CN211317830U

CN211317830U - Adjustable quick quantitative sampler

Info

Publication number: CN211317830U
Application number: CN201921920876.2U
Authority: CN
Inventors: 刘威
Original assignee: Electric Power Research Institute of Guangxi Power Grid Co Ltd
Current assignee: Electric Power Research Institute of Guangxi Power Grid Co Ltd
Priority date: 2019-11-08
Filing date: 2019-11-08
Publication date: 2020-08-21
Anticipated expiration: 2029-11-08

Abstract

The utility model relates to the technical field of fast quantitative sampling of solid particles and liquid, in particular to an adjustable fast quantitative sampler.A rubber ring is arranged at the edge of a feeding disc and a discharging disc and is seamlessly attached to the outer wall of the sampler; the quantitative chamber consists of a plurality of telescopic joints which can be fixed after being stretched, and the feed tray and the discharge tray are driven to move up and down during stretching, so that the size of single sampling quantity is adjusted; the feeding plug, the feeding guide rod, the linkage guide rail, the discharging plug and the discharging guide rod are linked up and down, and the positions of the feeding plug and the discharging plug are controlled through a linkage switch; the feeding plug and the discharging plug are used for opening and closing the feeding disc and the discharging disc; the sampler is marked with scales and can measure the material quantity of the storage chamber and the quantitative chamber.

Description

Adjustable quick quantitative sampler

Technical Field

The utility model relates to a quick quantitative sampling technical field of solid particle, liquid especially relates to an adjustable quick quantitative sampler.

Background

The sampling operation is to measure a certain volume of the test material by adopting a test vessel. In the testing process of technicians, solid particles and liquid are required to be sampled continuously and quantitatively for multiple times, and repeated operation, time and labor waste and low efficiency are required when tools such as beakers and measuring cylinders are used for sampling.

SUMMERY OF THE UTILITY MODEL

Not enough more than, the utility model provides an adjustable quick quantitative sampler can realize the continuous, many times quantitative sampling to solid particle, liquid, has improved work efficiency by a wide margin.

The specific technical scheme is as follows:

an adjustable rapid quantitative sampler comprises a device body, wherein the device body is sequentially provided with a top cover, a storage chamber, a feeding disc, a quantitative chamber, a discharging disc and a discharging chamber from top to bottom, wherein the top cover can be opened and closed;

the feeding disc and the discharging disc are in seamless fit with the inner wall of the device body, and rubber rings are respectively arranged at the outer edges of the feeding disc and the discharging disc;

the device body is divided into a material storage chamber, a quantitative chamber and a discharging chamber through a feeding disc and a discharging disc;

a linkage guide rail is arranged on the side wall of the quantitative chamber; the quantitative chamber consists of a plurality of telescopic joints which can be fixed after being stretched, and the feed tray and the discharge tray are driven to move up and down when the quantitative chamber is stretched;

a linkage switch is arranged on the linkage guide rail;

the feeding disc is provided with a feeding hole and a feeding plug, and the feeding plug is used for opening and closing the feeding hole;

the discharging tray is provided with a discharging hole and a discharging plug, and the discharging plug is used for opening and closing the discharging hole;

one end of the feeding guide rod is connected with the feeding plug, and the other end of the feeding guide rod penetrates through the outer wall of the device body through a sealing ring and is connected with the upper end of the linkage switch through a right-angle transmission joint and a plurality of telescopic rods which can be fixed after being stretched;

one end of the discharging guide rod is connected with the discharging plug, and the other end of the discharging guide rod penetrates through the outer wall of the device body through a sealing ring and is connected with the lower end of the gang switch through a right-angle transmission joint and a plurality of telescopic rods which can be fixed after being stretched;

the linkage switch is composed of an upper section of threaded rod and a lower section of threaded rod with adjustable length, the positions of the feeding plug and the discharging plug can be adjusted, and the positions of the feeding plug and the discharging plug are controlled through the linkage switch to open and close the feeding disc and the discharging disc;

the bottom of the emptying chamber is provided with an opening;

the device body is marked with scales.

Further, the top cover is fixed on the top of the device body through a hinge.

