CN213091138U - Life detection device of infrared induction telescopic mechanism - Google Patents

Abstract

The utility model discloses a life-span detection device of infrared induction telescopic machanism, including examining test table, it can place infrared induction telescopic machanism's spacing groove cave to examine to be equipped with L on the test table, just the both sides of every spacing groove cave are equipped with the open distance inductor of measurable quantity telescopic machanism, just examine the top that corresponds spacing groove cave on the test table and still slide and be equipped with the response test strip, the below of examining test table is equipped with linkage structure, and this linkage structure is connected the linkage with the response test strip, and this life-span detection device will respond to the test strip and establish on detecting the mesa to drive through linkage structure and respond to the test strip and pass through in infrared induction telescopic machanism's top repeatedly, infrared induction telescopic machanism's telescopic boom opens or presss from both sides tightly, with this test automation that realizes infrared telescopic machanism, promotes the accuracy and.

Description

Life detection device of infrared induction telescopic mechanism

Technical Field

The utility model relates to an infrared induction detects technical field, specifically is an infrared induction telescopic machanism's life-span detection device.

Background

The vehicle-mounted wireless charging product controls the rotation or stop of the motor through the infrared inductor so as to control the expansion and clamping of the telescopic arm; need test motor and telescopic machanism's life in process of production, traditional test method can only come the test and statistics test structure through the manual work, and manual test inefficiency just takes time, still can promote the cost of manufacturing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an infrared induction telescopic machanism's life-span detection device to solve the problem that inefficiency and manufacturing cost are high that the current artifical life-span test of accomplishing that proposes leads to in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme, a life-span detection device of infrared induction telescopic machanism, including examining test table, it can place infrared induction telescopic machanism's spacing groove cave to examine to be equipped with L on the test table, just the both sides of every spacing groove cave are equipped with the open distance inductor of measurable quantity telescopic machanism, just it still slides and is equipped with the response test strip to examine the top that corresponds spacing groove cave on the test table, the below of examining test table is equipped with linkage structure, and this linkage structure is connected with the response test strip and is linked.

Compared with the prior art, the beneficial effects of the utility model are that: this life-span detection device establishes the response test strip on detecting the mesa to drive the response test strip through linkage structure and pass through in infrared induction telescopic machanism's top repeatedly, infrared induction telescopic machanism's telescopic boom opens or presss from both sides tightly, with this test automation that realizes infrared telescopic machanism, promotes the accuracy and the efficiency of test, reduce cost.

Preferably, the both sides parallel of examining test table are equipped with the slide rail, and it has the slide to all connect in the slide rail, the both ends of response test strip connect respectively on two slides, simultaneously, it has the slide rail groove to open one side of slide rail that the test table corresponds, and this slide rail groove department is equipped with the linkage piece, and the one end and the slide of this linkage piece are connected fixedly, and the other end and the linkage structural connection linkage of this linkage piece for the linkage structure drives response test strip and examines test table top round trip movement.

Preferably, the linkage structure includes slide rail motor and drive belt, wherein, the drive belt corresponds the slide rail groove setting, the slide rail motor is connected with the drive belt, the linkage piece connects on the drive belt, and the drive belt can make the response test strip move round trip movement steadily.

Preferably, the slide is rotatably connected with an adjusting screw, the induction test strip is connected with the adjusting screw, and therefore the height of the induction test strip can be adjusted by rotating the adjusting screw, so that the requirements of tests in different height ranges can be met.

Preferably, the detection device further comprises a display and a main controller which are electrically connected with the detection table, a starting switch is further arranged on the display, the distance sensors, the counter and the slide rail motor are all connected with the main controller, the starting switch is connected between the slide rail motor and the main controller, in addition, a counter is respectively arranged corresponding to each distance sensor, the counter is connected with the distance sensors through the main controller, the main controller is also connected with the display, and the display is mainly used for inputting or displaying various operation data, so that the detection device is more intelligent; in addition, the counter is used for counting the number of times that the infrared induction telescopic mechanism is normally opened so as to detect the qualification rate and the service life of the product.

