CN116659965B - Water quality testing and sampling device for water environment treatment - Google Patents

Abstract

The application discloses a water quality testing and sampling device for water environment treatment, which comprises a supporting component, wherein the supporting component comprises a supporting seat, a fixing frame, a rolling piece, a sampling tube, a supporting piece and a filtering cover, the fixing frame is fixed at the top of the supporting seat, the rolling piece is rotationally connected in the fixing frame, the sampling tube is arranged at the outer side of the rolling piece, the supporting piece is fixed at the top of the supporting seat, and the filtering cover is communicated with one end of the sampling tube; the adjusting assembly is arranged at the top of the supporting seat and comprises a stand column, a first adjusting piece, a transmission piece, a cross rod and a second adjusting piece, wherein the stand column is fixed at the top of the supporting seat, and the first adjusting piece is arranged on the stand column. The application has the beneficial effects that: through adjusting the setting of subassembly, can adjust the degree of depth and the income water distance of pipeline income water when taking a sample to can take a sample and detect the quality of water of different water layers, with this convenience that has improved the quality of water sample.

Description

Water quality testing and sampling device for water environment treatment

Technical Field

The application relates to the technical field of water quality detection, in particular to a water quality testing and sampling device for water environment treatment.

Background

The water quality test of water environment treatment refers to analysis of chemical, biological and physical aspects of a water sample treated by water treatment equipment so as to evaluate whether the water quality meets the national and local related standard requirements. Common water quality test projects comprise indexes such as pH value, dissolved oxygen, chemical Oxygen Demand (COD), total Organic Carbon (TOC), total nitrogen, ammonia nitrogen, total phosphorus and the like, and the indexes can reflect the pH value, oxygen content and pollution degree of organic matters and inorganic matters of water, so that scientific basis is provided for water environment treatment.

The water quality test sampling facility in the prior art generally samples and monitors water quality in a water pump, a water pipe or a water scooping mode by a container, the water quality test sampling facility is difficult to collect water with a desired depth or long-distance water in the outdoor water quality collection process, the sampling facility cannot be adjusted according to actual water quality collection requirements, and inconvenience is brought to water quality detection.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

The present application has been made in view of the above-mentioned and/or existing problems with water quality testing sampling devices for water environmental treatments.

Therefore, the problem to be solved by the application is that in the water quality test sampling facility in the prior art, the water quality is generally sampled and monitored by a water pump, a water pipe or a container for scooping water, the water with a desired depth or long-distance water is difficult to collect when the water quality is collected outdoors, the sampling facility cannot be adjusted according to the actual water quality collection requirement, and the water quality test is inconvenient.

In order to solve the technical problems, the application provides the following technical scheme: the utility model provides a water quality testing sampling device for water environment treatment, its includes, supporting component, including supporting seat, mount, rolling piece, sampling tube, support piece and filter mantle, the mount is fixed in the supporting seat top, the rolling piece rotate connect in the mount, the sampling tube set up in the rolling piece outside, the support piece is fixed in the supporting seat top, the filter mantle communicates in sampling tube one end;

the adjusting assembly is arranged at the top of the supporting seat and comprises a stand column, a first adjusting piece, a transmission piece, a cross rod and a second adjusting piece, wherein the stand column is fixed at the top of the supporting seat, the first adjusting piece is arranged on the stand column, the transmission piece is fixed on the side face of the stand column, the cross rod is fixed on one side of the first adjusting piece, and the second adjusting piece is movably connected in the cross rod.

As a preferable scheme of the water quality testing and sampling device for water environment treatment, the application comprises the following steps: the winding piece comprises a winding roller and a rotating handle, the winding roller is rotationally connected in the fixing frame, the rotating handle is fixed at the end part of the winding roller, and the sampling tube is positioned at the outer side of the winding roller.

As a preferable scheme of the water quality testing and sampling device for water environment treatment, the application comprises the following steps: the support piece comprises a support column and a roller, wherein the support column is fixed on the side face of the first adjusting piece, and the roller is rotationally connected in the support column.

