block, a partition plate is mounted and connected to the lower end face of the pressing block, a hinge ring is mounted on the right end of the partition plate, a spring is mounted and connected to the lower end face of the right side of the partition plate, a connecting rod is mounted and fixed on the inner side of the spring, a conductive block is mounted on the lower end face of the connecting rod, and a.

In a preferable embodiment, the outer surface of the rubber pad is provided with rough texture, the cross section of the pressing block is of an irregular triangular structure, the clapboard is of a movable structure, the right end face of the hinge ring is provided with a shaft lever, two groups of conducting blocks are arranged, the specifications of the two groups of conductive blocks are the same, the cross sections of the conductive blocks are of triangular structures, the compression rod is a movable mechanism, the compression rod has conductive property, and in actual use, when the object is scanned, the object is placed above the starting component, the pressing block is pressed downwards to enable the conductive block to enter the position between the two groups of wire shells and to be contacted with the soldering electric surface to enable the circuit to be conducted to the scanning component, when the scanning operation is not needed, the pressing block moves upwards along with the deformation of the spring and disconnects the two groups of tin welding electric surfaces, so that the power supply is saved.

As a preferred embodiment, a fixing head is installed at the left end of the locking component, a fixing block is installed and connected to the right end face of the fixing head, and a fixing rod is installed and connected to the right end face of the fixing block.

As a preferred embodiment, the fixing head is a rotary movable mechanism, an anti-slip groove is arranged on the outer side of the fixing head, an inner groove is arranged inside the fixing block, the cross section of the inner groove, the cross section of the fixing rod and the cross section of the fixing hole are consistent, threads are arranged on the outer surface of the fixing rod, a thread groove is arranged inside the fixing block, and the thread groove is arranged inside the fixing hole.

As a preferred embodiment, the shell is installed in the scanning unit outside, the convex mirror is installed to shell left end intermediate position, the mirror surface is installed to convex mirror right-hand member face, mirror surface rear end face is equipped with the heat dissipation storehouse, the lamp shade is installed to terminal surface under the mirror surface, lamp shade internally mounted has LED lamp pearl, the fagging is installed to terminal surface under the LED lamp pearl, the support column is installed to terminal surface under the fagging, the scanner is installed to support column right-hand member face, the radiator-grid is installed to radiator-grid upper end, terminal surface erection connection has the transfer line under the radiator-grid, transfer line outside erection joint has the blade.

As a preferred embodiment, the shell is made for the polyethylene plastics material, the convex mirror is single face convex mirror, the mirror surface is the hemisphere shape, the mirror surface cross section is irregular polygon structure, the storehouse cross section that dispels the heat is irregular triangle-shaped structure, there are four groups of LED lamp pearls, the inside laser emitter that is equipped with of scanner, radiator screen and shell pass through welded fastening, four groups LED lamp pearl and laser emitter are connected with the inside cable conductor way of line shell, and in the in-service use, when needing to scan article, start laser emitter and LED lamp pearl, four groups of LED lamp pearls and laser emitter pass through the specular reflection, make laser emitter scan work under the relatively poor condition of light condition, and the unilateral convex mirror enlarges the field of vision with light and laser emitter simultaneously, makes the scanning success rate increase.

After the technical scheme is adopted, the invention has the beneficial effects that: the rapid conversion device for the laser scanner of the Internet of things comprises a base plate, a base, a starting part, a locking part and a scanning part, the design facilitates improvement of the device, the problem of high power consumption when the device works discontinuously for a long time is solved, the problem of small scanning area of the original device is solved, and the rapid conversion power-saving effect of the invention is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a fast conversion device for a laser scanner of the internet of things according to the present invention;

fig. 2 is a front sectional view of a fast conversion device for a laser scanner of the internet of things according to the present invention;

FIG. 3 is a front sectional view of a starting component of the fast switching device for the laser scanner of the Internet of things according to the invention;

fig. 4 is a front sectional view of a locking part in the fast switching device for the laser scanner of the internet of things according to the invention;

