CN215910175U - Simulation butterfly high-level storage siphon type sampling device - Google Patents

Abstract

The utility model relates to the field of high-level sampling, in particular to a simulated butterfly high-level storage siphon type sampling device which is suitable for sampling operation of high-level storage solution; comprises a sampling part; the sampling part is provided with: a siphon device and an electromagnetic clamping device; the utility model is suitable for the sampling operation of the high-level warehouse, wherein the sampling part is movably arranged on the edge of the top of the liquid storage bin, a user controls the sampling part and the liquid storage bin to switch between a movable state and a fixed state through the electromagnetic clamping device, the stability of the sampling operation is facilitated, the siphon device can utilize the characteristics of the high-level warehouse of the liquid storage bin, and the pressure difference of the solution is utilized, so that the automatic sampling can be realized only by controlling the pressure when the sampling is started; and the siphon device can be closed only by controlling the pneumatic pump in the siphon device, and the siphon device is simple and convenient to operate.

Description

Simulation butterfly high-level storage siphon type sampling device

Technical Field

The utility model relates to the field of high-level sampling, in particular to a simulated butterfly high-level storage siphon type sampling device.

Background

The sampling device is mainly applied to partially sampling solutions, gases and solids to be detected; various complex practical situations are often encountered in the sampling process; for example: the sample to be sampled is located in an environment with abnormal temperature and humidity, the sample has toxic and volatile properties, and the sample to be sampled needs to be sampled after means such as impurity removal and the like; at present, a sampling device only has the most basic sampling function and cannot be deformed according to complex conditions;

patent numbers: the utility model of CN207396122U discloses a siphon sampling device, which is characterized in that the siphon sampling device comprises a U-shaped pipe, a funnel, an air cylinder, a valve and a buffer tank, wherein the funnel is sleeved on the pipe A of the U-shaped pipe; the pipe B of the U-shaped pipe is provided with an output end, and the output end is provided with a first valve; one side of the pipe B of the U-shaped pipe is connected with an observation branch, the observation branch is provided with a valve II, the input end of the buffer tank is connected with the output end of the valve II, the buffer tank is connected with the inflator, and the lower end of the buffer tank is connected with a valve III. In addition, the protection device added on the sampling tube can prevent the residual sample on the wall of the sampling tube from polluting the surface and the opening of the sampling tube, and has simple structure and convenient use;

research shows that the utility model realizes a novel sampling mode for samples by applying a bionic butterfly siphon principle and has the characteristics of simplicity and practicability; however, for the samples stored in the high warehouse, the sampling device still cannot realize the function of convenient sampling.

SUMMERY OF THE UTILITY MODEL

In view of the above problems, the present invention provides an emulated butterfly high-level storage siphon sampling device to solve the problems in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a simulation butterfly high-order storage hydrocone type sampling device, includes: the liquid storage bin is characterized by also comprising a sampling part; the sampling part is provided with: the siphon device is fixedly arranged on one side of the electromagnetic clamping device, and the electromagnetic clamping device is movably arranged on the top of the side surface of the liquid storage bin;

further, the electromagnetic clamping device includes: the electromagnetic clamping device comprises a main mounting plate, an electromagnetic device, an electromagnetic clamping plate and an electromagnetic movable plate; the electromagnetic device is characterized in that the total mounting plate is movably connected with the top of the liquid storage bin, the electromagnetic clamping plate is fixedly connected with the top plate of the total mounting plate, the electromagnetic movable plate is slidably mounted on the top plate of the total mounting plate, and the electromagnetic device is fixedly connected with the electromagnetic clamping plate.

Further, the electromagnetic device further comprises: the electromagnetic mounting device comprises an electromagnetic mounting sleeve, an electromagnetic coil, an electromagnetic rod and an electromagnetic source; the electromagnetic mounting sleeve is fixedly connected with the electromagnetic clamping plate, the electromagnetic coil and the electromagnetic rod are arranged in the electromagnetic mounting sleeve, and the electromagnetic source is fixed with the electromagnetic mounting sleeve and electrically connected with the electromagnetic coil.

Further, the electromagnetic device further comprises: the electromagnetic rod reset spring is elastically connected between the end part of the electromagnetic rod and the electromagnetic clamping plate.

Further, the siphon device includes: the siphon mounting rack, the siphon rotating shaft, the rotating shaft motor, the siphon, the return pipe and the pneumatic pump are arranged on the siphon mounting rack; the siphon mounting frame is fixed on one side of the main mounting plate, the siphon rotating shaft is rotatably connected with the siphon mounting frame, the rotating shaft motor is fixedly connected with the siphon mounting frame, and the output shaft is rotatably connected with the siphon rotating shaft; the siphon is wound on the siphon rotating shaft, one end of the siphon is communicated with the return pipe, and the other end of the siphon extends into the liquid storage bin; the liquid outlet of the return pipe is arranged outside the liquid storage bin, the horizontal height of the liquid outlet of the return pipe is lower than the liquid level in the liquid storage bin, and the pneumatic pump is arranged at the liquid outlet of the return pipe.

