CN112798032B

CN112798032B - Mechanical automation test equipment with optical induction mechanism

Info

Publication number: CN112798032B
Application number: CN202110121496.8A
Authority: CN
Inventors: 夏训龙
Original assignee: Kunshan Hejutai Electronic Technology Co ltd
Current assignee: Kunshan Hejutai Electronic Technology Co ltd
Priority date: 2021-01-28
Filing date: 2021-01-28
Publication date: 2023-03-31
Anticipated expiration: 2041-01-28
Also published as: CN112798032A

Abstract

The invention discloses mechanical automatic test equipment with an optical sensing mechanism, which comprises a base, wherein first supporting rods are fixedly arranged at the middle positions of two sides of the top of the base, positioning frames are fixedly arranged at the top ends of the two first supporting rods, the top ends of the two first supporting rods are respectively and fixedly connected with the middle positions of the two sides of the bottom of the positioning frames, and a plurality of clamping grooves are respectively formed in the top ends of one sides of the two first supporting rods.

Description

Mechanical automation test equipment with optical induction mechanism

Technical Field

The invention relates to the field of mechanical automatic test equipment with an optical sensing mechanism, in particular to mechanical automatic test equipment with the optical sensing mechanism.

Background

The automatic test equipment is a test equipment which can automatically carry out performance verification and fault diagnosis on a tested object and isolate faults, the optical sensor is a sensor, the measurement is carried out according to the optical principle, and the optical sensor has many advantages, such as non-contact and non-destructive measurement, almost no interference, high-speed transmission, telemetering, remote control and the like, and the mechanical automatic test equipment usually detects workpieces and the like by means of an optical sensing mechanism during detection.

In the prior art, the mechanical automatic testing equipment with the optical sensing mechanism usually fixes the optical sensing machine or adjusts the optical sensing machine with the help of an external positioning mechanism, so that the height angle of the optical sensing machine needs to be adjusted when workpieces of different specifications are detected, long-time optical detection is realized, the potential safety hazard of poor contact is easily caused by the optical sensing machine, the optical detection is not only inaccurate, but also the potential safety hazard and the damage of the optical sensing machine and the mechanical automatic testing equipment are easily caused by circuit winding and the like, and therefore the mechanical automatic testing equipment with the optical sensing mechanism is needed.

Disclosure of Invention

The present invention is directed to a mechanical automatic testing device with an optical sensing mechanism to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a mechanical automatic testing device with an optical sensing mechanism comprises a base, wherein first supporting rods are fixedly arranged in the middle positions of two sides of the top of the base, positioning frames are fixedly arranged at the top ends of the two first supporting rods, the top ends of the two first supporting rods are fixedly connected with the middle positions of two sides of the bottom of the positioning frames respectively, a plurality of clamping grooves are formed in the top end of one side of each of the two first supporting rods, clamping strips are clamped in the two clamping grooves, fixing blocks are inserted into one ends of the outer walls of the two clamping strips, lifting frames are fixedly arranged at the bottom ends of the two fixing blocks respectively, the bottom ends of the two fixing blocks are fixedly connected with the middle positions of two sides of the top of each lifting frame respectively, two ends of the inner wall of each lifting frame are slidably connected with one ends of the outer walls of the two first supporting rods respectively, positioning frames are fixedly arranged at the two ends of the top of each lifting frame, a conveying belt is fixedly arranged at one side of the two positioning frames, one side of each positioning frame is fixedly connected with two sides of the conveying belt respectively, a motor is fixedly arranged at one end of the other side of one positioning frame, and the output end of the motor passes through one positioning frame and is fixedly connected with one end of one conveying belt;

preferably, a second through groove is formed in one side of the positioning frame, second sliding grooves are formed in the middle positions of two sides of the inner wall of the second through groove, the second sliding grooves are provided with second sliding strips, the second sliding grooves are provided with two second sliding strips in a sliding mode, one ends of the second sliding strips are provided with a first blocking plate, one ends of the two second sliding strips are fixedly connected with two ends of the middle position of one side of the first blocking plate respectively, a first positioning rod is fixedly arranged at the middle position of one side of the first blocking plate, the other ends of the two second sliding strips are fixedly provided with a second blocking plate, the other ends of the two second sliding strips are fixedly connected with two ends of the middle position of one side of the second blocking plate respectively, a second positioning rod is fixedly arranged at the middle position of one side of the second blocking plate, an optical sensor is arranged at the top end of the first positioning rod in a clamping mode, one end of the bottom of the optical sensor is connected with the top end of the second positioning rod in a clamping mode, and a positioning handle is fixedly arranged at the middle position of the other side of the second blocking plate.

