CN219245117U - Automatic water sampling equipment capable of timing floating - Google Patents

Abstract

The utility model discloses a timing floating type automatic water sampling device which comprises a supporting mechanism, wherein a rotating mechanism is arranged on one side of the supporting mechanism, a sampling mechanism is arranged on one side of the rotating mechanism, which is far away from the supporting mechanism, the sampling mechanism comprises a sampling pipe, a water inlet, a one-way valve and a connector, the water inlet is arranged on the sampling pipe, the one-way valve is arranged at one end of the sampling pipe, which is close to the water inlet, and the connector is arranged at one end of the sampling pipe, which is close to the water inlet.

Description

Automatic water sampling equipment capable of timing floating

Technical Field

The utility model relates to the technical field of water sampling, in particular to automatic water sampling equipment capable of achieving timing floating.

Background

In short, water is a life source, people cannot leave water in life and production activities, and the quality of drinking water is closely related to human health. The water source is sampled, and then water quality detection and analysis are carried out, so that the safety of water is ensured, and the protection of the water source environment is improved.

However, existing water sampling devices have some drawbacks in use, as follows:

1. when the sample is collected, water sample collection is mostly carried out manually, the collection efficiency is low, the collection range is small, and the sample is collected in a water source such as a lake or a river at regular time, so that the sample collection is inconvenient to use;

2. when installing and dismantling the sampling tube, the installation and dismantling operation is tedious and laborious and time-consuming, inconvenient operation.

Disclosure of Invention

The utility model aims to provide the automatic water sampling equipment capable of being floated at regular time, so as to solve the problems that the existing water sampling equipment provided in the background art is low in collection efficiency, small in collection range, inconvenient to use, complex in installation and disassembly operations, laborious and time-consuming, and inconvenient to operate when floating in water sources such as lakes or rivers at regular time.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a can float formula automatic water sampling equipment regularly, includes supporting mechanism, slewing mechanism is installed to one side of supporting mechanism, slewing mechanism keeps away from one side of supporting mechanism installs sampling mechanism, sampling mechanism includes sampling tube, water inlet, check valve and connector, the water inlet is seted up on the sampling tube, the check valve is installed the sampling tube is close to the one end of water inlet, the connector sets up the sampling tube is close to the one end of water inlet.

Further, the number of the water inlets is four, the four water inlets are symmetrically arranged on the sampling pipes at equal intervals, the number of the sampling pipes is the same as the number of the connectors, internal threads are arranged in the connectors, the connectors are made of any one of PC, PVDF, PP, PTFE and other plastic materials, and the connectors are made of the same material as the sampling pipes.

Further, the slewing mechanism comprises a slewing lever, a mounting block, a connecting gear and a sealing block, wherein the connecting gear is mounted at one end of the slewing lever, the mounting block is mounted on the slewing lever, the connecting block is mounted at one side of the mounting block away from the slewing lever, the sealing block is bonded at one end of the slewing lever, which is close to the connecting gear, the number of the connecting blocks is the same as that of the sampling pipes, external threads are formed on the connecting blocks, and the connecting blocks are in threaded connection with the connecting heads.

Further, the rotating rod is provided with grooves, two mounting blocks are arranged in the grooves of the rotating rod, and the connecting blocks are uniformly equidistant and symmetrically and vertically arranged on the mounting blocks.

Further, the supporting mechanism comprises a floating mechanism, a sealing box, a driving mechanism, a power supply mechanism and a reduction gear set, wherein one side of the floating mechanism is installed on the sealing box, the driving mechanism is installed inside the sealing box, the power supply mechanism is installed on one side, close to the driving mechanism, of the sealing box, and the reduction gear set is installed inside the sealing box, close to the driving mechanism.

Further, the connecting gear is meshed with the reduction gear set, the reduction gear set is meshed with the gear of the driving mechanism, the rotating rod is perpendicular to one side of the sealing box, and the rotating rod is connected with the sealing box in a rotating mode through a bearing.