Preferably, a counting sensor for sensing the number of times of movement of the test strip is arranged at the position, corresponding to the start position of the sensing test strip, on the detection table, and the counting sensor is connected with the main controller and used for calculating the number of times of back and forth movement of the sensing test strip.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure: 1. the device comprises a detection table, 2 parts of a limit groove, 3 parts of a distance sensor, 4 parts of an induction test strip, 5 parts of a linkage structure, 5-1 parts of a slide rail motor, 5-2 parts of a transmission belt, 6 parts of a slide rail, 7 parts of a slide seat, 8 parts of a slide rail groove, 9 parts of a linkage block, 10 parts of an adjusting screw rod, 11 parts of a display, 12 parts of a starting switch and 13 parts of a counting sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: the utility model provides an infrared induction telescopic machanism's life-span detection device, is including examining test table 1, it can place infrared induction telescopic machanism's spacing groove cave 2 to be equipped with L on the test table 1, and every spacing groove cave 2 corresponds the both sides of flexible arm and is equipped with the open distance inductor 3 or the stroke inductor of measurable quantity telescopic machanism, and this embodiment adopts apart from inductor 3, and, examine the sky of the last spacing groove cave 2 that corresponds of test table 1 and still slide and be equipped with response test strip 4, it is equipped with linkage structure 5 to examine test table 1 below, response test strip 4 is connected the linkage with linkage structure 5.

The specific connection linkage structure of the induction test strip 4 and the linkage structure 5 is as follows: the detection platform 1 is provided with slide rails 6 corresponding to the two sides of all the limiting groove holes 2 in parallel, the slide rails 6 are connected with slide seats 7, and the two ends of the induction test strip 4 are respectively connected to the two slide seats 7; meanwhile, one side of the detection platform 1 corresponding to the slide rail 7 is provided with a slide rail groove 8, the slide rail groove 8 is provided with a linkage block 9, one end of the linkage block 9 is fixedly connected with the slide seat 7, and the other end of the linkage block 9 is connected and linked with the linkage structure 5.

The specific structure of linkage structure 5 is: the device comprises a transmission belt 5-1 and a sliding rail motor 5-2, wherein the output end of the sliding rail motor 5-1 is connected with the transmission belt 5-2 and used for providing power for the transmission belt 5-2, the transmission belt 5-2 is arranged corresponding to a sliding rail groove 8, the other end of a linkage block 9 is connected with the transmission belt 5-2, the linkage block 9 can be driven to move through the transmission belt 5-2 so as to drive an induction test strip 4 to stably slide on a detection platform 1, in addition, in order to prevent the linkage block 9 from slipping with the transmission belt 5-2, the inner ring of the existing transmission belt 5-2 is in a tooth shape, one side of the linkage block 9 corresponding to the tooth shape is in an engagement tooth shape, and the problem that the linkage block 9 slips in the movement process is solved through the engagement of the linkage block 9 and the transmission.

Meanwhile, in order to adapt to the different height sensing requirements of the sensing test strips 4, the slide seat 7 is rotatably connected with an adjusting screw rod 10, the sensing test strips 4 are screwed on the adjusting screw rod 10, and the height distance between the sensing test strips 4 and the infrared sensing telescopic mechanism is adjusted by rotating the adjusting screw rod 10.

In addition, the detection device also comprises a display 11 and a main controller which are electrically connected with the detection platform 1, a starting switch 12 is also arranged on the display 10, the distance sensors 3, the counter and the slide rail motor 5-1 are all connected with the main controller, the starting switch 12 is connected between the slide rail motor 5-1 and the main controller, in addition, a counter is respectively arranged corresponding to each distance sensor 3 and is connected with the distance sensors 3 through the main controller, the main controller is also connected with the display 11, wherein, the display 11 is mainly used for inputting or displaying various operation data, the counter is used for counting the normally opening times of the infrared induction telescopic mechanism so as to detect the qualification rate and the service life of products, such as the opening times of the infrared induction telescopic mechanism of each limit groove 2 and the current back-and-forth operation times of the induction test strips, make detection device more intelligent, it is equipped with the count inductor 13 that is used for responding to the test strip number of movements to detect 4 initial position departments of test strip on the platform 1, and this count inductor 13 is connected with main control unit for calculate the number of times of the round trip movement of response test strip 4.

