CN105910848A - Intelligent automatic arbitrarily depth sampling equipment for vinegar processing - Google Patents

Abstract

The invention discloses an intelligent automatic arbitrary-depth sampling device for vinegar processing, which includes a cylinder, and a U-shaped cavity is arranged in the cylinder; a U-shaped cover is arranged at the top of the U-shaped cavity, and a U-shaped control body is arranged at the center; The U-shaped control body is connected with the cylinder as a whole; the bottom center of the U-shaped cover is vertically provided with a connecting rod to connect the control body; the upper end of the connecting rod is provided with a limit ring; the lower end of the limit ring is provided with a positioning ring; There is a compression spring; the lower end of the connecting rod is provided with an iron block; the iron block is located at the lower end of the positioning ring; the lower end of the iron block is provided with a partition, and the lower end of the partition is provided with an electromagnet; the top of the control body is connected to the sampling rope; magnet; the upper end of the permanent magnet is provided with a starting spring, and the lower end is provided with a partition; the lower end of the partition is provided with an iron sheet; the iron sheet is connected to a switch; the switch and the electromagnet are connected to a circuit board and a storage battery. The utility model can realize the sampling at any depth position of the vinegar in the storage tank, and the sampling speed is fast, and the operation is simple and convenient.

Description

An Intelligent Automatic Arbitrary Depth Sampling Equipment for Vinegar Processing

technical field

The invention relates to the technical field of vinegar processing, in particular to an intelligent automatic arbitrary depth sampling device for vinegar processing.

Background technique

The finished or semi-finished vinegar in the storage tank needs to be collected, sampled for testing and testing of various technical indicators. In traditional technology, a glass bottle is usually placed in a metal frame for vinegar collection, and tied to the metal frame with a rope. Hanging by the rope, use the weight of the frame to sink the glass bottle into the vinegar storage tank, the vinegar will naturally flow into the glass bottle, then put up the rope and pull out the metal frame to complete the collection of vinegar samples. However, as long as the glass bottle sinks into the storage tank, the vinegar will flow into the glass bottle, so the collected vinegar is the vinegar on the upper layer of the storage tank, and the vinegar of each layer located at the lower end of the storage tank cannot be collected. Generally, the volume of storage tanks ranges from 100 to 1,000 cubic meters. For such a large-volume storage tank, the technical indicators of vinegar in the upper and lower layers of the storage tank are quite different. Therefore, the upper layer of the storage tank collected by traditional methods cannot represent the entire storage tank. The vinegar quality of the tank must be collected to the lower layer for testing and testing.

Contents of the invention

The object of the present invention is to solve the above problems and provide an intelligent automatic arbitrary-depth sampling device for vinegar processing, which can realize sampling at any depth of the vinegar in the storage tank, with fast sampling speed and simple and convenient operation.

In order to achieve the above object, the technical solution adopted by the present invention is: an intelligent automatic arbitrary depth sampling device for vinegar processing, which includes a cylinder (17), and a U-shaped cavity (18) is arranged in the cylinder (17). ); the top of the U-shaped cavity (18) is provided with a U-shaped cover (21), and the center is provided with a U-shaped control body (26); the U-shaped control body (26) is connected with the cylindrical body (17) as a whole; The bottom center of the U-shaped cover (21) is vertically provided with a connecting rod (8) connected to the control body (26); the upper end of the connecting rod (8) is provided with a limit ring (6); the lower end of the limit ring (6) A positioning ring (10) is provided; a compression spring (7) is provided between the limiting ring (6) and the positioning ring (10); an iron block (9) is provided at the lower end of the connecting rod (8); the The iron block (9) is located at the lower end of the positioning ring (10); the lower end of the iron block (9) is provided with a partition (3), and the lower end of the partition (3) is provided with an electromagnet (11); the control body (26) The top is connected to the sampling rope (23); the sampling rope (23) is connected to the permanent magnet (2) located in the control body (26); the upper end of the permanent magnet (2) is provided with a starting spring (1), and the lower end is provided with a spacer plate (3); the lower end of the partition (3) is provided with an iron sheet (4); the iron sheet (4) is connected to the switch (5); the switch (5), the electromagnet (11) are connected to the circuit board ( 12) and accumulator (13).

Further, a sampling chamber (16) is provided at the joint between the control body (26) and the side wall of the cylinder (17); liquid guide holes (15) and U-shaped chambers are provided on both sides of the bottom of the sampling chamber (16). (18) connected; the top of the sampling chamber (16) is provided with a sampling port (25); the sampling port (25) is provided with a sampling cover (24).

Further, the U-shaped cover (21) is fixed to the connecting rod (8) through connecting bolts (22).