As a preferable scheme of the water quality testing and sampling device for water environment treatment, the application comprises the following steps: the first adjusting piece comprises a fixed block, a locating sleeve, a transmission column, a first gear, a movable column, first teeth, second teeth and a first toothed plate, wherein the fixed block is fixed on one side of the upright column, the locating sleeve is fixed on one end of the fixed block, the transmission column is fixed in the locating sleeve, the first gear is fixed on the outer side of the transmission column, the movable column is movably connected in the transmission column, the first teeth are fixed on the outer side of the movable column, the second teeth are fixed on the inner side of the transmission column, the first toothed plate is movably connected in the upright column, a through groove is formed in one side of the upright column, and the first gear is positioned in the through groove and meshed with the first toothed plate.

As a preferable scheme of the water quality testing and sampling device for water environment treatment, the application comprises the following steps: the first regulating part further comprises a fixed column, a connecting seat, a first limiting tooth, a second limiting tooth, a movable sleeve, a third limiting tooth and a sliding block, wherein the fixed column is movably connected in the transmission column, the connecting seat is fixed on one side of the fixed column, the first limiting tooth and the second limiting tooth are both positioned at the bottom of the connecting seat, the movable sleeve is fixed on the outer side of the movable column, the third limiting tooth is fixed on the movable column, and the sliding block is fixed on the bottom of the fixed column.

As a preferable scheme of the water quality testing and sampling device for water environment treatment, the application comprises the following steps: the first adjusting piece further comprises a positioning block and a first spring, the positioning block rotates at one end of the movable column, the first spring is fixed on one side of the positioning block, and the other end of the first spring is fixed with the inner wall of the transmission column.

As a preferable scheme of the water quality testing and sampling device for water environment treatment, the application comprises the following steps: the first adjusting piece further comprises a second spring, a limiting column and a positioning tube, wherein the second spring is arranged in the movable column, the limiting column is fixed at the top end of the second spring, and the positioning tube is located outside the movable column.

As a preferable scheme of the water quality testing and sampling device for water environment treatment, the application comprises the following steps: the transmission piece comprises a supporting rod, a fixing rod, a supporting plate, a positioning seat, a limiting sleeve, a connecting sleeve, a first bevel gear, a connecting pipe, a third tooth, a fourth tooth and a second bevel gear, wherein the supporting rod is fixed at the top of the supporting seat, the fixing rod is fixed at one side of the supporting rod, the supporting plate is fixed at one side of the first tooth plate, the positioning seat is arranged at the outer side of the fixing rod, the limiting sleeve slides at the outer side of the fixing rod, the outer side of the limiting sleeve is rotationally connected with the inner side of the positioning seat, the connecting sleeve is fixed at the outer side of the positioning seat, the first bevel gear is positioned at the bottom end of the fixing rod, the connecting pipe is positioned at one side of the transmission column, the third tooth is fixed at the outer side of the movable column, the fourth tooth is fixed at the inner side of the connecting pipe, the second bevel gear is fixed at the outer side of the connecting pipe, and one end of the positioning pipe is rotationally connected with the end of the connecting pipe.

As a preferable scheme of the water quality testing and sampling device for water environment treatment, the application comprises the following steps: the transmission piece further comprises a supporting block and a fixing sleeve, wherein the supporting block is fixed on one side of the upright post, the fixing sleeve is rotationally connected to the outer side of the connecting pipe, and the fixing sleeve is fixed on one side of the supporting block.

As a preferable scheme of the water quality testing and sampling device for water environment treatment, the application comprises the following steps: the second regulating part comprises a first fluted disc, a driven shaft, a second fluted disc, a second gear and a second toothed plate, wherein the first fluted disc is fixed on the outer side of the connecting sleeve, the driven shaft is rotationally connected with the supporting plate, the second fluted disc is fixed on the outer side of the driven shaft, the second gear is fixed on the top end of the driven shaft, the second toothed plate slides in the cross rod, a sliding groove is formed in one side of the cross rod, and the outer side of the second gear is positioned in the sliding groove and meshed with the second toothed plate.