Further, the siphon device further comprises: sliding shaft, siphon assembly slider, sliding shaft fixed mounting is in the siphon mounting bracket, and for siphon pivot parallel arrangement, siphon assembly slider and sliding shaft sliding connection, be equipped with the mating holes on the siphon assembly slider, siphon and siphon assembly slider mating holes sliding fit.

Further, the siphon device further comprises: and the counterweight block is fixed at the liquid suction port of the siphon pipe and controls the siphon pipe to vertically descend.

Further, the electromagnetic device further comprises: a rolling mounting plate and a rolling wheel; one end of the rolling mounting plate is fixed with the electromagnetic clamping plate, and the main body is in sliding fit with a sliding hole formed in the electromagnetic movable plate; the rolling wheel is arranged on the rolling mounting plate in a rolling mode and is located between the electromagnetic clamping plate and the electromagnetic movable plate.

Furthermore, the electromagnetic device also comprises a movable plate return spring which is elastically connected between the electromagnetic movable plate and the side plate of the main mounting plate, so that the electromagnetic movable plate can be conveniently reset after the clamping action is finished.

Due to the adoption of the technical scheme, the utility model has the following advantages:

1. the utility model solves the problem of sampling the solution stored in the high-level warehouse by arranging the siphon device and the electromagnetic clamping device; in the sampling process, the butterfly mouth device is simulated, and the siphon principle is utilized; the solution is taken out without continuous power, and the operation is convenient only by controlling the pneumatic pump; in the sampling process, the stability of the whole device is realized through the electromagnetic clamping device.

2. This practicality has guaranteed that the siphon can not tangle together in ascending decurrent winding process through setting up sliding shaft, siphon assembly slider, has improved the security of operation.

3. This practicality rolls mounting panel, roll wheel for the integrated device can be comparatively convenient shift to the assigned position, has improved the application scope of integrated device.

Drawings

FIG. 1 is a three-dimensional schematic of the overall assembly structure of the present invention;

FIG. 2 is a three-dimensional schematic view of a sampling portion according to the present invention;

FIG. 3 is a top cross-sectional view of a sampling section of the present invention;

FIG. 4 is a side two-dimensional schematic view of the present invention;

fig. 5 is a schematic view of the assembly of the siphon device of the present invention.

The reference numbers: the liquid storage bin 1, the sampling part 2, the siphon device 21, the electromagnetic clamping device 22, the siphon mounting frame 211, the siphon rotating shaft 212, the rotating shaft motor 213, the siphon 214, the return pipe 215, the pneumatic pump 216, the siphon assembling slide block 217, the counterweight 218, the sliding shaft 219, the total mounting plate 221, the electromagnetic device 222, the electromagnetic clamping plate 223, the electromagnetic movable plate 224, the rolling mounting plate 225, the rolling wheel 226, the movable plate return spring 227, the electromagnetic mounting sleeve 2221, the electromagnetic coil 2222, the electromagnetic rod 2223, the electromagnetic source 2224, the electromagnetic rod return spring 2225, the liquid storage bin,

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. In the embodiments of the present invention, all other embodiments obtained by workers skilled in the art without any inventive work are within the scope of the present invention.

Referring to fig. 1 to 5, the present invention provides a technical solution:

the utility model provides a simulation butterfly high-order storage hydrocone type sampling device, includes: the liquid storage bin 1 is a high-level storage-shaped liquid storage bin, and the whole liquid level in the bin is still higher than the ground when the whole liquid level in the bin is lowest; it is characterized by also comprising a sampling part 2; the sampling portion 2 is provided with: the siphon device 21 is fixedly arranged on one side, facing to the liquid storage bin 1, of the electromagnetic clamping device 22, and the electromagnetic clamping device 22 is movably arranged on the top of the side surface of the liquid storage bin 1; the electromagnetic clamping device 22 is in two states, when sampling is not started, the whole electromagnetic clamping device 22 is arranged in a rolling mode, and a user can conveniently change sampling points; when sampling, the device is in a clamping state, so that the siphon device 21 can conveniently sample and keep balance.