FIG. 5 is a front sectional view of a scanning component of a fast conversion device for a laser scanner of the Internet of things according to the present invention;

FIG. 6 is a front sectional view of a convex mirror in a fast conversion device for a laser scanner of the Internet of things according to the present invention;

in the figure: the device comprises a base plate 1, a base 2, a starting part 3, a locking part 4, a scanning part 5, a connecting port 21, a connecting ring 22, a line shell 23, a rubber pad 31, a pressing block 32, a fixing hole 33, a partition plate 34, a spring 35, a connecting rod 36, a conducting block 37, a compression rod 38, a hinge ring 39, a fixing head 41, a fixing block 42, a fixing rod 43, a shell 51, a convex mirror 52, a mirror surface 53, a heat dissipation bin 54, a lamp shade 55, a lamp bulb 56, an LED lamp bead 57, a scanner 58, a supporting plate 58, a supporting column 59, a heat dissipation net 541, a transmission rod 542 and a blade 543.

Detailed Description

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

Referring to fig. 1 to 6, a fast conversion device for a laser scanner of the internet of things includes a backing plate 1, a base 2, a starting component 3, a locking component 4 and a scanning component 5, the base 2 is connected to a lower end surface of the backing plate 1, the starting component 3 is installed inside the base 2, the locking component 4 is installed on a front end surface of the base 2, the scanning component 5 is installed on a right end surface of the backing plate 1, the base 2 includes a connection port 21, a connection ring 22 and a wire shell 23, the starting component 3 includes a rubber pad 31, a pressing block 32, a fixing hole 33, a partition 34, a spring 35, a connection rod 36, a conductive block 37, a compression rod 38 and a hinge ring 39, the locking component 4 includes a fixing head 41, a fixing block 42 and a fixing rod 43, the scanning component 5 includes a housing 51, a convex mirror 52, a mirror surface 53, a heat dissipation chamber 54, a lamp shade 55, Radiator 541, drive link 542, and lobe 543.

Referring to fig. 1-3, a connection port 21 is formed at the left end of the base 2, a connection ring 22 is mounted on the right end surface of the connection port 21, and a cable housing 23 is mounted on the right end surface of the connection ring 22.

Referring to fig. 1 to 3, a sealing ring is installed inside the connection port 21, a cable line is installed inside the cable shell 23, the cable shell 23 is made of rubber material, two sets of cable shells 23 are provided, the specifications of the two sets of cable shells 23 are the same, a solder connection surface is provided at an interruption position of the cable shell 23, the cable line and the solder connection surface are connected with each other, in actual use, an external device is inserted into the connection port 21, the sealing ring can effectively prevent external dust and water from invading into the connection port 21, and the working flow of scanning is completed through the connection of the cable line inside the cable shell 23.

Referring to fig. 1-3, a rubber pad 31 is adhered to an upper end of the starting member 3, a pressing block 32 is installed on a lower end surface of the rubber pad 31, a fixing hole 33 is formed in a middle position of a right end of the pressing block 32, a partition plate 34 is installed and connected to a lower end surface of the pressing block 32, a hinge ring 39 is installed on a right end of the partition plate 34, a spring 35 is installed and connected to a right lower end surface of the partition plate 34, a connecting rod 36 is installed and fixed on an inner side of the spring 35, a conductive block 37 is installed on a lower end surface of.

Referring to fig. 1-3, the outer surface of the rubber pad 31 is provided with rough texture, the cross section of the pressing block 32 is in an irregular triangular structure, the partition plate 34 is in a movable structure, the right end face of the hinge ring 39 is provided with a shaft rod, two groups of conductive blocks 37 are provided, the two groups of conductive blocks 37 have the same specification, the cross section of the conductive block 37 is a triangular structure, the compression rod 38 is a movable mechanism, the compression rod 38 has the conductive property, and in the practical use, when scanning an object, the object is placed above the starting component 3, the pressing block 32 is pressed downwards, the conductive block 37 enters the position between the two groups of wire shells 23 and contacts with the tin-soldered electrical surface, the circuit is conducted to the scanning component 5, when the scanning operation is not required, the pressing block 32 moves upward along with the deformation of the spring 35 and disconnects the two sets of solder connection surfaces, thereby saving power.