The working principle is as follows: placing the infrared induction telescopic mechanism as a product to be tested into the limiting groove 2, and adjusting the induction test strip 4 to a set height and resetting; then inputting the duty cycle of the sensing strip on the display 44, so that the sensing strip 4 goes back and forth one cycle; then, a starting switch 12 is pressed, the sensing test strip 4 starts to move, the test product outputs a signal to a motor inside the product after sensing, the motor works to drive a telescopic arm to open or clamp, the telescopic arm triggers a distance sensor 3 after opening, a counter counts for one time until a set work cycle of the sensing test strip 4 is finished, meanwhile, counting data of all current products to be tested can be displayed on a display 11, the corresponding service life of each product to be tested is obtained, and in addition, a counting sensor 13 is used for counting the work cycle of the retaining wall sensing test strip 4 and displaying the working cycle on the display 11.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a life-span detection device of infrared induction telescopic machanism, is including examining test table (1), its characterized in that, it can place infrared induction telescopic machanism's spacing groove cave (2) to be equipped with L on test table (1), just the both sides of spacing groove cave (2) are equipped with open distance inductor (3) of measurable quantity telescopic machanism, just examine the top that corresponds spacing groove cave (2) on test table (1) and still slide and be equipped with response test strip (4), the below of examining test table (1) is equipped with linkage structure (5), and this linkage structure (5) are connected the linkage with response test strip (4).

2. The life detection device of an infrared induction telescopic mechanism according to claim 1, characterized in that slide rails (6) are arranged in parallel on two sides of the detection platform (1), slide bases (7) are connected to the slide rails (6) in a sliding manner, two ends of the induction test strip (4) are respectively connected to the two slide bases (7), meanwhile, a slide rail groove (8) is formed in one side of the detection platform (1) corresponding to the slide rails (6), a linkage block (9) is arranged at the slide rail groove (8), one end of the linkage block (9) is connected and fixed to the slide bases (7), and the other end of the linkage block (9) is connected and linked with the linkage structure (5).

3. The life detection device of the infrared induction telescoping mechanism as claimed in claim 2, wherein the linkage structure (5) comprises a slide rail motor (5-1) and a transmission belt (5-2), wherein the transmission belt (5-2) is arranged corresponding to the slide rail groove (8), the slide rail motor (5-1) is connected with the transmission belt (5-2), and the linkage block (9) is connected to the transmission belt (5-2).

4. The device for detecting the service life of an infrared induction telescoping mechanism according to claim 2 or 3, characterized in that an adjusting screw (10) is rotatably connected to the slide (7), and the induction test strip (4) is connected to the adjusting screw (10).

5. The device for detecting the service life of the infrared induction telescopic mechanism is characterized by further comprising a display (11) and a main controller, wherein the display (11) is electrically connected with the detection table (1), the display (11) is further provided with a starting switch (12), the distance sensor (3), a counter and a sliding rail motor (5-1) are all connected with the main controller, the starting switch (12) is connected between the sliding rail motor (5-1) and the main controller, in addition, a counter is respectively arranged corresponding to each distance sensor (3), the counter is connected with the distance sensor (3) through the main controller, and the main controller is further connected with the display (11).

6. The device for detecting the service life of an infrared induction telescoping mechanism according to claim 5, characterized in that a counting sensor (13) for sensing the number of movements of the induction test strip (4) is arranged on the detection table (1) corresponding to the start position of the induction test strip (4), and the counting sensor (13) is connected with a main controller.

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