Furthermore, the linkage guide rail is composed of a plurality of telescopic sections, and the linkage guide rail can be fixed after being telescopic and can be synchronously telescopic with the quantitative chamber.

Furthermore, the feeding plug and the discharging plug are made of wear-resistant rubber or polytetrafluoroethylene materials.

The utility model has the advantages that:

(1) the utility model has the scale on the surface, which realizes the measurement of the material volume of the material storage chamber and the material volume of the quantitative chamber;

(2) the feeding disc and the discharging disc of the utility model can move up and down, thereby realizing the adjustment of single sampling quantity;

(3) the feeding plug and the discharging plug of the utility model are linked up and down, so that the quantitative sampling and the discharging are alternately carried out;

(4) the utility model discloses set up storage compartment, ration room and blowing room, realized the sample of continuous many times ration.

Drawings

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

Detailed Description

For a better understanding of the present invention, the following further description is made in conjunction with the accompanying drawings and the specific embodiments:

as shown in fig. 1, an adjustable fast quantitative sampler comprises a top cover 1, a material storage chamber 2, a feeding guide rod 3, a linkage guide rail 4, a linkage switch 5, a discharging guide rod 6, a feeding plug 7, a feeding disc 8, a quantitative chamber 9, a discharging plug 10, a discharging disc 11, a discharging chamber 12 and a device body 13.

The device body 13 is divided into a material storage chamber 2, a quantifying chamber 9 and a material discharging chamber 12 by a material feeding disc 8 and a material discharging disc 11;

rubber rings are arranged at the edges of the feeding disc 8 and the discharging disc 11 and are in seamless fit with the outer wall of the sampler; the side wall of the quantitative chamber 9 is provided with a linkage guide rail 4; the quantitative chamber 9 is composed of a plurality of telescopic joints which can be fixed after being stretched, and the feeding disc 8 and the discharging disc 11 are driven to move up and down during stretching, so that the size of single sampling quantity is adjusted; the feeding plug 7, the feeding guide rod 3, the linkage guide rail 4, the discharging plug 10 and the discharging guide rod 6 are linked up and down, and the positions of the feeding plug 7 and the discharging plug 10 are controlled through the linkage switch 5; feeding end cap 7, blowing end cap 10 are used for opening and seal feed port and blowing hole on feed tray 8, the blowing dish 11, two kinds of states appear when removing gang switch 5: 1) the feeding hole is opened and the discharging hole is closed; 2) closing the feeding hole and opening the discharging hole;

the device body 13 is a cylinder structure made of transparent glass except the quantitative chamber 9, the quantitative chamber 9 is composed of a corrugated expansion joint, and scales are marked on the outer surface of the device body 13 to measure the material volumes of the material storage chamber 2 and the quantitative chamber 9.

The material placing chamber 12 is a round table structure with a large upper part and a small lower part.

Top cap 1 is by fixing at the sampler top through the hinge, is made by the glass material, can cover sampler upper portion tightly, prevents to empty the material spill in the back storage compartment 2.

The feeding guide rod 3 and the discharging guide rod 6 are made of stainless steel materials, one end of the feeding guide rod 3 and one end of the discharging guide rod 6 are respectively connected with the feeding plug 7 and the discharging plug 10, the other end of the feeding guide rod 3 and the other end of the discharging guide rod 6 respectively penetrate through the outer wall of the device body through sealing rings, and are connected with the gang switch 5 through a right-angle transmission joint and a plurality of telescopic rods which can be fixed after being stretched, and are linked up and down through the gang switch 5.

The linkage guide rail 4 is composed of a plurality of telescopic sections, can be fixed after being stretched and can be synchronously stretched with the quantitative chamber 9.

The linkage switch 5 is arranged on the linkage guide rail 4, is composed of an upper section of threaded rod and a lower section of threaded rod with adjustable length, can adjust the positions of the feeding plug and the discharging plug, and is connected with the feeding guide rod 3 and the discharging guide rod 6 through a telescopic rod and a right-angle transmission joint which can be fixed after being stretched.

The feeding plug 7 and the discharging plug 10 are made of wear-resistant rubber materials.

