CN218538070U - Instant test kit material loading and position detection mechanism - Google Patents

Abstract

The utility model discloses a real-time test kit material loading and position detection mechanism, mechanism mainly comprise conveyer belt, side shield, connecting block, afterbody baffle, middle baffle, no. 1 supporting seat, no. 2 supporting seats, no. 1 cylinder, no. 2 cylinders. Wherein conveyer belt and side shield fixed connection, no. 1 sensor is installed to the side shield end, side shield top and three connecting block fixed connection, afterbody baffle and side shield fixed connection, afterbody baffle and middle baffle fixed connection, middle baffle top is equipped with the sensor support, fixedly connected with No. 2 sensors on the sensor support, a conveyer belt side is equipped with No. 1 supporting seat and No. 2 supporting seats, no. 1 cylinder and No. 1 supporting seat fixed connection, no. 2 cylinder and No. 2 supporting seat fixed connection. The utility model discloses simple structure is practical, but high strength continuous operation, and is efficient, can accurate detect reagent box position when the material loading put whether correct, makes things convenient for the assembly work of follow-up kit.

Description

Instant test kit material loading and position detection mechanism

Technical Field

The utility model relates to a material loading detection mechanism especially relates to a real-time test kit material loading and position detection mechanism.

Background

Along with the development of science and technology, the production of test kit is more and more, and test kit has higher requirement in the aspect of the assembly at present, if the form formula of putting during the material loading is not right, can lead to follow-up installation to go out the problem, and test kit also will can't use. When the material is loaded manually, the labor and time are wasted, and the placing error is easy to occur after the working time is long. Therefore, in order to solve the above problems, a feeding and position detecting mechanism for a point-of-care kit needs to be designed.

SUMMERY OF THE UTILITY MODEL

To the above-mentioned problem that exists among the prior art, the utility model provides a real-time test kit material loading and position detection mechanism.

The utility model provides a technical problem provide following scheme:

a feeding and position detection mechanism of an instant test kit comprises: conveyer belt, side shield, connecting block, afterbody dog, middle baffle, no. 1 supporting seat, no. 2 supporting seats, no. 1 cylinder, no. 2 cylinders.

The conveyer belt is fixedly connected with the side baffle.

The tail end of the side baffle is provided with a No. 1 sensor.

The side baffle top and three connecting blocks fixed connection.

The tail baffle is fixedly connected with the side baffle.

The tail baffle is fixedly connected with the middle baffle.

And a sensor bracket is arranged above the middle baffle.

And the sensor bracket is fixedly connected with a No. 2 sensor.

One side of the conveying belt is provided with a No. 1 supporting seat and a No. 2 supporting seat.

No. 1 cylinder and No. 1 supporting seat fixed connection.

No. 2 cylinder and No. 2 supporting seat fixed connection.

No. 1 cylinder head be equipped with No. 1 and keep off, no. 2 cylinder heads are equipped with No. 2 and keep off.

The distance between the side baffles and the middle baffle is slightly larger than the width of the reagent box.

The side baffle, the middle baffle and the tail baffle have certain gaps with the surface of the conveying belt.

The sensor support is provided with a straight hole, and the sensor support can move back and forth.

No. 1 supporting seat, no. 2 supporting seat, no. 1 cylinder, no. 2 cylinder, no. 1 keep off piece, no. 2 keep off piece, side shield, no. 1 sensor, no. 2 sensor all be equipped with two, and the symmetric distribution.

The utility model discloses simple structure, the practicality can high strength continuous work, and is efficient. Whether the placement of the position of the reagent kit is correct or not can be accurately detected during feeding, and the subsequent reagent kit assembly work is facilitated.

Drawings

Fig. 1 is the schematic view of the No. 2 cylinder in the operating state of the present invention.

Fig. 2 is a schematic diagram of the No. 1 cylinder in an operating state.

Fig. 3 is a side view of the present invention.

In the figure, 1, a conveyor belt; 2. side baffles; 3. connecting blocks; 4. a tail baffle; 5. an intermediate baffle; 6. a sensor holder; 61. a straight hole; 7. no. 1 supporting seat; 71. a No. 1 cylinder; 72. stop No. 1; 8. no. 2 supporting seat; 81. a No. 2 cylinder; 82. a stop member No. 2; 9. sensor number 1; 10. sensor number 2; 11. a kit.

Detailed Description

The invention will be further explained by the embodiments with reference to the drawings:

referring to fig. 1-3, the conveyer belt 1 is fixedly connected with the side edge baffle 2, the end of the side edge baffle 2 is provided with the sensor 9 No. 1 for detecting whether the kit 11 is in place, the upper part of the side edge baffle 2 is fixedly connected with three connecting blocks 3, the tail baffle 4 is fixedly connected with the side edge baffle 2, the tail baffle 4 is fixedly connected with the middle baffle 5, the sensor support 6 is arranged above the middle baffle 5, the sensor support 6 is fixedly connected with the sensor 10 No. 2, the sensor 10 No. 2 is a distance sensor, and the supporting seat 7 No. 1, the supporting seat 8 No. 2, the cylinder 81 No. 1, the cylinder 71 No. 2, the stopper 72 No. 1, the stopper 82 No. 2, the side edge baffle 5, the sensor 9 No. 1 and the sensor 10 No. 2 are all provided with two sensors and are symmetrically distributed.