Preferably, the both ends of base top both sides are all fixed and are equipped with the second bracing piece, four first logical groove has all been seted up to the intermediate position at second bracing piece one side top, four first logical groove all slides and is equipped with the slider, four the one end of slider respectively with the both ends fixed connection of two locating racks one side, four the other end of slider all is fixed and is equipped with the elevator.

Preferably, four the intermediate position of second bracing piece one side is all fixed and is equipped with first locating piece, the both ends of locating frame both sides bottom are all fixed and are equipped with the second locating piece, four the intermediate position at first locating piece top is all fixed and is equipped with the dead lever, four the bottom of dead lever outer wall all alternates and is equipped with the spring, four the other end of dead lever outer wall alternates with the intermediate position at four elevator tops respectively and is connected four the both ends of spring contact with the intermediate position at four first locating piece tops and the intermediate position of elevator bottom respectively.

Preferably, first light barriers are fixedly arranged on two sides of the inner wall of the positioning frame, first sliding grooves are formed in two ends of one side of each first light barrier, four first sliding grooves are provided with first sliding strips in a sliding mode, and the four first sliding strips are fixedly arranged at two ends of one side of each second light barrier respectively.

Preferably, the fixed control display screen that is equipped with in intermediate position of locating frame one side, the fixed protection frame that is equipped with in one side of locating frame, the bottom mounting of protection frame is equipped with the positioning bottom plate, the both ends of positioning bottom plate one side are connected with the outer wall block of two second locating pieces respectively.

Preferably, the both ends of protection frame one side have all been seted up the third spout, two the third spout all slides and is equipped with the third draw runner, and two third draw runners fix the both ends that set up in protection plate one side respectively.

Preferably, a control box is fixedly arranged in the middle of the top of the base, and one ends of two sides of the outer wall of the control box are respectively in contact with one side of two second supporting rods.

Preferably, one side of locating frame is fixed and is equipped with flush mounting plate of switch, flush mounting plate of switch's surface is fixed respectively and is equipped with optical sensor switch, motor switch, control box switch and control display screen switch, optical sensor, motor, control box and control display screen are respectively through optical sensor switch, motor switch, control box switch and control display screen switch and external power supply electric connection.

The invention has the technical effects and advantages that:

(1) By stirring the two clamping strips, one end of the outer wall of each clamping strip is separated from the two fixed blocks and the two clamping grooves formed in one side of the first supporting rod respectively, the fixed blocks and the lifting frame are stirred up and down, the two positioning frames drive the conveying belt fixed inside to move up and down, two ends of one side of each positioning frame are respectively in sliding connection with the first through grooves through the sliders fixedly arranged, the lifting blocks fixedly arranged on one sides of the four sliders are in sliding connection with the outer walls of the fixed rods fixed between the first positioning blocks and the second positioning blocks, the two positioning frames drive the conveying belt to be stably adjusted up and down through elastic deformation of springs, and therefore workpieces with different specifications and sizes can be detected conveniently;

(2) Through pulling location handle for the location handle drives the second baffler board, two second draw slivers and the stable second spout of seting up along locating frame inner wall both sides of first baffler board and slides out, and through the fixed of first locating lever and second locating lever, the stable periodic overhaul of the optical sensor of being convenient for increases mechanical automation test equipment's functionality, and the maintenance of the optical induction mechanism of being convenient for increases mechanical automation test equipment's life.

Drawings

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

FIG. 2 is a schematic diagram of the lifting structure of the belt of the present invention;

FIG. 3 is a schematic view of a positioning structure of the positioning frame of the present invention;

FIG. 4 is a schematic view of the retractable structure of the light barrier according to the present invention;

FIG. 5 is a schematic view of the positioning structure of the optical sensor of the present invention;

fig. 6 is a schematic diagram of a protective structure of a display screen of the controller according to the present invention.

In the figure: 1. a base; 2. a first support bar; 3. a positioning frame; 4. a control box; 5. controlling the display screen; 6. a protective frame; 7. a second light blocking plate; 8. a card slot; 9. clamping the strip; 10. a fixed block; 11. a second support bar; 12. a first positioning block; 13. a second positioning block; 14. a fixing rod; 15. a spring; 16. a first through groove; 17. a lifting block; 18. a second chute; 19. a second slide bar; 20. a positioning frame; 21. a conveyor belt; 22. a motor; 23. a lifting frame; 24. a first light barrier; 25. a first chute; 26. a first barrier plate; 27. a second barrier plate; 28. an optical sensor; 29. a positioning handle; 30. positioning the bottom plate; 31. a third chute; 32. and (4) a protective plate.