In this embodiment, the electromagnetic clamping device 22 includes: a main mounting plate 221, an electromagnetic device 222, an electromagnetic clamping plate 223, an electromagnetic movable plate 224; total mounting panel 221 and stock solution storehouse 1 top swing joint, electromagnetism grip block 223 and total mounting panel 221 roof rigid coupling, electromagnetism activity board 224 slidable mounting is in total mounting panel 221 roof, electromagnetic means 222 and electromagnetism grip block 223 fixed connection control electromagnetism grip block 223, the relative distance between the electromagnetism activity board 224 through electromagnetic means 222, when two boards are close to and press from both sides tightly the department of stock solution storehouse 1 junction, electromagnetism clamping device 22 accomplishes fixedly to sample portion 2.

In this embodiment, the electromagnetic device 222 further includes: an electromagnetic mounting sleeve 2221, an electromagnetic coil 2222, an electromagnetic rod 2223, and an electromagnetic source 2224; the electromagnetic mounting sleeve 2221 is welded to the electromagnetic clamping plate 223, the electromagnetic coil 2222 and the electromagnetic rod 2223 are axially slidably mounted inside the electromagnetic mounting sleeve 2221, the electromagnetic source 2224 is fixed to the electromagnetic mounting sleeve 2221 and electrically connected to the electromagnetic coil 2222, and the electromagnetic source 2224 conducts electricity to the electromagnetic coil 2222, so that the electromagnetic rod 2223 generates magnetism and attracts the electromagnetic movable plate 224 to approach the electromagnetic clamping plate 223 to complete a clamping action.

In this embodiment, the electromagnetic device 222 further includes: bar 2225, bar 2225 elastic connection is between bar 2223 tip and electromagnetism grip block 223, and bar 2223 is attracted to being close to electromagnetism fly leaf 224 and is removed by magnetic force, bar 2225 can cushion when moving bar 2223, prevents that it from striking electromagnetism grip block 223 fast, and after the outage, resets bar 2223.

In this embodiment, the siphon device 21 includes: the siphon mounting frame 211, the siphon rotating shaft 212, the rotating shaft motor 213, the siphon 214, the return pipe 215 and the pneumatic pump 216; the siphon mounting frame 211 is connected to one side of the main mounting frame 221 in a clamping manner, the siphon rotating shaft 212 is rotatably connected with the siphon mounting frame 211 through a bearing, the rotating shaft motor 213 is fixedly connected with the siphon mounting frame 211, and an output shaft penetrates through a side plate of the siphon mounting frame 211 and is fixedly connected with the axis of the siphon rotating shaft 212; the siphon tube 214 is wound on the siphon tube rotating shaft 212, one end of the siphon tube is communicated with the return pipe 215, and the other end of the siphon tube extends into the liquid storage bin 1; the liquid outlet of the return pipe 215 is arranged outside the liquid storage bin 1, the horizontal height of the liquid outlet of the return pipe 215 is lower than the liquid level in the liquid storage bin 1, the pneumatic pump 216 is arranged at the liquid outlet of the return pipe 215, the air pressure in the siphon tube 214 is controlled by the pneumatic pump 216, the sampling solution is sucked into the siphon tube 214 from the liquid storage bin 1 and flows into the return pipe 215 through the siphon tube 214, at the moment, the pneumatic pump 216 is turned off, the sampling solution flows out under the action of self gravity, and the self gravity and the atmospheric pressure of the solution in the liquid storage bin 1 are always higher than the pressure of the liquid outlet of the return pipe 215, so that the sampling solution can continuously flow out to a prepared sampling container.

In another preferred embodiment, the siphon device 21 further comprises: slide axis 219, siphon assembly slider 217, slide axis 219 fixed mounting is in siphon mounting bracket 211, and for siphon pivot 212 parallel arrangement, siphon assembly slider 217 and slide axis 219 sliding connection, be equipped with the mating holes on the siphon assembly slider 217, siphon 214 and siphon assembly slider 217 mating holes sliding fit, when siphon 214 stretches into downwards through pivot motor 213, siphon assembly slider 217 can be along slide axis 219 axial slip, prevents that siphon 214 intertwine from producing the hub knot.

In another preferred embodiment, the siphon device 21 further comprises: and the counterweight 218 is fixed at the liquid suction port of the siphon tube 214, and controls the siphon tube 214 to vertically descend into the liquid storage bin 1.

In another preferred embodiment, the electromagnetic device 222 further comprises: a rolling mounting plate 225, a rolling wheel 226; one end of the rolling mounting plate 225 is fixed with the electromagnetic clamping plate 223, and the main body is in sliding fit with a sliding hole arranged on the electromagnetic movable plate 224; the rolling wheel 226 is installed on the rolling installation plate 225 in a rolling manner and is located between the electromagnetic clamping plate 223 and the electromagnetic movable plate 224, so that the movement of the sampling part 2 on the liquid storage bin 1 can be controlled conveniently to reach a required sampling position.