When the position of the reagent box 11 is correctly placed, the sensor 10 No. 2 can just detect the distance from the conveyer belt 1 through the elliptical hole on the reagent box 11, and when the position of the reagent box 11 is wrongly placed, the sensor 10 No. 2 can only detect the distance from the surface of the reagent box 11, so that whether the reagent box 11 is correctly placed or needs to rotate by 180 degrees can be judged. A supporting seat 1 and a supporting seat 2, a supporting seat 7 and a supporting seat 8 are arranged on one side of the conveying belt 1, a cylinder 71 1 is fixedly connected with the supporting seat 7, a cylinder 81 2 is fixedly connected with the supporting seat 8, a stopper 72 is arranged at the head of the cylinder 71 1, a stopper 82 is arranged at the head of the cylinder 81 2, and the stopper 72, 82 are mainly used for limiting the movement of the reagent kit 11. The distance between the side baffles 2 and the middle baffle 5 is slightly larger than the width of the reagent kit 11, so that the reagent kit 11 can be smoothly conveyed on the conveyer belt 1 and the reagent kit 11 is guided. Side baffle 2, middle baffle 5, tail baffle 4 and conveyer belt 1 surface have certain clearance, make things convenient for conveyer belt 1 to operate. The sensor support 6 is provided with a straight hole 61, and the sensor support 6 can move back and forth, so that the detection position can be conveniently adjusted. No. 1 cylinder 71, no. 2 cylinder 81, no. 1 supporting seat 7, no. 2 supporting seat 8, no. 1 keep off 72, no. 2 keep off 82, side shield 2, no. 1 sensor 9, no. 2 sensor 10 all are equipped with two, and the symmetric distribution, so an equipment just has two material loading detection channel.

According to the actual situation, the conveying belt 1 is powered on, the conveying belt 1 operates, the reagent box 11 enters from the inlet of the conveying belt 1 through other equipment with the right side facing upwards, and the reagent box 11 is conveyed on the conveying belt 1 under the guiding action of the side baffles 2 and the middle baffle 5. When the reagent kit 11 is transported on the conveyer belt 1, the cylinder 71 1 can drive the stopper 72 1 to retract in advance, and the cylinder 81 2 can drive the stopper 82 2 to push out, so that the reagent kit 11 smoothly reaches the stopper 82 2, and the reagent kit 11 stays at the stopper 82 2, and the sensor 10 2 above the reagent kit starts to detect, judge whether the position of the reagent kit 11 is correctly placed, and output a signal. No. 2 cylinder 81 receives No. 2 sensor 10's signal, can drive No. 2 and keep off 82 and withdraw, and No. 1 cylinder 71 also can drive No. 1 and keep off 72 and release simultaneously, and the reagent box 11 that has detected will transport forward, and the reagent box 11 that does not detect in No. 1 cylinder 71 department will be kept off by No. 1 fender 72 this moment, and the reagent box 11 that has detected transports afterbody baffle 4 department, triggers No. 1 sensor 9. The following grasping mechanism receives the signal from the sensor No. 1 9 to grasp the detected reagent kit 11, and the grasping mechanism also receives the signal from the sensor No. 2 to determine whether the detected reagent kit 11 needs to be rotated. After the detected reagent kit 11 is grabbed away, the sensor 9 No. 1 is not triggered, the cylinder 81 No. 2 can obtain a signal and drive the stopper 82 No. 2 to extend out again, and meanwhile, the cylinder 71 No. 1 can drive the stopper 72 No. 1 to retract, so that the next reagent kit 11 is transported to the position below the sensor 10 No. 2 for detection.

Claims (3)

1. A feeding and position detection mechanism of an instant test kit comprises: conveyer belt (1), side shield (2), connecting block (3), afterbody baffle (4), middle baffle (5), no. 1 supporting seat (7), no. 2 supporting seat (8), no. 1 cylinder (71), no. 2 cylinder (81), its characterized in that: conveyer belt (1) and side shield (2) fixed connection, sensor (9) No. 1 is installed to side shield (2) end, side shield (2) top and three connecting block (3) fixed connection, tail baffle (4) and side shield (2) fixed connection, tail baffle (4) and middle baffle (5) fixed connection, middle baffle (5) top is equipped with sensor support (6), fixedly connected with No. 2 sensor (10) on sensor support (6), conveyer belt (1) one side is equipped with No. 1 supporting seat (7) and No. 2 supporting seat (8), no. 1 cylinder (71) and No. 1 supporting seat (7) fixed connection, no. 2 cylinder (81) and No. 2 supporting seat (8) fixed connection, no. 1 cylinder (71) head is equipped with No. 1 fender piece (72), no. 2 cylinder (81) head is equipped with No. 2 fender piece (82), sensor support (6) be equipped with a style of calligraphy hole (61), but sensor support (6) back-and-forth movement adjustment position.

2. The feeding and position detecting mechanism of claim 1, wherein the feeding and position detecting mechanism comprises: the distance between the side baffles (2) and the middle baffle (5) is slightly larger than the width of the reagent box (11).

3. The feeding and position detecting mechanism of claim 1, wherein the feeding and position detecting mechanism comprises: and certain gaps are reserved between the side baffle plates (2), the middle baffle plates (5), the tail baffle plates (4) and the surface of the conveying belt (1).

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