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.

The invention provides a mechanical automatic testing device with an optical sensing mechanism, which comprises a base 1, wherein first supporting rods 2 are fixedly arranged at the middle positions of two sides of the top of the base 1, a positioning frame 3 is fixedly arranged at the top ends of the two first supporting rods 2, the top ends of the two first supporting rods 2 are respectively and fixedly connected with the middle positions of two sides of the bottom of the positioning frame 3, a plurality of clamping grooves 8 are respectively arranged at the top ends of one sides of the two first supporting rods 2, the two clamping grooves 8 are respectively clamped with clamping strips 9, a fixing block 10 is respectively inserted into one end of the outer wall of each clamping strip 9, two ends of the inner wall of a lifting frame 23 are respectively and slidably connected with one end of the outer wall of the two first supporting rods 2, positioning frames 20 are fixedly arranged at two ends of the top of the lifting frame 23, a conveyor belt 21 is fixedly arranged at one side of each positioning frame 20, one side of each of the two positioning frames 20 is fixedly connected with two sides of the conveyor belt 21, one end of the other side of one of the two positioning frames 20 is fixedly provided with a motor 22, the output end of the motor 22 penetrates through one of the positioning frames 20 to be fixedly connected with one end of one side of the conveyor belt 21, the middle position of the top of the base 1 is fixedly provided with a control box 4, one ends of two sides of the outer wall of the control box 4 are respectively contacted with one sides of the two second support rods 11, one side of the positioning frame 3 is fixedly provided with a switch panel, the surface of the switch panel is respectively and fixedly provided with an optical sensor switch, a motor switch, a control box switch and a control display screen switch, and the optical sensor 28, the motor 22, the control box 4 and the control display screen 5 are respectively and electrically connected with an external power supply through the optical sensor switch, the motor switch, the control box switch and the control display screen switch;

the invention provides a mechanical automatic test device with an optical sensing mechanism, which is shown in figure 2 and comprises two ends of two sides of the top of a base 1, wherein second support rods 11 are fixedly arranged at two ends of two sides of the top of the base 1, first through grooves 16 are formed in the middle positions of the tops of four second support rods 11, sliding blocks are arranged in the four first through grooves 16 in a sliding manner, one ends of the four sliding blocks are respectively and fixedly connected with two ends of one side of two positioning frames 20, lifting blocks 17 are fixedly arranged at the other ends of the four sliding blocks, first positioning blocks 12 are fixedly arranged at the middle positions of one sides of the four second support rods 11, second positioning blocks 13 are fixedly arranged at two ends of the bottoms of two sides of a positioning frame 3, fixing rods 14 are fixedly arranged at the middle positions of the tops of the four first positioning blocks 12, springs 15 are inserted at the bottom ends of the outer walls of the four fixing rods 14, the other ends of the outer walls of the four fixing rods 14 are respectively and alternately connected with the middle positions of the tops of the four lifting blocks 17, and two ends of the four springs 15 are respectively in contact with the middle positions of the tops of the four first positioning blocks 12 and the bottoms of the lifting blocks 17;

the invention provides a mechanical automatic test device with an optical sensing mechanism, which is shown in figure 3 and comprises two fixed blocks 10, wherein the bottom ends of the two fixed blocks 10 are respectively and fixedly provided with a lifting frame 23, and the bottom ends of the two fixed blocks 10 are respectively and fixedly connected with the middle positions of two sides of the top of the lifting frame 23;

the invention provides mechanical automatic testing equipment with an optical sensing mechanism, which comprises a positioning frame 3, wherein first light baffles 24 are fixedly arranged on two sides of the inner wall of the positioning frame 3, first sliding grooves 25 are respectively formed in two ends of one side of each of the two first light baffles 24, first sliding strips are arranged on the four first sliding grooves 25 in a sliding manner, and the four first sliding strips are respectively and fixedly arranged at two ends of one side of each of two second light baffles 7;