The utility model discloses a theory of operation does:

1. the synchronous telescopic quantitative chamber 9 and the linkage guide rail 4 drive the feeding disc 8 and the discharging disc 11 to move up and down, and the single sampling volume is determined;

2. the linkage switch 5 is pushed, so that the feeding plug 7 seals a feeding hole on the feeding disc 8, and the discharging plug 10 opens a discharging hole on the discharging disc 11;

3. opening the top cover 1, adding a certain amount of solid particles or liquid materials into the material storage chamber 2, and tightly covering the top cover 1;

4. pushing the linkage switch 5 to enable the feeding plug 7 to open a feeding hole in the feeding disc 8 and the discharging plug 10 to close a discharging hole in the discharging disc 11, and horizontally placing for a period of time to enable the materials to be filled in the quantitative chamber 9;

5. pushing the linked switch 5 to enable the feeding plug 7 to close the feeding hole on the feeding disc 8 and the discharging plug 10 to open the discharging hole on the discharging disc 11, discharging through the discharging chamber 12, and completing one-time sampling;

6. and (5) repeating the step 4 and the step 5 to realize quantitative sampling for multiple times.

The present invention is not limited to the above-described embodiments, but only to the preferred embodiments of the present invention, and the present invention is not limited thereto, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims

1. An adjustable quick quantitative sampler, which is characterized in that: the device comprises a device body (13), wherein the device body (13) is sequentially provided with a top cover (1), a storage chamber (2), a feeding disc (8), a quantifying chamber (9), a discharging disc (11) and a discharging chamber (12) from top to bottom, wherein the top cover can be opened and closed;

the feeding disc (8) and the discharging disc (11) are in seamless fit with the inner wall of the device body (13), and rubber rings are respectively arranged at the outer edges of the feeding disc (8) and the discharging disc (11);

the device body (13) is divided into a material storage chamber (2), a quantitative chamber (9) and a material discharge chamber (12) through a material feed disc (8) and a material discharge disc (11);

a linkage guide rail (4) is arranged on the side wall of the quantitative chamber (9); the quantitative chamber (9) is composed of a plurality of telescopic joints which can be fixed after being stretched, and the feed tray (8) and the discharge tray (11) are driven to move up and down during stretching;

a linkage switch (5) is arranged on the linkage guide rail (4);

the feeding disc (8) is provided with a feeding hole and a feeding plug (7), and the feeding plug (7) is used for opening and closing the feeding hole;

the discharging plate (11) is provided with a discharging hole and a discharging plug (10), and the discharging plug (10) is used for opening and closing the discharging hole;

one end of the feeding guide rod (3) is connected with the feeding plug (7), and the other end of the feeding guide rod penetrates through the outer wall of the device body (13) through a sealing ring and is connected with the upper end of the linkage switch (5) through a right-angle transmission joint and a plurality of telescopic rods which can be fixed after being stretched;

one end of the discharging guide rod (6) is connected with the discharging plug (10), and the other end of the discharging guide rod penetrates through the outer wall of the device body (13) through a sealing ring and is connected with the lower end of the linkage switch (5) through a right-angle transmission joint and a plurality of telescopic rods which can be fixed after being stretched;

the linkage switch (5) is composed of an upper section of threaded rod and a lower section of threaded rod with adjustable length, the positions of the feeding plug (7) and the discharging plug (10) can be adjusted, and the linkage switch (5) is used for controlling the positions of the feeding plug (7) and the discharging plug (10) to open and close the feeding disc (8) and the discharging disc (11);

the bottom of the discharging chamber (12) is open;

the device body (13) is marked with scales.

2. An adjustable rapid quantitative sampler according to claim 1, characterized in that: the top cover (1) is fixed on the top of the device body (13) through a hinge.

3. An adjustable rapid quantitative sampler according to claim 1, characterized in that: the linkage guide rail (4) is composed of a plurality of telescopic sections, can be fixed after being stretched and is synchronously stretched with the quantitative chamber (9).

4. An adjustable rapid quantitative sampler according to claim 1, characterized in that: the feeding plug (7) and the discharging plug (10) are made of wear-resistant rubber or polytetrafluoroethylene materials.