CN112924818A - Multi-angle positioning photoelectric information detection equipment - Google Patents

Abstract

The invention discloses a multi-angle positioning photoelectric information detection device, which structurally comprises a rack, a sleeve frame, a first detection probe, a light emitting lens, a support, a detection seat, a supporting plate, a guide rod, a guide assembly, a material transferring assembly, an adsorption assembly, a first motor, a first guide block, a first air cylinder, a second guide block and a stretching assembly, and has the advantages that after the insulator is conveyed by a conveying assembly, the insulator is detected on the left side and the right side of the insulator by the second detection probe, after the insulator is conveyed by an infrared detection head, the material transferring assembly moves the insulator, the insulator is placed in the first guide block and the second guide block, the first motor is matched with the first air cylinder to adsorb and turn over a hardware product, so that the outer side of the insulator can be comprehensively detected by the first detection probe, and the purpose of conveniently and comprehensively carrying out effective photoelectric detection on the insulator is achieved, the yield is improved, secondary detection is prevented, and the production efficiency is improved.

Description

Multi-angle positioning photoelectric information detection equipment

Technical Field

The invention belongs to the technical field of detection of electric porcelain insulator products, and particularly relates to multi-angle positioning photoelectric information detection equipment.

Background

The electric porcelain insulator is a porcelain electric insulating material, has good insulativity and mechanical strength, is widely applied to circuits, and is sometimes used as a container of other electric components, so that higher requirements on the mechanical property, the electric property and the surface integrity are met, finished products are screened by photoelectric detection when the insulator is produced and detected, and a photoelectric detection device converts optical information carried by a target into an electric signal by using a photoelectric detector, so that the measurement, the display and the recording of target parameters are realized;

along with the development of the times, photoelectric detection equipment is also improved in technology, but the existing photoelectric information detection equipment always enables the insulator to be conveyed through conveying equipment when in use, so that the detector can carry out relatively simple detection on the surface of the insulator, and the air holes and the unfilled corners of the placing surface are often difficult to detect, so that the insulator is difficult to carry out relatively convenient and comprehensive photoelectric detection, and the yield and the production efficiency are influenced.

Disclosure of Invention

Technical problem to be solved

In order to overcome the prior art not enough, a multi-angle location photoelectric information detection equipment is provided at present to solve the difficult problem that carries out comparatively convenient and comprehensive photoelectric detection to the insulator, influences yield and production efficiency, reach convenient comprehensive and carry out effectual photoelectric detection to the insulator, improve the yield and prevent secondary detection, do benefit to production efficiency's effect.

(II) technical scheme

The invention is realized by the following technical scheme: the invention provides a multi-angle positioning photoelectric information detection device which comprises a rack, a sleeve frame, a first detection probe, a light emitting lens, a bracket, a transmission component, a control panel, a control key, a power line, a sleeve shell, a discharging channel, a support frame, an opening, a second detection probe, a detection seat, a support plate, a guide rod, a guide component, a material moving component, an adsorption component, a first motor, a first guide block, a first air cylinder, a second guide block and a stretching component, wherein the sleeve frame is riveted at the right end of the rack, the first detection probe and the rear end of the light emitting lens are arranged on the rack in a bolt mode, the left end of the rack is welded with the sleeve frame, the right end of the transmission component is arranged on the rack, four corners of the rear end of the control panel are arranged on the sleeve frame in a bolt mode, the control key and the power line are respectively embedded and arranged at the front end and the bottom end of, the right end of the discharge channel is welded on the frame, the right parts of the front side and the rear side of the casing are welded and laminated with a support frame, a through hole is arranged between the top side of the casing and the first detection probe, the top end of the support frame penetrates into the casing and then is provided with a second detection probe, the front end and the rear end of the detection seat are bolted in the casing, the left end and the right end of the support plate are bolted with the casing, the left end and the right end of the guide rod are embedded and fixed on the support plate, the top end of the guide component slides along the guide rod, the top end of the material moving component is bolted on the guide component, the adsorption component is mounted on the casing and the material moving component, the four corners of the front side of the first motor are bolted with the detection seat, the rotor part of the first motor penetrates out of the detection seat and then is fixedly provided with a first guide block, the, and the left side of the stretching assembly is welded and attached to the detection seat.