The application has the beneficial effects that: through adjusting the setting of subassembly, can adjust the degree of depth and the income water distance of pipeline income water when taking a sample to can take a sample and detect the quality of water of different water layers, with this convenience that has improved the quality of water sample.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

FIG. 1 is a block diagram of a water quality testing sampling device for water environmental treatment.

FIG. 2 is a diagram showing the connection structure of the support rod, the fixing rod and the support plate of the water quality testing and sampling device for water environment treatment.

FIG. 3 is a block diagram of the connection of a spacing column and a positioning tube of a water quality testing and sampling device for water environment treatment.

FIG. 4 is a cross-sectional view of a drive column and a movable column of a water quality testing sampling device for water environmental treatment.

FIG. 5 is an enlarged view of FIG. 4A of a water quality testing and sampling device for water environmental treatment.

FIG. 6 is an enlarged view of FIG. 4 at B of the water quality testing and sampling device for water environmental treatment.

FIG. 7 is an enlarged view of FIG. 4C of a water quality testing sampling device for water environmental treatment.

FIG. 8 is a partial cross-sectional view of a drive column of a water quality testing and sampling device for water environmental treatment.

FIG. 9 is an enlarged view of FIG. 8D of a water quality testing sampling device for water environmental treatment.

Detailed Description

In order that the above-recited objects, features and advantages of the present application will become more readily apparent, a more particular description of the application will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application, but the present application may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present application is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the application. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 to 5, in a first embodiment of the present application, a water quality testing and sampling device for water environment treatment is provided, and the water quality testing and sampling device for water environment treatment includes a support assembly 100 and an adjusting assembly 200, which are matched to facilitate sampling of water quality of different water layers, so as to solve the problem that it is difficult to sample different water layers according to actual requirements during sampling.

Specifically, the support assembly 100 comprises a support base 101, a fixing frame 102, a winding piece 103, a sampling tube 104, a support piece 105 and a filter cover 106, wherein the fixing frame 102 is fixed at the top of the support base 101, the winding piece 103 is rotationally connected in the fixing frame 102, the sampling tube 104 is arranged at the outer side of the winding piece 103, the support piece 105 is fixed at the top of the support base 101, and the filter cover 106 is communicated with one end of the sampling tube 104.

The supporting seat 101 is the rectangle, it is used for fixing mount 102 and adjusting part 200, thereby make adjusting part 200 keep stable when removing, be used for fixing rolling piece 103 through mount 102, thereby roll sampling tube 104, be used for supporting sampling tube 104 through support piece 105, thereby prevent that sampling tube 104 from appearing buckling when extending and being unfavorable for the condition of water flow transmission from appearing, through filter housing 106, be used for sampling tube 104 to filter debris in the quality of water when carrying water, convenience for the people debris causes the jam to sampling tube 104.

Specifically, the adjusting assembly 200 is disposed at the top of the supporting seat 101, and includes a stand 201, a first adjusting member 202, a transmission member 203, a cross rod 204 and a second adjusting member 205, where the stand 201 is fixed at the top of the supporting seat 101, the first adjusting member 202 is disposed on the stand 201, the transmission member 203 is fixed on a side of the stand 201, the cross rod 204 is fixed on one side of the first adjusting member 202, and the second adjusting member 205 is movably connected in the cross rod 204.

The stand 201 is used for fixing first regulating part 202, when the height to sampling tube 104 is adjusted, reduces sampling tube 104 height through rotating first regulating part 202 to this can take a sample quality of water, when needs are prolonged to the distance to sampling tube 104, drive driving piece 203 through rotating first regulating part 202 and rotate, driving piece 203 drives second regulating part 205 and removes, and second regulating part 205 drives the sampling tube extension, so as to sample the quality of water of long distance.

Example 2

Referring to fig. 2 to 9, a second embodiment of the present application is based on the previous embodiment.

Specifically, the winding member 103 includes a winding roller 103a and a rotating handle 103b, the winding roller 103a is rotatably connected in the fixing frame 102, the rotating handle 103b is fixed at the end of the winding roller 103a, and the sampling tube 104 is located outside the winding roller 103 a.