Referring to fig. 1-4, a fixing head 41 is mounted at the left end of the locking member 4, a fixing block 42 is mounted and connected to the right end surface of the fixing head 41, and a fixing rod 43 is mounted and connected to the right end surface of the fixing block 42.

Referring to fig. 1-4, the fixing head 41 is a rotary moving mechanism, the fixing head 41 is provided with an anti-slip groove on the outer side, the fixing block 42 is provided with an inner groove inside, the cross section of the inner groove, the cross section of the fixing rod 43 and the cross section of the fixing hole 33 are consistent, the outer surface of the fixing rod 43 is provided with a thread, the fixing block 42 is provided with a thread groove inside, and the fixing hole 33 is provided with a thread groove inside.

Referring to fig. 1-6, a housing 51 is mounted on the outer side of the scanning unit 5, a convex mirror 52 is mounted in the middle of the left end of the housing 51, a mirror surface 53 is mounted on the right end surface of the convex mirror 52, a heat dissipation chamber 54 is disposed on the rear end surface of the mirror surface 53, a lamp shade 55 is mounted on the lower end surface of the mirror surface 53, an LED lamp bead 56 is mounted inside the lamp shade 55, a supporting plate 58 is mounted on the lower end surface of the LED lamp bead 56, a supporting column 59 is mounted on the lower end surface of the supporting plate 58, a scanning head 57 is mounted on the right end surface of the supporting column 59, a heat dissipation screen 541 is mounted on the.

Referring to fig. 1-6, the housing 51 is made of a polyethylene plastic material, the convex mirror 52 is a single-sided convex mirror 52, the mirror 53 is hemispherical, the cross section of the mirror 53 is an irregular polygonal structure, the cross section of the heat dissipation chamber 54 is an irregular triangular structure, four groups of LED lamp beads 56 are provided, a laser emitter is disposed inside the scanning head 57, the heat dissipation mesh 541 is fixed to the housing 51 by welding, the four groups of LED lamp beads 56 and the laser emitter are connected to the cable line inside the housing 23, in actual use, when an object needs to be scanned, the laser emitter and the LED lamp beads 56 are started, the four groups of LED lamp beads 56 and the laser emitter are reflected by the mirror 53, so that the laser emitter performs scanning work under poor light conditions, and the single-sided convex mirror 52 enlarges the field of view of the light and the laser emitter, so.

As an embodiment of the present invention: in practical use, when scanning an article, the article is placed above the starting component 3, the pressing block 32 is pressed downwards, the pressing block 32 moves downwards, the hinge ring 39 starts rotating, the spring 35 is pressed downwards to deform the spring 35, the connecting rod 36 pushes the conductive block 37 to move downwards, the conductive blocks 37 have two groups, the specifications of the two groups of conductive blocks 37 are the same, the cross section of the conductive block 37 is in a triangular structure, the compression rod 38 is a movable mechanism, the compression rod 38 has conductive properties, the conductive block 37 enters the position between the two groups of wire shells 23 and is in contact with a tin-soldered surface, a cable line passage is kept, the line is conducted to the scanning component 5, so that the scanning operation is performed, when the scanning operation is not required, the pressing block 32 moves upwards along with the deformation of the spring 35, the connection of the two groups of tin-soldered surfaces is broken, and the cable line is broken, thereby saving power.