Further, the guide assembly comprises balladeur train, guide frame, lead screw, guide frame, second motor and mounting bracket, balladeur train bottom fixed mounting has the guide frame, both ends and lead screw threaded connection about the guide frame, two rotations are installed on the guide frame around the lead screw, the second motor is installed in the guide frame by inboard bolt, the mounting bracket top welds perpendicularly on the guide frame, guide frame outside fixed mounting is in the cover shell, the balladeur train top slides along the guide arm.

Furthermore, the material moving assembly is composed of a second cylinder, a support disc, a bottom plate and an infrared detection head, the support disc is fixedly installed at the bottom end of the second cylinder, the middle of the top side of the bottom plate is fixed with a push rod part of the second cylinder, a left end bolt of the infrared detection head is installed on the bottom plate, and a top end bolt of the second cylinder is installed on the installation frame.

Further, the adsorption component comprises vacuum generator, trachea and suction nozzle, the trachea is installed to the vacuum generator bottom, trachea outer end and suction nozzle threaded connection, vacuum generator installs on the cover shell and props the dish, the suction nozzle is installed on first guide block, second guide block and bottom plate.

Furthermore, the stretching assembly is composed of a pressure spring, a flitch and a ferrule, the left end and the right end of the pressure spring are welded on the flitch and the ferrule respectively, the inner wall of the pressure spring is inserted on the air pipe, the left side of the flitch is adhered on the detection seat through strong glue, and the inner wall of the ferrule is adhered on the air pipe.

Further, circular shape opening has been seted up at the both sides middle part about detecting the seat, opening inner wall and trachea sliding contact, first motor and first cylinder are bilateral symmetry respectively and distribute on detecting the seat.

Furthermore, the minimum horizontal distance between the bottom end of the infrared detection head and the second detection probe is 15cm, and the vertical heights of the bottom ends of the first guide block and the second guide block and the top side of the conveying assembly are 5 cm.

Furthermore, the number of the second detection probes is two, and the second detection probes are symmetrically distributed in the casing in the front-back direction.

(III) advantageous effects

Compared with the prior art, the invention has the following beneficial effects:

for solving difficult comparatively convenient and comprehensive photoelectric detection to the insulator, influence yield and production efficiency's problem, rethread transfer module carries the back to the insulator, make the insulator pass through the second detection probe and detect the back to its left and right sides, make infrared detection head detect the insulator and carry the back, move the material subassembly again and remove the back to the insulator, make it arrange in first guide block and second guide block, make first motor and first cylinder cooperate, adsorb and overturn the five metals product, make the insulator outside can be carried out comprehensive detection by first detection probe, reach convenient comprehensive carry out effectual photoelectric detection to the insulator, improve the yield and prevent secondary detection, do benefit to production efficiency's effect.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

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

FIG. 2 is a schematic view of the interior of the case of the present invention;

FIG. 3 is a schematic view of the adsorption assembly of the present invention;

FIG. 4 is a schematic top view of the interior of the case of the present invention;

FIG. 5 is a schematic view of the guide assembly of the present invention;

FIG. 6 is a schematic structural view of a material moving assembly according to the present invention;

FIG. 7 is a schematic view of the construction of the stretching assembly of the present invention;

in the figure: a machine frame-1, a sleeve frame-2, a first detection probe-3, a light emitting lens-4, a bracket-5, a transmission component-6, a control panel-7, a control key-8, a power line-9, a sleeve-10, a discharge channel-11, a support frame-12, a port-13, a second detection probe-14, a detection seat-15, a support plate-16, a guide rod-17, a guide component-18, a material moving component-19, an adsorption component-20, a first motor-21, a first guide block-22, a first air cylinder-23, a second guide block-24, a stretching component-25, a vacuum generator-201, an air pipe-202, a suction nozzle-203, a sliding frame-181, a guide frame-182, a screw rod-183, a guide frame-184, a guide frame-182, a guide rod-183, a guide frame, A second motor-185, a mounting frame-186, a second cylinder-191, a supporting disc-192, a bottom plate-193, an infrared detection head-194, a pressure spring-251, a pasting plate-252, a ferrule-253 and an opening-151.