The wind-up roller 103a is used for driving the wind-up roller 103a to rotate clockwise through the pulling force of the sampling tube 104 when the sampling tube 104 needs to be lengthened, and the sampling tube 104 can be loosened from the wind-up roller 103a at the moment, so that the sampling tube 104 is convenient to lengthen, and when water quality needs to be taken, the wind-up roller 103a is driven to rotate anticlockwise through rotating the rotating handle 103b, so that the sampling tube 104 is wound on the wind-up roller 103 a.

Specifically, the supporting member 105 includes a supporting column 105a and a roller 105b, the supporting column 105a is fixed on the side of the first adjusting member 202, and the roller 105b is rotatably connected in the supporting column 105 a.

The support column 105a is used for installing the roller 105b, the roller 105b is provided with an arc groove, the sampling tube 104 is contacted with the inner wall of the arc groove, and the roller 105b is convenient for drive the sampling tube 104, so that the sampling tube 104 is prevented from bending during the drive to cause the water quality to be unable to be transmitted.

Specifically, the first adjusting member 202 includes a fixed block 202a, a positioning sleeve 202b, a driving post 202c, a first gear 202d, a movable post 202e, a first tooth 202f, a second tooth 202g, and a first toothed plate 202h, where the fixed block 202a is fixed on one side of the upright 201, the positioning sleeve 202b is fixed on one end of the fixed block 202a, the driving post 202c is fixed in the positioning sleeve 202b, the first gear 202d is fixed on the outer side of the driving post 202c, the movable post 202e is movably connected in the driving post 202c, the first tooth 202f is fixed on the outer side of the movable post 202e, the second tooth 202g is fixed on the inner side of the driving post 202c, the first toothed plate 202h is movably connected in the upright 201, a through slot S is formed on one side of the upright 201, and the first gear 202d is located in the through slot S and meshed with the first toothed plate 202 h.

The fixed block 202a and the positioning sleeve 202b are used for positioning the transmission column 202c, so that the transmission column 202c is kept stable during rotation, when the height of the sampling tube 104 is adjusted, the movable column 202e is pulled to one side, the movable column 202e drives the third limiting tooth 202n and the first tooth 202f to move, the second tooth 202g is meshed with the first tooth 202f, the movable column 202e is rotated, the transmission column 202c is driven to rotate by the second tooth 202g and the first tooth 202f, the transmission column 202c drives the first gear 202d to rotate, the first toothed plate 202h is driven to move by the first gear 202d, the sampling tube 104 is driven to move by the first toothed plate 202h, the transmission piece 203, the cross rod 204, the second adjusting piece 205 and the sampling tube 104 are simultaneously driven to move, water quality is sampled and detected, the first gear 202d is meshed with the first toothed plate 202h through the arrangement of the through grooves S, and the first toothed plate 202h is driven to move upwards by the first gear 202d, so that the height of the sampling tube 104 can be adjusted.

Specifically, the first adjusting member 202 further includes a fixed column 202s, a connecting seat 202t, a first limiting tooth 202k, a second limiting tooth 202l, a movable sleeve 202m, a third limiting tooth 202n and a sliding block 202o, the fixed column 202s is movably connected in the transmission column 202c, the connecting seat 202t is fixed on one side of the fixed column 202s, the first limiting tooth 202k and the second limiting tooth 202l are both located at the bottom of the connecting seat 202t, the movable sleeve 202m is fixed on the outer side of the movable column 202e, the third limiting tooth 202n is fixed on the movable column 202e, and the sliding block 202o is fixed on the bottom end of the fixed column 202 s.

The fixed column 202s and the sliding block 202o are used for supporting the connecting seat 202t, the connecting seat 202t can move along with the fixed column 202s, when the movable column 202d is positioned, the movable sleeve 202m can move along with the movable column 202e, meanwhile, the movable sleeve 202m drives the sliding block 202o to move, the sliding block 202o drives the fixed column 202s to move, the fixed column 202s drives the connecting seat 202t to move, the connecting seat 202t drives the first limiting teeth 202k to move, the first limiting teeth 202k are used for positioning the first gear 202d, the first gear 202d cannot rotate, the first gear 202h is limited, the first gear 202h is positioned, when the movable column 202e continuously moves to one side, the first gear 202d is positioned between the first limiting teeth 202k and the second limiting teeth 202l, when the movable column 202e is rotated again, the movable column 202e only idles, the connecting seat 202t limits the transmission member 203, and therefore the transmission member 202h cannot move.