Further, the driving mechanism is a servo motor, the power supply mechanism is used for providing power for the driving mechanism, the power supply mechanism is a lithium battery, the floating mechanism is hollow, the floating mechanism is of a conical plastic structure, and the floating mechanism is used for providing buoyancy for the sealing box.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The utility model can float in water sources such as lakes or rivers to collect at regular time through being provided with the supporting mechanism, the rotating mechanism and the sampling mechanism, and can improve the water sample collecting efficiency, enlarge the water sample collecting range, facilitate the use, provide buoyancy for the sealed box through the floating mechanism, cooperate with the rotating rod, make the sampling tube sample in the water source, supply power for the driving mechanism through the power mechanism, cooperate with the reduction gear set and the connecting gear, drive the rotating rod to transport and rotate slowly, cooperate with the check valve and the water inlet, can collect the water source at regular time, increase the water source sample collecting range, provide the working efficiency of the water sample collecting, thus solve the problem that the collecting efficiency is low, the collecting range is small, and float in water sources such as lakes or rivers to collect at regular time, inconvenient use;

(2) According to the utility model, through the arrangement of the rotating mechanism and the sampling mechanism, the mounting and dismounting operation steps of the sampling tube can be simplified, the operation is simple and labor-saving, the use is convenient, the sampling tube is reliably fixed on the rotating rod through the threaded connection of the connector and the connecting block and the mounting block, the sampling tube is matched with the one-way valve and the water inlet, the sampling operation is convenient, the operation is simple, the labor is saved and the convenience is realized, and the problems of complex mounting and dismounting operation, labor and time waste and inconvenience in operation are solved.

Drawings

FIG. 1 is a schematic diagram of a structure according to an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional view of the support mechanism and the rotation mechanism of the embodiment of FIG. 1;

FIG. 3 is a schematic front view of the sampling mechanism in the embodiment of FIG. 1;

fig. 4 is a schematic diagram of a right side front view structure in the embodiment of fig. 1.

Reference numerals illustrate: 1, a supporting mechanism; 101 a floatation mechanism; 102, sealing the box; 103 a driving mechanism; 104 a power supply mechanism; 105 a reduction gear set; 2, a rotating mechanism; 201 rotating the lever; 202 mounting blocks; 203 connecting blocks; 204 connecting gears; 205 sealing blocks; 3, a sampling mechanism; 301 a sampling tube; 302 water inlet; 303 a one-way valve; 304 connectors.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1, 2, 3 and 4, a timing floating type automatic water sampling device includes a supporting mechanism 1, a floating mechanism 101, a sealing box 102, a driving mechanism 103, a power supply mechanism 104, a reduction gear set 105, a rotating mechanism 2, a rotating rod 201, a mounting block 202, a connecting block 203, a connecting gear 204, a sealing block 205, a sampling mechanism 3, a sampling tube 301, a water inlet 302, a one-way valve 303 and a connecting head 304, specifically, as shown in fig. 1 and 2, the timing floating type automatic water sampling device includes a supporting mechanism 1, a rotating mechanism 2 is mounted on one side of the supporting mechanism 1, a sampling mechanism 3 is mounted on one side of the rotating mechanism 2 away from the supporting mechanism 1, the sampling mechanism 3 includes a sampling tube 301, a water inlet 302, a one-way valve 303 and a connecting head 304, the water inlet 302 is offered on sampling tube 301, the one end that is close to water inlet 302 at sampling tube 301 is installed to check valve 303, connector 304 sets up the one end that is close to water inlet 302 at sampling tube 301, power supply unit 103 is supplied with power through power supply unit 104, cooperation reduction gear train 105 and connecting gear 204, drive dwang 201 slow transportation rotation, cooperation check valve 303 and water inlet 302 can regularly carry out sample collection to the water source, increase the scope of water source sample collection, provide the work efficiency of water sample collection, thereby solve collection inefficiency, collection scope is little, and float and gather at regular time in water sources such as lake or river, inconvenient problem of using.

In order to be convenient for lighten the weight of structure, conveniently carry to provide collection efficiency, the quantity of water inlet 302 has four, and four water inlet 302 equidistance symmetry are seted up on sampling tube 301, and sampling tube 301 quantity is the same with the quantity of connector 304, and the internal thread has been seted up to the inside of connector 304, and the material of connector 304 is any one of PC, PVDF, PP, PTFE etc. plastics material, and the material of connector 304 is the same with the material of sampling tube 301.