Detailed Description

Referring to fig. 1-7, the present invention provides a multi-angle positioning optoelectronic information detecting apparatus: comprises a frame 1, a sleeve frame 2, a first detection probe 3, a light emitting lens 4, a support 5, a conveying assembly 6, a control panel 7, a control key 8, a power cord 9, a casing 10, a discharging channel 11, a support frame 12, a through hole 13, a second detection probe 14, a detection seat 15, a support plate 16, a guide rod 17, a guide assembly 18, a material moving assembly 19, an adsorption assembly 20, a first motor 21, a first guide block 22, a first air cylinder 23, a second guide block 24 and a stretching assembly 25, wherein the right end of the frame 1 is riveted with the sleeve frame 2, the first detection probe 3 and the rear end of the light emitting lens 4 are bolted on the frame 1, the left end of the support 5 is welded with the sleeve frame 2, the right end of the conveying assembly 6 is mounted on the support 5, four corner bolts at the rear end of the control panel 7 are bolted on the sleeve frame 2, the front end and the bottom end of the control panel 7 are respectively provided with the control key 8 and the power cord 9, the right end of the discharging channel 11 is welded on the frame 1, the right parts of the front and the rear sides of the casing 10 are welded and jointed with a support frame 12, a through hole 13 is arranged between the top side of the casing 10 and the first detection probe 3, the top end of the support frame 12 penetrates into the casing 10 and then is provided with a second detection probe 14, the front and the rear ends of a detection seat 15 are bolted in the casing 10, the left and the right ends of a support plate 16 are bolted with the casing 10, the left and the right ends of a guide rod 17 are embedded and fixed on the support plate 16, the top end of a guide component 18 slides along the guide rod 17, the top end of a material moving component 19 is bolted on the guide component 18, an adsorption component 20 is arranged on the casing 10 and the material moving component 19, the four corners of the front side of a first motor 21 are bolted with the detection seat 15, a rotor part of the first motor 21 penetrates out of the detection seat 15 and is fixedly provided with a first guide block 22, the left side of the stretching component 25 is welded and jointed with the detection seat 15.

Wherein, guide assembly 18 comprises balladeur train 181, guide frame 182, lead screw 183, guide frame 184, second motor 185 and mounting bracket 186, balladeur train 181 bottom fixed mounting has guide frame 182, both ends and lead screw 183 threaded connection about guide frame 182, lead screw 183 around two portions rotate and install on guide frame 184, second motor 185 leans on inboard bolt to install in guide frame 184, the perpendicular welding in guide frame 184 in mounting bracket 186 top, the outside fixed mounting of guide frame 184 is in the cover 10, the balladeur train 181 top slides along guide arm 17, for moving material subassembly 19 provides effectual transport support, does benefit to the convenience of use.

Wherein, it comprises second cylinder 191, supporting disk 192, bottom plate 193 and infrared detection head 194 to move material subassembly 19, second cylinder 191 bottom fixed mounting has supporting disk 192, bottom plate 193 topside middle part is fixed with second cylinder 191 push rod portion, infrared detection head 194 left end bolt mounting is on bottom plate 193, second cylinder 191 top bolt mounting is on mounting bracket 186, makes the insulator can be stable arrange first guide block 22 and second guide block 24 in, makes it detect, satisfies the user demand.

Wherein, the absorption assembly 20 comprises vacuum generator 201, trachea 202 and suction nozzle 203, trachea 202 is installed to vacuum generator 201 bottom, trachea 202 outer end and suction nozzle 203 threaded connection, vacuum generator 201 is installed on cover 10 and supporting disc 192, suction nozzle 203 is installed on first guide 22, second guide 24 and bottom plate 193, carries out effectual absorption fixed to the insulator to can not fish tail the surface.

The stretching assembly 25 is composed of a pressure spring 251, a pasting plate 252 and a ferrule 253, the left end and the right end of the pressure spring 251 are respectively welded on the pasting plate 252 and the ferrule 253, the inner wall of the pressure spring 251 is inserted into the air pipe 202, the left side of the pasting plate 252 is adhered to the detection seat 15 through strong glue, and the inner wall of the ferrule 253 is adhered to the air pipe 202, so that the air pipe 202 can be conveniently used and reset after being pushed by the first air cylinder 23.

Wherein, circular shape opening 151 has been seted up at detection seat 15 left and right sides middle part, opening 151 inner wall and trachea 202 sliding contact, first motor 21 and first cylinder 23 are bilateral symmetry respectively and distribute on detecting seat 15, make the insulator can aim at with first test probe 3 after the upset, do benefit to the stability in utilization.