Specifically, the first adjusting member 202 further includes a positioning block 202i and a first spring 202j, the positioning block 202i rotates at one end of the movable column 202e, the first spring 202j is fixed at one side of the positioning block 202i, and the other end of the first spring 202j is fixed with the inner wall of the transmission column 202 c.

One side of the positioning block 202i is rotationally connected with the end part of the movable column 202e through a bearing, when the extension distance of the sampling tube 104 needs to be adjusted, the movable column 202e is pushed into the transmission column 202c, the movable column 202e pushes the positioning block 202i, the positioning block 202i pushes the first spring 202j, at the moment, the first tooth 202f is separated from the second tooth 202g, the transmission piece 203 is meshed, then the movable column 202e is rotated, the transmission piece 203 is driven to rotate through the movable column 202e, the second adjusting piece 205 is driven to rotate through the transmission piece 203, and therefore the sampling tube 104 is extended through the second adjusting piece 205, and therefore remote water quality can be sampled.

Specifically, the first adjusting member 202 further includes a second spring 202p, a limiting post 202q, and a positioning tube 202r, where the second spring 202p is disposed in the movable post 202e, the limiting post 202q is fixed to the top end of the second spring 202p, and the positioning tube 202r is located outside the movable post 202 e.

The second spring 202p and the limiting column 202q are used for limiting the movable column 202e, four holes matched with the limiting column 202q are formed in the positioning tube 202r, when limiting of the movable column 202e is released, the limiting column 202q is firstly pressed downwards, the limiting column 202q is moved out of the holes, then the movable column 202e is pulled to one side, the movable column 202e enters the next hole after moving to one side for a certain distance, the movable column 202e is positioned through the holes, at the moment, the movable column 202e drives the third tooth 203g and the fourth tooth 203h to be meshed, then the movable column 202e is rotated, and the connecting tube 203f is driven to rotate through the movable column 202e, the third tooth 203g and the fourth tooth 203h so that the length of the sampling tube 104 can be conveniently extended.

Example 3

Referring to fig. 1 to 9, a third embodiment of the present application is based on the first two embodiments.

Specifically, the transmission member 203 includes a support rod 203m, a fixing rod 203l, a support plate 203a, a positioning seat 203b, a stop collar 203c, a connecting sleeve 203d, a first bevel gear 203e, a connecting tube 203f, a third tooth 203g, a fourth tooth 203h, and a second bevel gear 203k, wherein the support rod 203m is fixed to the top of the support seat 101, the fixing rod 203l is fixed to one side of the support rod 203m, the support plate 203a is fixed to one side of the first tooth plate 202h, the positioning seat 203b is disposed outside the fixing rod 203l, the stop collar 203c slides outside the fixing rod 203l, the outer side of the stop collar 203c is rotatably connected with the inner side of the positioning seat 203b, the connecting sleeve 203d is fixed to the outer side of the positioning seat 203b, the first bevel gear 203e is located at the bottom end of the fixing rod 203l, the connecting tube 203f is located on one side of the transmission post 202c, the third tooth 203g is fixed to the outer side of the movable post 202e, the fourth tooth 203h is fixed to the inner side of the connecting tube 203f, the second bevel gear 203k is fixed to the outer side of the connecting tube 203f, and one end of the positioning tube 202r is rotatably connected with the end of the connecting tube 203 f.

The bracing piece 203m is used for fixing dead lever 203l, positioning seat 203b is fixed in backup pad 203a top, be provided with dead lever 203l through adapter sleeve 203d inboard, when first pinion rack 202h drove backup pad 203a and remove, drive positioning seat 203b through backup pad 203a and remove, positioning seat 203b drives stop collar 203c and removes, stop collar 203c drives adapter sleeve 203d and slides in dead lever 203 l's outside, simultaneously first pinion rack 202h drives second regulating part 205, second regulating part 205 drives sampling tube 104 and removes, thereby can take a sample the quality of water of different water layers.