the invention provides a mechanical automatic test device with an optical sensing mechanism, which is shown in fig. 5 and comprises a positioning frame 3, wherein a second through groove is formed in one side of the positioning frame, second sliding grooves 18 are formed in the middle positions of two sides of the inner wall of the second through groove, second sliding strips 19 are arranged in two second sliding grooves 18 in a sliding mode, a first barrier plate 26 is fixedly arranged at one end of each of the two second sliding strips 19, one ends of the two second sliding strips 19 are fixedly connected with two ends of the middle position of one side of the first barrier plate 26 respectively, a first positioning rod is fixedly arranged in the middle position of one side of the first barrier plate 26, second barrier plates 27 are fixedly arranged at the other ends of the two second sliding strips 19, the other ends of the two second sliding strips 19 are fixedly connected with two ends of the middle position of one side of the second barrier plate 27 respectively, a second positioning rod is fixedly arranged in the middle position of one side of the second barrier plate 27, the top end of the first positioning rod is clamped with an optical sensor 28, one end of the bottom of the optical sensor 28 is clamped with the top end of the second positioning rod, and a positioning handle 29 is fixedly arranged in the middle position of the other side of the second barrier plate 27;

the invention provides mechanical automatic testing equipment with an optical sensing mechanism, which is shown in fig. 6 and comprises a control display screen 5 fixedly arranged in the middle of one side of a positioning frame 3, a protection frame 6 fixedly arranged on one side of the positioning frame 3, a positioning bottom plate 30 fixedly arranged at the bottom end of the protection frame 6, two ends of one side of the positioning bottom plate 30 are respectively connected with the outer walls of two second positioning blocks 13 in a clamping manner, third sliding grooves 31 are respectively formed in two ends of one side of the protection frame 6, third sliding strips are respectively arranged on the two third sliding grooves 31 in a sliding manner, and the two third sliding strips are respectively fixedly arranged at two ends of one side of a protection plate 32.

The working principle of the invention is as follows: when workpieces with different specifications need to be detected in mechanical automatic test equipment with an optical sensing mechanism, a worker shifts two clamping strips 9, so that one ends of the outer walls of the two clamping strips 9 are respectively separated from two fixed blocks 10 and two clamping grooves 8 formed in one side of a first supporting rod 2, shifts the fixed blocks 10 and a lifting frame 23 up and down, so that the lifting frame 23 drives two positioning frames 20 to stably move up and down, so that the two positioning frames 20 drive a conveying belt 21 fixed inside to move up and down, two ends of one side of each of the two positioning frames 20 are respectively in sliding connection with first through grooves 16, the four first through grooves 16 are respectively formed in one sides of second supporting rods 11 fixedly arranged at four corners of the top of a base 1, and lifting blocks 17 fixedly arranged on one side of each of the four sliding blocks are in sliding connection with the outer walls of fixing rods 14 fixed between the first positioning blocks 12 and the second positioning blocks 13, elastic deformation through spring 15, make two locating racks 20 drive conveyer belt 21 and adjust from top to bottom stably, thereby be convenient for detect the work piece of different specifications size, when two locating racks 20 reciprocate the co-altitude, the second photic board 7 of two locating racks 20 top contacts all with the top contact of locating rack 20, second photic board 7 is along one side both ends fixed be equipped with first draw runner and set up at the first spout 25 sliding connection at first barn door 24 one side both ends, pulling location handle 29, make location handle 29 drive second baffler 27, the stable second spout 18 of seting up along locating frame 3 inner wall both sides of two second draw runners 19 and first baffler 26 slides out, through the fixed of first locating lever and second locating lever, be convenient for the stable periodic overhaul of optical sensor 28.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "disposed," "mounted," "connected," and "secured" are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integral to; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The standard parts used by the invention can be purchased from the market, and the special-shaped parts can be customized according to the description and the description of the attached drawings.

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

Claims

1. The mechanical automatic testing equipment with the optical sensing mechanism comprises a base (1) and is characterized in that first supporting rods (2) are fixedly arranged at the middle positions of two sides of the top of the base (1), a positioning frame (3) is fixedly arranged at the top ends of the first supporting rods (2), the top ends of the two first supporting rods (2) are fixedly connected with the middle positions of two sides of the bottom of the positioning frame (3) respectively, a plurality of clamping grooves (8) are formed at the top ends of one sides of the two first supporting rods (2), the two clamping grooves (8) are fixedly clamped with clamping strips (9), fixing blocks (10) are inserted into one ends of the outer walls of the two clamping strips (9), lifting frames (23) are fixedly arranged at the bottom ends of the two fixing blocks (10), the bottom ends of the two fixing blocks (10) are fixedly connected with the middle positions of two sides of the top of the lifting frame (23) respectively, two ends of the inner wall of the lifting frame (23) are slidably connected with one ends of the outer walls of the two first supporting rods (2) respectively, two ends of the lifting frame (23) are fixedly provided with lifting frame (20), two fixing frames (21) are provided with a conveying belt (20), and one side of the two fixing frame (21) is provided with a motor (21), the output end of the motor (22) penetrates through one of the positioning frames (20) to be fixedly connected with one end of one side of the conveyor belt (21);