As an embodiment of the present invention: in practical use, when a large number of articles need to be scanned, the fixing head 41 is rotated, since the fixing block 42 is internally provided with an inner groove, the cross section of the fixing rod 43 and the cross section of the fixing hole 33 are consistent, the outer surface of the fixing rod 43 is provided with threads, the fixing block 42 is internally provided with a thread groove, the fixing hole 33 is internally provided with a thread groove, the fixing rod 43 is screwed into the fixing hole 33, the fixing rod 43 clamps the pressing block 32 to rise, the pressing block 32 is fixed, and the conductive block 37 is connected with the soldering connecting surface.

As an embodiment of the present invention: in actual use, when an object needs to be scanned, the laser emitter and the LED lamp bead 56 are started, because the convex mirror 52 is a single-sided convex mirror, the mirror surface 53 is a hemispherical shape, the cross section of the mirror surface 53 is an irregular polygonal structure, four groups of LED lamp beads 56 and the laser emitter reflect by multiple angles through the mirror surface 53, can keep the external light of the scanning component 5 clear, so that the laser emitter can carry out scanning work under the condition of poor light conditions, meanwhile, the single-side convex mirror can expand the radiation field of view of the light and the laser emitter, so that the success rate of the scanner 57 is greatly increased, and when the scanner 57 is used for a long time, because of the long-time light irradiation, the mirror surface 53 generates more heat, because the cross section of the heat dissipation bin 54 is in an irregular triangular structure, the blades 543 are rotated, the heat of the mirror surface 53 can be effectively discharged out of the scanning component 5 through the heat dissipation net 541, and the mirror surface 53 is prevented from being cracked due to long-time heating.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a quick conversion equipment for thing networking laser scanner, includes backing plate (1), base (2), initiating part (3), locking part (4) and scanning part (5), its characterized in that: the utility model discloses a lamp shade, including backing plate (1), backing plate (1) lower terminal surface is connected with base (2), base (2) internally mounted has starting part (3), locking part (4) are installed to base (2) preceding terminal surface, scanning component (5) are installed to backing plate (1) right-hand member face, base (2) are including connector (21), go-between (22) and line shell (23), starting part (3) are including rubber pad (31), are pressed briquetting (32), fixed orifices (33), baffle (34), spring (35), connecting rod (36), conducting block (37), compress pole (38) and hinge ring (39), locking part (4) are including fixed head (41), fixed block (42) and dead lever (43), scanning component (5) are including shell (51), convex mirror (52), mirror surface (53), heat dissipation storehouse (54), lamp shade (55), LED lamp pearl (56), scanner (57), fagging (58), support column (59), radiator-grid (541), transfer line (542) and blade (543).

2. The fast switching device for the laser scanner of the internet of things according to claim 1, wherein: a connecting port (21) is formed in the left end of the base (2), a connecting ring (22) is installed on the right end face of the connecting port (21), and a line shell (23) is installed on the right end face of the connecting ring (22).

3. The fast switching device for the laser scanner of the internet of things according to claim 2, wherein: the novel scanning device is characterized in that a sealing ring is installed on the inner side of the connecting port (21), a cable line is installed inside the line shell (23), the line shell (23) is made of rubber materials, two groups of line shells (23) are provided, specifications of the two groups of line shells (23) are the same, a tin soldering electric surface is arranged at the interruption position of the line shell (23), the cable line and the tin soldering electric surface are connected with each other, in actual use, external equipment is inserted into the connecting port (21), the sealing ring can effectively prevent external dust and water from invading the inside of the connecting port (21), and the scanning work flow is completed through connection of the cable line inside the line shell (23).

4. The fast switching device for the laser scanner of the internet of things according to claim 1, wherein: the utility model discloses a novel pressure-sensitive adhesive tape, including starting part (3), rubber pad (31) are pasted to starting part (3) upper end, the terminal surface is installed and is pressed piece (32) under rubber pad (31), press inside fixed orifices (33) of being equipped with of piece (32) right-hand member intermediate position, terminal surface mounting connection has baffle (34) under pressing piece (32), hinge ring (39) are installed to baffle (34) right-hand member, terminal surface mounting connection has spring (35) under baffle (34) right side, spring (35) inboard installation is fixed with connecting rod (36), terminal surface is installed and is led electrical block (37) under connecting rod (36), compress pole (38) are installed to lead electrical block (37) inboard.