Further, a water-isolation groove (19) is provided on the upper end surface of the U-shaped cavity (18); a water-isolation platform (20) matching the water-isolation groove (19) is arranged on the edge of the U-shaped cover (21).

Further, the circuit board (12) is located below the electromagnet (11); the storage battery (13) is located below the circuit board (12); and a sealing cover (14) is provided below the storage battery (13).

Further, the sampling rope (23) is provided with a length scale.

Beneficial effects of the present invention:

The invention adopts automatic control sampling, judges the sampling depth by the length scale on the sampling rope, and controls the opening and closing of the U-shaped cover through the instantaneous pulling of the sampling rope and the resistance of the liquid, thereby realizing vinegar sampling at different depth positions in the storage tank , improve the accuracy of sampling detection, convenient and fast operation.

Description of drawings

Figure 1 is a schematic diagram of the overall internal structure of the present invention.

FIG. 2 is a schematic top view of FIG. 1 .

Fig. 3 is a schematic top view of the present invention with the thickness of the U-shaped cover removed.

In the figure: 1, starting spring; 2, permanent magnet; 3, clapboard; 4, iron plate; 5, switch; 6, limit ring; 7, compression spring; 8, connecting rod; 9, iron block; 10, Positioning ring; 11, electromagnet; 12, circuit board; 13, battery; 14, sealing cover; 15, liquid guide hole; 16, sampling cavity; 17, cylinder; 18, U-shaped cavity; , water barrier; 21, U-shaped cover; 22, connecting bolts; 23, sampling rope; 24, sampling cover; 25, sampling port; 26, control body.

detailed description

In order to enable those skilled in the art to better understand the technical solution of the present invention, the present invention will be described in detail below in conjunction with the accompanying drawings. The description in this part is only exemplary and explanatory, and should not have any limiting effect on the protection scope of the present invention. .

As shown in Fig. 1-Fig. 3, the concrete structure of the present invention is: a kind of intelligent automatic arbitrary depth sampling equipment for vinegar processing, it comprises cylinder body 17, is provided with U-shaped cavity 18 in described cylinder body 17; The top of the U-shaped cavity 18 is provided with a U-shaped cover 21, and the center is provided with a U-shaped control body 26; the U-shaped control body 26 is connected with the cylinder body 17 as a whole; the center of the bottom of the U-shaped cover 21 is vertically provided with a connecting rod 8 is connected to the control body 26; the upper end of the connecting rod 8 is provided with a limit ring 6; the lower end of the limit ring 6 is provided with a positioning ring 10; a compression spring 7 is provided between the limit ring 6 and the positioning ring 10; The lower end of the connecting rod 8 is provided with an iron block 9; the iron block 9 is located at the lower end of the positioning ring 10; the lower end of the iron block 9 is provided with a partition 3, and the lower end of the partition 3 is provided with an electromagnet 11; the top of the control body 26 Connect the sampling rope 23; the sampling rope 23 is connected to the permanent magnet 2 located in the control body 26; the upper end of the permanent magnet 2 is provided with a starting spring 1, and the lower end is provided with a partition 3; the lower end of the partition 3 is provided with an iron sheet 4. The iron sheet 4 is connected to the switch 5 ; the switch 5 and the electromagnet 11 are connected to the circuit board 12 and the storage battery 13 .

Preferably, a sampling chamber 16 is provided at the joint between the control body 26 and the side wall of the cylinder body 17; a liquid guide hole 15 is provided on both sides of the bottom of the sampling chamber 16 to communicate with the U-shaped chamber 18; the top of the sampling chamber 16 is provided with There is a sampling port 25; the sampling port 25 is provided with a sampling cover 24.

Preferably, the U-shaped cover 21 is fixed to the connecting rod 8 by connecting bolts 22 .

Preferably, a water-isolation groove 19 is provided on the upper end surface of the U-shaped cavity 18;

Preferably, the circuit board 12 is located below the electromagnet 11 ; the battery 13 is located below the circuit board 12 ; and a sealing cover 14 is provided below the battery 13 .

Preferably, the sampling rope 23 is provided with a length scale.

When the present invention is specifically used:

Put the cylinder 17 into the storage tank through the sampling rope 23, judge the depth of the sampling rope 23 stretching into the storage tank according to the length scale number on the sampling rope 23, when reaching the required depth, pull the sampling rope 23 instantaneously, cooperate with vinegar The resistance to the cylinder 17 causes the starting spring 1 to be compressed, the permanent magnet 2 moves up, drives the iron piece 4 to move up, pulls the switch 5, the switch 5 controls the electromagnet 11 to power off, and the compression spring 7 ejects the U-shaped cover 21, Vinegar starts to enter the U-shaped cavity 18; the circuit board 12 is provided with a clock module, and after the clock module calculates the time for the U-shaped cover 21 to pop open, the electromagnet 11 is powered on automatically, the U-shaped cover 21 is sucked back, and the U-shaped cavity 18 is sucked back. Seal it; then take the cylinder body 17 back through the sampling rope 23; realize the sampling and collection at any depth in the vinegar storage tank, and the operation is simple and fast.