The minimum horizontal distance between the bottom end of the infrared detection head 194 and the second detection probe 14 is 15cm, and the vertical heights of the bottom ends of the first guide block 22 and the second guide block 24 and the top side of the transmission assembly 6 are 5cm, so that the bottom end of the insulator and the transmission assembly 6 can have a sufficient turning distance, and the requirement of a use space is met.

The number of the second detecting probes 14 is two, and the second detecting probes 14 are symmetrically distributed in the casing 10 in the front-back direction, so that the insulators can be symmetrical in the front-back direction.

The working principle is as follows:

firstly, when the device is used, the device is placed at a proper position, the bottom ends of the rack 1 and the sleeve frame 2 and a placing surface are stably placed, then the power line 9 is electrically connected with a control circuit on a production line, then the conveying assembly 6 and the discharging channel 11 can be connected with an up-and-down conveying process on the production line, and the device is used in subsequent production;

secondly, after the control key 8 is pressed down to electrify all electrified components, after the insulator is conveyed to the conveying assembly 6 from the previous processing procedure, the insulator can be conveyed leftwards on the conveying assembly 6 and then the photoelectric detection is carried out on the left side and the right side of the insulator through the second detection probe 14, after the infrared detection head 194 subsequently detects the insulator on the conveying assembly 6, the infrared detection head 194 subsequently transmits data into the control circuit, the second air cylinder 191 subsequently passes through and pushes the bottom plate 193, the vacuum generator 201 on the supporting disc 192 is subsequently electrified, and then the vacuum generator 201 can be used for enabling the suction nozzle 203 to generate suction force through the air pipe 202, and the suction nozzle 203 can be used for absorbing the insulator on the conveying assembly 6;

thirdly, the control circuit can electrify the second motor 185, and the second motor 185 drives the screw rod 183 to rotate after being electrified, so that the screw rod 183 can apply a spiral thrust to the guide frame 182 after being stressed, the guide frame 182 drives the sliding frame 181 to slide leftwards along the guide rod 17, and the second air cylinder 191 drives the insulator after left-right detection to be conveyed into the first guide block 22 and the second guide block 24;

fourthly, the vacuum generator 201 in the casing 10 is energized, the suction nozzles 203 on the first guide block 22 and the second guide block 24 generate suction force, the first cylinder 23 pushes the second guide block 24, the suction nozzles 203 are attached to the insulator, and the operation of the vacuum generator 201 on the stay disc 192 is stopped, the second cylinder 191 is reset through the same procedure, then the first motor 21 is electrified to drive the first guide block 22 to rotate, the rotation frequency is positive and negative one turn, which can be realized by arranging a positive and negative power connection circuit, then, the first guide block 22 drives the insulator to rotate, the first detection probe 3 is made to transmit the transmitted light lens 4 and the through hole 13 to detect the outer side of the insulator, when the first cylinder 23 pushes the second guide block 24, the air tube 202 can apply force to the compression spring 251 through the ferrule 253 to compress the compression spring, so that when the first cylinder 23 is reset, the air pipe 202 is pulled by the pressure spring 251 to be stretched and reset on the detection seat 15;

fifthly, after the operation is finished, the vacuum generator 201 is powered off, the suction nozzle 203 cancels the adsorption of the insulator, and the insulator falls onto the conveying assembly 6 and then is moved out of the discharge channel 11, so that the use is finished.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the supply of the power supply also belongs to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the circuit connection are not explained in detail in the invention.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a multi-angle location optoelectronic information check out test set which characterized in that: comprises a machine frame (1), a sleeve frame (2), a first detection probe (3), a light emitting lens (4), a support (5), a conveying assembly (6), a control panel (7), a control key (8), a power line (9), a casing (10), a discharge channel (11), a support frame (12), a through hole (13), a second detection probe (14), a detection seat (15), a support plate (16), a guide rod (17), a guide assembly (18), a material moving assembly (19), an adsorption assembly (20), a first motor (21), a first guide block (22), a first air cylinder (23), a second guide block (24) and a stretching assembly (25), wherein the sleeve frame (2) is riveted at the right end of the machine frame (1), the first detection probe (3) and the rear end of the light emitting lens (4) are bolted on the machine frame (1), the left end of the support (5) is welded with the sleeve frame (2), the right end of the conveying assembly (6) is mounted on the support (5), four corners of the rear end of the control panel (7) are bolted on the sleeve frame (2), the front end and the bottom end of the control panel (7) are respectively embedded with a control key (8) and a power line (9), a sleeve (10) is embedded and fixed in the middle of the outer wall of the machine frame (1), the right end of the discharging channel (11) is welded on the machine frame (1), brackets (12) are welded and attached to the right parts of the front side and the rear side of the sleeve (10), a through hole (13) is formed between the top side of the sleeve (10) and the first detection probe (3) in a relative mode, a second detection probe (14) is mounted after the top end of the bracket (12) penetrates through the sleeve (10), bolts at the front end and the rear end of the detection seat (15) are mounted in the sleeve (10), the left end and the right end of the support plate (16) are bolted on the sleeve, the guide assembly (18) top slides along guide arm (17), move material subassembly (19) top bolt and install on guide assembly (18), install on cover shell (10) and move material subassembly (19) adsorption component (20), first motor (21) front side four corners with detect seat (15) bolt fastening to first motor (21) rotor portion wears out and detects seat (15) back fixed mounting and has first guide block (22), first cylinder (23) left side four corners with detect seat (15) bolt fastening to first cylinder (23) push rod portion wears out to detect seat (15) back rotation and installs second guide block (24), tensile subassembly (25) left side with detect seat (15) welding laminating.