In order to facilitate rotation of the sampling tube 301 and provide a firm and reliable fixed foundation for the sampling tube 301, the rotating mechanism 2 comprises a rotating rod 201, a mounting block 202, a connecting block 203, a connecting gear 204 and a sealing block 205, the connecting gear 204 is mounted at one end of the rotating rod 201, the mounting block 202 is mounted on the rotating rod 201, the connecting block 203 is mounted at one side, far away from the rotating rod 201, of the mounting block 202, the sealing block 205 is bonded at one end, close to the connecting gear 204, of the rotating rod 201, the number of the connecting blocks 203 is the same as that of the sampling tubes 301, external threads are formed on the connecting block 203, the connecting block 203 is in threaded connection with the connecting head 304, the sampling tube 301 mounted on the connecting block 203 is driven by the rotating rod 201 to slowly rotate at a uniform speed, the sampling tube 301 can be timely fed into a water source to be sampled, and the operation is convenient.

In order to facilitate the installation and the disassembly of the sampling tube 301, the rotating rod 201 is provided with grooves, the number of the installation blocks 202 is two, the two installation blocks 202 are installed in the grooves of the rotating rod 201, the connecting blocks 203 are evenly equidistant and symmetrically and vertically installed on the installation blocks 202, a reliable fixed foundation is provided for the connecting blocks 203 through the installation blocks 202, and the operation is stable and firm and convenient.

In order to provide reliable supporting structure and floating structure, supporting mechanism 1 includes floating mechanism 101, seal box 102, actuating mechanism 103, power supply mechanism 104 and reduction gear group 105, and one side of floating mechanism 101 is installed on seal box 102, and actuating mechanism 103 installs inside seal box 102, and power supply mechanism 104 installs in the one side that seal box 102 is close to actuating mechanism 103, and reduction gear group 105 installs in the inside that seal box 102 is close to actuating mechanism 103, lets seal box 102 float on the surface of water through floating mechanism 101, cooperates dwang 201, forms stable structure system, and convenient collection operation is developed.

In order to provide a reliable connection structure, the sampling mechanism 3 is convenient to sample at regular time, the connecting gear 204 is meshed with the reduction gear set 105, the reduction gear set 105 is meshed with the gear of the driving mechanism 103, the rotating rod 201 is perpendicular to one side of the sealing box 102, the rotating rod 201 is rotationally connected with the sealing box 102 through a bearing, a sealing ring is arranged at the joint of the rotating rod 201 and the sealing box 102, the sealing performance of the structure is improved, and water inflow in the structure is prevented.

In order to provide reliable working power, the driving mechanism 103 is a servo motor, the power supply mechanism 104 is used for providing power for the driving mechanism 103, the power supply mechanism 104 is a lithium battery, the inside of the floating mechanism 101 is hollow, the floating mechanism 101 is of a conical plastic structure, the floating mechanism 101 is used for providing buoyancy for the sealing box 102, the power supply mechanism 104 and the driving mechanism 103 have waterproof protection measures in the sealing box 102, reliable driving force is provided through the driving mechanism 103, and the collection operation is convenient to carry out reliably.

In summary, when the automatic water sampling device capable of floating at regular time provided by the utility model works, firstly, the floating mechanism 101 is tethered by the rope, then the power supply mechanism 104 supplies power to the driving mechanism 103, the rotation speed of the driving mechanism 103 is regulated, the rotation of the rotating rod 201 is driven by combining the reduction gear set 105 and the connecting gear 204, the water sample collecting time is set by the rotation speed of the rotating rod 201, then the sampling tube 301 is installed on the connecting block 203 on the installing block 202 by the connecting head 304, the sampling tube 301 is fixed on the rotating rod 201 by the installing block 202, then the supporting mechanism 1, the rotating mechanism 2 and the sampling mechanism 3 are placed in water sources such as lakes or rivers, one end of the rope is fixed on the shore, the set time is reached, the sampling tube 301 on the rotating rod 201 is rotated to a position vertical to the water surface, the water source flows to the one-way valve 303 by the water inlet 302, the one-way valve 303 is opened by the water flow pressure, the water flow enters the sampling tube 301, the water sample collecting is completed, then the rotating rod 201 continues to sample collecting the sampling tube 301, after the completion, the sampling tube 301 continues to sample collecting operation, and after the completion, the water sample collecting operation is completed by the rope, the supporting mechanism 1 is put back from the water sample collecting device 203, the water sample collecting operation is convenient to use, and the connection block is convenient to collect.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The automatic water sampling device capable of being floated regularly comprises a supporting mechanism (1), wherein a rotating mechanism (2) is arranged on one side of the supporting mechanism (1);