When the sampling distance of the sampling tube 104 needs to be extended, the movable column 202e is pushed to the inside of the transmission column 202c, the movable column 202e pushes the positioning block 202i, the positioning block 202i pushes the first spring 202j, at this time, the first tooth 202f is separated from the second tooth 202g, the third tooth 203g is meshed with the fourth tooth 203h, then the movable column 202e is rotated, the movable column 202e drives the connecting tube 203f to rotate through the third tooth 203g and the fourth tooth 203h, the connecting tube 203f drives the second bevel gear 203k to rotate, the second bevel gear 203k drives the first bevel gear 203e to rotate, the first bevel gear 203e drives the connecting sleeve 203d to rotate through the fixing rod 203l, the connecting sleeve 203d drives the second adjusting piece 205 to rotate, and the second adjusting piece 205 is extended, and the length of the sampling tube 104 is extended, so that the remote water quality can be sampled.

Specifically, the transmission member 203 further includes a supporting block 203i and a fixing sleeve 203j, the supporting block 203i is fixed on one side of the upright 201, the fixing sleeve 203j is rotatably connected to the outer side of the connecting tube 203f, and the fixing sleeve 203j is fixed on one side of the supporting block 203 i.

The connection pipe 203f is positioned by the support block 203i and the fixing sleeve 203j, so that the connection pipe 203f is kept stable in rotation.

Specifically, the second adjusting member 205 includes a first toothed disc 205a, a driven shaft 205b, a second toothed disc 205c, a second gear 205d, and a second toothed plate 205e, where the first toothed disc 205a is fixed on the outer side of the connecting sleeve 203d, the driven shaft 205b is rotatably connected to the supporting plate 203a, the second toothed disc 205c is fixed on the outer side of the driven shaft 205b, the second gear 205d is fixed on the top end of the driven shaft 205b, the second toothed plate 205e slides in the cross bar 204, a sliding slot M is formed on one side of the cross bar 204, and the outer side of the second gear 205d is located in the sliding slot M and meshed with the second toothed plate 205 e.

The connecting sleeve 203d drives the first fluted disc 205a to rotate while rotating, the first fluted disc 205a drives the second fluted disc 205c to rotate through a chain, the second fluted disc 205c drives the driven shaft 205b to rotate, the driven shaft 205b drives the second gear 205d to rotate, the second gear 205d drives the second toothed plate 205e to move, the second toothed plate 205e drives the sampling tube 104 to extend, further the sampling tube 104 can sample remote water quality, the second toothed plate 205e is driven to move through the rotation of the second gear 205d through the setting of the sliding groove M, and the sampling tube 104 is driven to move through the second toothed plate 205e so as to extend the sampling tube 104.

When in use, when the height of the sampling tube 104 is adjusted, the first tooth 202f is driven to rotate by the rotation transmission column 202c, the first tooth 202f is meshed with the second tooth 202g to drive the movable column 202e to rotate, the movable column 202e is used for driving the first gear 202d to rotate, the first gear 202d is used for driving the first toothed plate 202h to move upwards, the first toothed plate 202h is used for driving the cross rod 204 to move simultaneously, the cross rod 204 is used for driving the second toothed plate 205e to move downwards, and the sampling tube 104 is driven to move downwards by the second toothed plate 205e, so that water quality is sampled and detected.

When the limit of the movable column 202e is released, the limit column 202q is pressed downwards, the limit column 202q is moved out of the hole, the movable column 202e is pulled to one side, the movable column 202e moves to one side for a certain distance and then enters the next hole, the movable column 202e is positioned through the hole, at the moment, the movable column 202e drives the third tooth 203g to be meshed with the fourth tooth 203h, then the movable column 202e is rotated, and the connecting pipe 203f is driven to rotate through the movable column 202e, the third tooth 203g and the fourth tooth 203h so as to facilitate the subsequent extension of the length of the sampling pipe 104.