After the cylinder body 17 is retrieved, the staff only needs to open the sampling cover 24 to sample the vinegar entering the sampling cavity 16 for detection.

The complete isolation of the partition 3 can effectively prevent vinegar from entering the electronic control system in the control body 26, ensuring the normal and stable operation of the automatic sampling cylinder.

The setting of the water-isolation tank 19 and the water-isolation table 20 can improve the sealing performance of the U-shaped cover 21 and the U-shaped cavity 18, preventing the vinegar on the upper layer from entering the U-shaped cavity 18 and affecting the accuracy of sampling.

It should be noted that, in this document, the terms "comprising", "comprising" or any other variation thereof are intended to cover a non-exclusive inclusion such that a process, method, article or apparatus comprising a set of elements includes not only those elements, It also includes other elements not expressly listed, or elements inherent in the process, method, article, or apparatus.

In this paper, specific examples are used to illustrate the principle and implementation of the present invention. The description of the above examples is only used to help understand the method and core idea of the present invention. The above is only a preferred embodiment of the present invention. It should be pointed out that due to the limitation of literal expression, there are objectively unlimited specific structures. Under these circumstances, several improvements, modifications or changes can also be made, and the above-mentioned technical features can also be combined in an appropriate manner; these improvements, modifications, or combinations, or the idea and technical solution of the invention can be directly applied to other occasions without improvement should be regarded as the scope of protection of the present invention.

Claims (6)

1. an intelligent automatic arbitrary depth sampling device for vinegar processing, it comprises cylinder (17), is characterized in that, is provided with U-shaped cavity (18) in described cylinder (17); Described U-shaped cavity (18) The top is provided with a U-shaped cover (21), and the center is provided with a U-shaped control body (26); the U-shaped control body (26) is connected with the cylinder (17) as one; the U-shaped cover (21 ) bottom center is vertically provided with a connecting rod (8) connected to the control body (26); the upper end of the connecting rod (8) is provided with a limit ring (6); the lower end of the limit ring (6) is provided with a positioning ring (10) ; A compression spring (7) is provided between the limiting ring (6) and the positioning ring (10); an iron block (9) is provided at the lower end of the connecting rod (8); the iron block (9) is positioned at the positioning The lower end of the ring (10); the lower end of the iron block (9) is provided with a partition (3), and the lower end of the partition (3) is provided with an electromagnet (11); the top of the control body (26) is connected to the sampling rope (23) ; The sampling rope (23) is connected to the permanent magnet (2) located in the control body (26); the upper end of the permanent magnet (2) is provided with a starting spring (1), and the lower end is provided with a partition (3); The lower end of the partition (3) is provided with an iron sheet (4); the iron sheet (4) is connected to the switch (5); the switch (5), the electromagnet (11) is connected to the circuit board (12) and the storage battery (13) . 2. A kind of intelligent automatic arbitrary depth sampling equipment for vinegar processing according to claim 1, characterized in that a sampling cavity (16) is provided at the connection between the control body (26) and the side wall of the cylinder (17) ); said sampling cavity (16) bottom both sides are provided with guide hole (15) and communicate with U-shaped cavity (18); Described sampling cavity (16) top is provided with sampling port (25); Described sampling port ( 25) is provided with sampling cover (24). 3. A kind of intelligent automatic arbitrary depth sampling equipment for vinegar processing according to claim 1, characterized in that, the U-shaped cover (21) is fixed with the connecting rod (8) by connecting bolts (22). 4. A kind of intelligent automatic arbitrary depth sampling equipment for vinegar processing according to claim 1, characterized in that, the upper end surface of the U-shaped cavity (18) is provided with a water-separating groove (19); The edge of the cover (21) is provided with a water-isolation table (20) matched with the water-isolation groove (19). 5. A kind of intelligent automatic arbitrary depth sampling equipment for vinegar processing according to claim 1, characterized in that, the circuit board (12) is located below the electromagnet (11); the storage battery (13) is located in the circuit Below the plate (12); a sealing cover (14) is provided below the storage battery (13). 6. A kind of intelligent automatic arbitrary depth sampling equipment for vinegar processing according to claim 1, characterized in that, the sampling rope (23) is provided with a length scale.