the optical sensor is characterized in that a second through groove is formed in one side of the positioning frame (3), second sliding grooves (18) are formed in the middle positions of two sides of the inner wall of the second through groove, two second sliding strips (19) are arranged in the middle positions of two sides of the inner wall of the second through groove in a sliding mode, a first barrier plate (26) is fixedly arranged at one end of each of the two second sliding strips (19), one ends of the two second sliding strips (19) are fixedly connected with two ends of the middle position of one side of the first barrier plate (26), a first positioning rod is fixedly arranged at the middle position of one side of the first barrier plate (26), two second barrier plates (27) are fixedly arranged at the other end of each of the second sliding strip (19), the other ends of the two second sliding strips (19) are fixedly connected with two ends of the middle position of one side of the second barrier plate (27), a second positioning rod is fixedly arranged at the middle position of one side of the second barrier plate (27), an optical sensor (28) is fixedly arranged at the top end of the other side of the first positioning rod, and an optical sensor (28) is connected with the top end of the top of the second positioning rod, and a handle (29) is fixedly arranged at the middle position of the other side of the second barrier plate.

2. The mechanical automation testing equipment with the optical sensing mechanism is characterized in that second supporting rods (11) are fixedly arranged at two ends of two sides of the top of the base (1), first through grooves (16) are formed in the middle positions of the tops of four sides of the second supporting rods (11), sliding blocks are arranged in the four first through grooves (16) in a sliding mode, one ends of the four sliding blocks are fixedly connected with two ends of one side of two positioning frames (20), and lifting blocks (17) are fixedly arranged at the other ends of the four sliding blocks.

3. The mechanical automation testing equipment with the optical sensing mechanism is characterized in that a first positioning block (12) is fixedly arranged at the middle position of one side of each of four second supporting rods (11), second positioning blocks (13) are fixedly arranged at two ends of the bottoms of two sides of the positioning frame (3), fixing rods (14) are fixedly arranged at the middle positions of the tops of the four first positioning blocks (12), springs (15) are inserted into the bottom ends of the outer walls of the four fixing rods (14), the other ends of the outer walls of the four fixing rods (14) are respectively inserted into the middle positions of the tops of four lifting blocks (17), and two ends of the four springs (15) are respectively in contact with the middle positions of the tops of the four first positioning blocks (12) and the middle positions of the bottoms of the lifting blocks (17).

4. The mechanical automation testing equipment with the optical sensing mechanism is characterized in that first light barriers (24) are fixedly arranged on two sides of the inner wall of the positioning frame (3), first sliding grooves (25) are formed in two ends of one side of each of the first light barriers (24), first sliding strips are slidably arranged on four first sliding grooves (25), and the four first sliding strips are fixedly arranged at two ends of one side of each of the two second light barriers (7).

5. The mechanical automation testing equipment with the optical sensing mechanism is characterized in that a control display screen (5) is fixedly arranged at the middle position of one side of the positioning frame (3), a protection frame (6) is fixedly arranged at one side of the positioning frame (3), a positioning bottom plate (30) is fixedly arranged at the bottom end of the protection frame (6), and two ends of one side of the positioning bottom plate (30) are respectively connected with the outer walls of the two second positioning blocks (13) in a clamping manner.

6. The mechanical automatic testing equipment with the optical sensing mechanism is characterized in that third sliding grooves (31) are formed in two ends of one side of the protection frame (6), third sliding strips are arranged on two third sliding grooves (31) in a sliding mode, and the two third sliding strips are fixedly arranged at two ends of one side of the protection plate (32) respectively.

7. The mechanical automatic test equipment with the optical sensing mechanism is characterized in that a control box (4) is fixedly arranged in the middle of the top of the base (1), and one ends of two sides of the outer wall of the control box (4) are respectively in contact with one sides of two second support rods (11).

8. The mechanical automation test equipment with the optical sensing mechanism is characterized in that a switch panel is fixedly arranged on one side of the positioning frame (3), an optical sensor switch, a motor switch, a control box switch and a control display screen switch are respectively and fixedly arranged on the surface of the switch panel, and the optical sensor (28), the motor (22), the control box (4) and the control display screen (5) are respectively and electrically connected with an external power supply through the optical sensor switch, the motor switch, the control box switch and the control display screen switch.