2. The multi-angle positioning photoelectric information detection device of claim 1, characterized in that: guide assembly (18) comprise balladeur train (181), guide frame (182), lead screw (183), guide frame (184), second motor (185) and mounting bracket (186), balladeur train (181) bottom fixed mounting has guide frame (182), both ends and lead screw (183) threaded connection about guide frame (182), lead screw (183) front and back two rotate and install on guide frame (184), second motor (185) lean on inboard bolt to install in guide frame (184), mounting bracket (186) top vertical welding is on guide frame (184), guide frame (184) outside fixed mounting is in cover shell (10), balladeur train (181) top slides along guide arm (17).

3. The multi-angle positioning optoelectronic information detecting apparatus as claimed in claims 1 and 2, wherein: move material subassembly (19) and detect head (194) by second cylinder (191), supporting disk (192), bottom plate (193) and infrared and constitute, second cylinder (191) bottom fixed mounting has supporting disk (192), bottom plate (193) top side middle part is fixed with second cylinder (191) push rod portion, infrared detection head (194) left end bolt is installed on bottom plate (193), second cylinder (191) top bolt is installed on mounting bracket (186).

4. The multi-angle positioning optoelectronic information detecting apparatus as claimed in claims 1 and 3, wherein: the adsorption component (20) comprises a vacuum generator (201), an air pipe (202) and a suction nozzle (203), the air pipe (202) is installed at the bottom end of the vacuum generator (201), the outer end of the air pipe (202) is in threaded connection with the suction nozzle (203), the vacuum generator (201) is installed on a casing (10) and a supporting disc (192), and the suction nozzle (203) is installed on a first guide block (22), a second guide block (24) and a bottom plate (193).

5. The multi-angle positioning optoelectronic information detecting apparatus as claimed in claims 1 and 4, wherein: the stretching assembly (25) is composed of a pressure spring (251), a pasting plate (252) and a ferrule (253), the left end and the right end of the pressure spring (251) are respectively welded on the pasting plate (252) and the ferrule (253), the inner wall of the pressure spring (251) is inserted into the air pipe (202), the left side of the pasting plate (252) is arranged on the detection seat (15) through strong glue, and the inner wall of the ferrule (253) is arranged on the air pipe (202) in a sticking mode.

6. The multi-angle positioning optoelectronic information detecting apparatus as claimed in claims 1 and 4, wherein: detect seat (15) left and right sides middle part and seted up circular shape opening (151), opening (151) inner wall and trachea (202) sliding contact, first motor (21) and first cylinder (23) are bilateral symmetry distribution respectively on detecting seat (15).

7. The multi-angle positioning photoelectric information detection device of claim 3, characterized in that: the minimum horizontal distance between the bottom end of the infrared detection head (194) and the second detection probe (14) is 15cm, and the vertical height between the bottom ends of the first guide block (22) and the second guide block (24) and the top side of the conveying assembly (6) is 5 cm.

8. The multi-angle positioning photoelectric information detection device of claim 1, characterized in that: the number of the second detection probes (14) is two, and the second detection probes (14) are symmetrically distributed in the front and back direction in the casing (10).

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