When the first toothed plate 202h moves while driving the supporting plate 203a to move, the supporting plate 203a drives the positioning seat 203b to move, the positioning seat 203b drives the limiting sleeve 203c to move, the limiting sleeve 203c drives the connecting sleeve 203d to slide on the outer side of the fixed rod 203l, when the sampling distance of the sampling tube 104 is extended, the movable column 202e is pushed to the inside of the transmission column 202c, the movable column 202e pushes the positioning block 202i, the positioning block 202i pushes the first spring 202j, at this time, the first toothed tooth 202f is separated from the second toothed tooth 202g, the third toothed tooth 203g is meshed with the fourth toothed tooth 203h, then the movable column 202e is rotated, the movable column 202e drives the connecting tube 203f to rotate through the third toothed tooth 203g and the fourth toothed tooth 203h, the connecting tube 203f drives the second bevel gear 203k to rotate, the second bevel gear 203k drives the first toothed disc 203e to rotate, the first bevel gear 205e drives the connecting sleeve 203d to rotate through the fixed rod 203l, the movable column 202e drives the first bevel gear 205a to rotate, the first toothed disc 205a drives the second bevel gear 205c to rotate through the chain, the second toothed disc 205c drives the second bevel gear 205c to rotate the second driven shaft 205b to rotate, and the second toothed tube 104 e can further extend.

It should be noted that the above embodiments are only for illustrating the technical solution of the present application and not for limiting the same, and although the present application has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present application may be modified or substituted without departing from the spirit and scope of the technical solution of the present application, which is intended to be covered in the scope of the claims of the present application.

Claims (7)

1. A quality of water test sampling device for water environment treatment, its characterized in that: comprising the steps of (a) a step of,

the support assembly (100) comprises a support seat (101), a fixing frame (102), a winding piece (103), a sampling tube (104), a support piece (105) and a filter cover (106), wherein the fixing frame (102) is fixed at the top of the support seat (101), the winding piece (103) is rotationally connected in the fixing frame (102), the sampling tube (104) is arranged at the outer side of the winding piece (103), the support piece (105) is fixed at the top of the support seat (101), and the filter cover (106) is communicated with one end of the sampling tube (104);

the adjusting assembly (200) is arranged at the top of the supporting seat (101) and comprises a stand column (201), a first adjusting piece (202), a transmission piece (203), a cross rod (204) and a second adjusting piece (205), wherein the stand column (201) is fixed at the top of the supporting seat (101), the first adjusting piece (202) is arranged on the stand column (201), the transmission piece (203) is fixed on the side face of the stand column (201), the cross rod (204) is fixed on one side of the first adjusting piece (202), and the second adjusting piece (205) is movably connected in the cross rod (204);

the winding piece (103) comprises a winding roller (103 a) and a rotating handle (103 b), the winding roller (103 a) is rotatably connected in the fixed frame (102), the rotating handle (103 b) is fixed at the end part of the winding roller (103 a), and the sampling tube (104) is positioned at the outer side of the winding roller (103 a);

the supporting piece (105) comprises a supporting column (105 a) and a roller (105 b), the supporting column (105 a) is fixed on the side face of the first adjusting piece (202), and the roller (105 b) is rotatably connected in the supporting column (105 a);

the first adjusting piece (202) comprises a fixed block (202 a), a positioning sleeve (202 b), a transmission column (202 c), a first gear (202 d), a movable column (202 e), a first tooth (202 f), a second tooth (202 g) and a first toothed plate (202 h), wherein the fixed block (202 a) is fixed on one side of the upright post (201), the positioning sleeve (202 b) is fixed on one end of the fixed block (202 a), the transmission column (202 c) is fixed in the positioning sleeve (202 b), the first gear (202 d) is fixed on the outer side of the transmission column (202 c), the movable column (202 e) is movably connected in the transmission column (202 c), the first tooth (202 f) is fixed on the outer side of the movable column (202 e), the second tooth (202 g) is fixed on the inner side of the transmission column (202 c), the first toothed plate (202 h) is movably connected in the upright post (201), and the first toothed plate (202 d) is meshed with the first toothed plate (201).