the sampling device is characterized in that a sampling mechanism (3) is arranged on one side, far away from the supporting mechanism (1), of the rotating mechanism (2), the sampling mechanism (3) comprises a sampling tube (301), a water inlet (302), a one-way valve (303) and a connector (304), the water inlet (302) is formed in the sampling tube (301), the one-way valve (303) is arranged at one end, close to the water inlet (302), of the sampling tube (301), and the connector (304) is arranged at one end, close to the water inlet (302), of the sampling tube (301).

2. The automatic water sampling device capable of achieving timing floating according to claim 1, wherein the number of the water inlets (302) is four, the four water inlets (302) are symmetrically arranged on the sampling tube (301) at equal intervals, the number of the sampling tubes (301) is the same as the number of the connectors (304), internal threads are arranged inside the connectors (304), the connectors (304) are made of any one of PC, PVDF, PP and PTFE plastic materials, and the connectors (304) are made of the same material as the sampling tubes (301).

3. The automatic water sampling device capable of being floated regularly according to claim 1, wherein the rotating mechanism (2) comprises a rotating rod (201), a mounting block (202), a connecting block (203), a connecting gear (204) and a sealing block (205), the connecting gear (204) is mounted at one end of the rotating rod (201), the mounting block (202) is mounted on the rotating rod (201), the connecting block (203) is mounted at one side, far away from the rotating rod (201), of the mounting block (202), the sealing block (205) is bonded at one end, close to the connecting gear (204), of the rotating rod (201), the number of the connecting blocks (203) is the same as that of the sampling pipes (301), external threads are formed on the connecting blocks (203), and the connecting blocks (203) are in threaded connection with the connecting heads (304).

4. A timing floating type automatic water sampling device according to claim 3, characterized in that the rotating rod (201) is provided with grooves, the number of the mounting blocks (202) is two, the two mounting blocks (202) are mounted in the grooves of the rotating rod (201), and the connecting blocks (203) are uniformly equidistant and symmetrically and vertically mounted on the mounting blocks (202).

5. A time-suspendable automatic water sampling apparatus as claimed in claim 3, wherein the supporting mechanism (1) comprises a floating mechanism (101), a sealing box (102), a driving mechanism (103), a power supply mechanism (104) and a reduction gear set (105), one side of the floating mechanism (101) is mounted on the sealing box (102), the driving mechanism (103) is mounted inside the sealing box (102), the power supply mechanism (104) is mounted on one side of the sealing box (102) close to the driving mechanism (103), and the reduction gear set (105) is mounted inside the sealing box (102) close to the driving mechanism (103).

6. The automatic water sampling device capable of being floated regularly according to claim 5, characterized in that the connecting gear (204) is meshed with the reduction gear set (105), the reduction gear set (105) is meshed with the gear of the driving mechanism (103), the rotating rod (201) is perpendicular to one side of the sealing box (102), and the rotating rod (201) is connected with the sealing box (102) in a rotating way through a bearing.

7. The automatic water sampling device capable of being floated regularly according to claim 5, wherein the driving mechanism (103) is a servo motor, the power supply mechanism (104) is used for providing power for the driving mechanism (103), the power supply mechanism (104) is a lithium battery, the floating mechanism (101) is hollow inside, the floating mechanism (101) is of a conical plastic structure, and the floating mechanism (101) is used for providing buoyancy for the sealing box (102).

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