5. The fast switching device for the laser scanner of the internet of things according to claim 4, wherein: the outer surface of the rubber pad (31) is provided with rough textures, the cross section of the pressing block (32) is of an irregular triangular structure, the partition plate (34) is of a movable structure, a shaft rod is installed on the right end face of the hinge ring (39), two groups of conductive blocks (37) are provided, specifications of the two groups of conductive blocks (37) are the same, the cross section of each conductive block (37) is of a triangular structure, the compression rod (38) is a movable mechanism, the compression rod (38) has conductive properties, when the scanning operation is carried out on an object in actual use, the object is placed above the starting part (3), the pressing block (32) is pressed downwards, the conductive blocks (37) enter the position between the two groups of line shells (23) and are in soldered electrical surface contact, so that a line is conducted to the pressing part (5) to carry out the scanning operation, and when the scanning operation is not required, the pressing block (32) moves upwards along with deformation of the spring (35), and the connection of the two groups of tin welding electric surfaces is cut off, thereby saving the power supply.

6. The fast switching device for the laser scanner of the internet of things according to claim 1, wherein: fixed head (41) is installed to locking part (4) left end, fixed head (41) right-hand member face erection joint has fixed block (42), fixed block (42) right-hand member face erection joint has dead lever (43).

7. The fast switching device for the laser scanner of the internet of things according to claim 6, wherein: the fixing head (41) is a rotary moving mechanism, an anti-skidding groove is formed in the outer side of the fixing head (41), an inner groove is formed in the fixing block (42), the cross section of the inner groove is consistent with that of the fixing rod (43) and that of the fixing hole (33), threads are arranged on the outer surface of the fixing rod (43), a thread groove is formed in the fixing block (42), and a thread groove is formed in the fixing hole (33).

8. The fast switching device for the laser scanner of the internet of things according to claim 1, wherein: shell (51) is installed in scan component (5) outside, convex mirror (52) are installed to shell (51) left end intermediate position, mirror surface (53) are installed to convex mirror (52) right-hand member face, mirror surface (53) rear end face is equipped with heat dissipation storehouse (54), lamp shade (55) are installed to mirror surface (53) lower terminal surface, lamp shade (55) internally mounted has LED lamp pearl (56), fagging (58) are installed to LED lamp pearl (56) lower terminal surface, support column (59) are installed to fagging (58) lower terminal surface, scanner (57) are installed to support column (59) right-hand member face, radiator grille (541) are installed to radiator storehouse (54) upper end, end mounting connection has transfer line (542) under radiator grille (541), transfer line (542) outside mounting connection has blade (543).

9. The fast switching device for the laser scanner of the internet of things according to claim 8, wherein: the shell (51) is made of polyethylene plastic materials, the convex mirror (52) is a single-face convex mirror (52), the mirror face (53) is in a hemispherical shape, the cross section of the mirror face (53) is in an irregular polygonal structure, the cross section of the heat dissipation bin (54) is in an irregular triangular structure, the LED lamp beads (56) are provided with four groups, a laser emitter is arranged inside the scanner (57), the heat dissipation net (541) and the shell (51) are fixed through welding, the four groups of the LED lamp beads (56) and the laser emitter are connected with an internal cable circuit of the line shell (23), when an object needs to be scanned in actual use, the laser emitter and the LED lamp beads (56) are started, the four groups of the LED lamp beads (56) and the laser emitter are reflected through the mirror face (53), the laser emitter is enabled to perform scanning work under the poor light condition, and meanwhile, the single-side convex mirror (52) enlarges the visual field of the light, the scanning success rate is increased.