In another preferred embodiment, the electromagnetic device 222 further includes a movable plate return spring 227, and the movable plate return spring 227 is elastically connected between the electromagnetic movable plate 224 and the side plate of the main mounting plate 221, so as to facilitate the return of the electromagnetic movable plate 224 after the clamping operation is finished.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides a simulation butterfly high-order storage hydrocone type sampling device, includes: the liquid storage bin (1) is characterized by also comprising a sampling part (2); the sampling part (2) is provided with: the device comprises a siphon device (21) and an electromagnetic clamping device (22), wherein the siphon device (21) is fixedly arranged on one side of the electromagnetic clamping device (22), and the electromagnetic clamping device (22) is movably arranged on the top of the side surface of the liquid storage bin (1).

2. The simulated butterfly high-bay siphonic sampling device according to claim 1, wherein the electromagnetic clamping device (22) comprises: the device comprises a main mounting plate (221), an electromagnetic device (222), an electromagnetic clamping plate (223) and an electromagnetic movable plate (224); total mounting panel (221) and stock solution storehouse (1) top swing joint, electromagnetism grip block (223) and total mounting panel (221) roof rigid coupling, electromagnetism fly leaf (224) slidable mounting is in total mounting panel (221) roof, electromagnetic means (222) and electromagnetism grip block (223) fixed connection.

3. The simulated butterfly high-level storage siphon-type sampling device according to claim 2, characterized in that said electromagnetic device (222) further comprises: the electromagnetic mounting device comprises an electromagnetic mounting sleeve (2221), an electromagnetic coil (2222), an electromagnetic rod (2223) and an electromagnetic source (2224); the electromagnetic mounting sleeve (2221) is fixedly connected with the electromagnetic clamping plate (223), the electromagnetic coil (2222) and the electromagnetic rod (2223) are arranged inside the electromagnetic mounting sleeve (2221), and the electromagnetic source (2224) is fixed with the electromagnetic mounting sleeve (2221) and is electrically connected with the electromagnetic coil (2222).

4. The simulated butterfly high-level storage siphon-type sampling device according to claim 2, characterized in that said electromagnetic device (222) further comprises: the electromagnetic bar reset spring (2225) is elastically connected between the end part of the electromagnetic bar (2223) and the electromagnetic clamping plate (223).

5. An emulated butterfly high-level storage siphon sampling device according to claim 1, characterized in that said siphon device (21) comprises: the siphon mounting structure comprises a siphon mounting frame (211), a siphon rotating shaft (212), a rotating shaft motor (213), a siphon (214), a return pipe (215) and a pneumatic pump (216); the siphon mounting rack (211) is fixed on one side of the main mounting board (221), the siphon rotating shaft (212) is rotatably connected with the siphon mounting rack (211), the rotating shaft motor (213) is fixedly connected with the siphon mounting rack (211), and an output shaft is rotatably connected with the siphon rotating shaft (212); the siphon (214) is wound on the siphon rotating shaft (212), one end of the siphon is communicated with the return pipe (215), and the other end of the siphon extends into the liquid storage bin (1); the liquid outlet of the return pipe (215) is arranged outside the liquid storage bin (1), the level of the liquid outlet of the return pipe (215) is lower than the liquid level in the liquid storage bin (1), and the pneumatic pump (216) is arranged at the liquid outlet of the return pipe (215).

6. The simulated butterfly high-level storage siphon-type sampling device according to claim 5, characterized in that said siphon device (21) further comprises: sliding shaft (219), siphon assembly slider (217), sliding shaft (219) fixed mounting in siphon mounting bracket (211), and for siphon pivot (212) parallel arrangement, siphon assembly slider (217) and sliding shaft (219) sliding connection, be equipped with the mating holes on siphon assembly slider (217), siphon (214) and siphon assembly slider (217) mating holes sliding fit.

7. The simulated butterfly high-level storage siphon-type sampling device according to claim 5, characterized in that said siphon device (21) further comprises: the balancing weight (218), the balancing weight (218) is fixed in the siphon (214) imbibition mouth, controls the siphon (214) and descends perpendicularly.

8. The simulated butterfly high-level storage siphon-type sampling device according to claim 2, characterized in that said electromagnetic device (222) further comprises: a rolling mounting plate (225), a rolling wheel (226); one end of the rolling mounting plate (225) is fixed with the electromagnetic clamping plate (223), and the main body is in sliding fit with a sliding hole formed in the electromagnetic movable plate (224); the rolling wheel (226) is installed on the rolling installation plate (225) in a rolling mode and is located between the electromagnetic clamping plate (223) and the electromagnetic movable plate (224).

9. The butterfly-simulated high-level storage siphon sampling device according to claim 2, wherein the electromagnetic device (222) further comprises a movable plate return spring (227), and the movable plate return spring (227) is elastically connected between the electromagnetic movable plate (224) and a side plate of the main mounting plate (221).

Images