2. The water quality testing sampling device for water environmental treatment of claim 1, wherein: the first adjusting piece (202) further comprises a fixed column (202 s), a connecting seat (202 t), first limiting teeth (202 k), second limiting teeth (202 l), a movable sleeve (202 m), third limiting teeth (202 n) and a sliding block (202 o), wherein the fixed column (202 s) is movably connected in the transmission column (202 c), the connecting seat (202 t) is fixed on one side of the fixed column (202 s), the first limiting teeth (202 k) and the second limiting teeth (202 l) are both positioned at the bottom of the connecting seat (202 t), the movable sleeve (202 m) is fixed on the outer side of the movable column (202 e), the third limiting teeth (202 n) are fixed on the movable column (202 e), and the sliding block (202 o) is fixed on the bottom of the fixed column (202 s).

3. The water quality testing sampling device for water environmental treatment of claim 2, wherein: the first adjusting piece (202) further comprises a positioning block (202 i) and a first spring (202 j), the positioning block (202 i) rotates at one end of the movable column (202 e), the first spring (202 j) is fixed at one side of the positioning block (202 i), and the other end of the first spring (202 j) is fixed with the inner wall of the transmission column (202 c).

4. A water quality testing sampling device for water environmental treatment according to claim 3, wherein: the first adjusting piece (202) further comprises a second spring (202 p), a limiting column (202 q) and a positioning tube (202 r), wherein the second spring (202 p) is arranged in the movable column (202 e), the limiting column (202 q) is fixed to the top end of the second spring (202 p), and the positioning tube (202 r) is located outside the movable column (202 e).

5. The water quality testing sampling device for water environmental treatment of claim 4, wherein: the transmission piece (203) comprises a supporting rod (203 m), a fixing rod (203 l), a supporting plate (203 a), a positioning seat (203 b), a limit sleeve (203 c), a connecting sleeve (203 d), a first bevel gear (203 e), a connecting pipe (203 f), a third tooth (203 g), a fourth tooth (203 h) and a second bevel gear (203 k), wherein the supporting rod (203 m) is fixed on the top of the supporting seat (101), the fixing rod (203 l) is fixed on one side of the supporting rod (203 m), the supporting plate (203 a) is fixed on one side of the first tooth plate (202 h), the positioning seat (203 b) is arranged on the outer side of the fixing rod (203 l), the limit sleeve (203 c) slides on the outer side of the fixing rod (203 l), the outer side of the limit sleeve (203 c) is rotationally connected with the inner side of the positioning seat (203 b), the connecting sleeve (203 d) is fixed on the outer side of the positioning seat (203 b), the first bevel gear (203 e) is fixed on one side of the fixing rod (203 e) on the outer side of the movable tooth (203 h), the second tooth (203 f) is fixed on one side of the connecting pipe (203 f), the connecting pipe (203 f) is fixed on the outer side of the first tooth (203 f), one end of the positioning pipe (202 r) is rotatably connected with the end of the connecting pipe (203 f).

6. The water quality testing sampling device for water environmental treatment of claim 5, wherein: the transmission piece (203) further comprises a supporting block (203 i) and a fixing sleeve (203 j), the supporting block (203 i) is fixed on one side of the upright post (201), the fixing sleeve (203 j) is rotationally connected to the outer side of the connecting pipe (203 f), and the fixing sleeve (203 j) is fixed on one side of the supporting block (203 i).

7. The water quality testing sampling device for water environmental treatment of claim 6, wherein: the second adjusting piece (205) comprises a first fluted disc (205 a), a driven shaft (205 b), a second fluted disc (205 c), a second gear (205 d) and a second toothed plate (205 e), wherein the first fluted disc (205 a) is fixed on the outer side of the connecting sleeve (203 d), the driven shaft (205 b) is rotationally connected with the supporting plate (203 a), the second fluted disc (205 c) is fixed on the outer side of the driven shaft (205 b), the second gear (205 d) is fixed on the top end of the driven shaft (205 b), the second toothed plate (205 e) slides in the cross rod (204), a sliding groove (M) is formed in one side of the cross rod (204), and the outer side of the second gear (205 d) is positioned in the sliding groove (M) and is meshed with the second toothed plate (205 e).