CN218766111U - Environmental pollution detection analysis sampling device - Google Patents

Abstract

The utility model relates to an environmental pollution detection analysis sampling device, including a plurality of installation side pipes, installation side pipe quantity is a plurality of, is provided with connecting square pipe between two adjacent installation side pipes in order to make this device can send into a plurality of installation side pipes simultaneously among the water of the different degree of depth of same region in the in-service use process through connecting square pipe, installation side pipe left side from left to right runs through and is provided with the spout, the inside sliding connection of spout has a sample box, linear motion is about being for installation side pipe to the sample box makes the sample box to visit out the installation side outside of the tubes and can carry out the nondifferential sample to external water through removing the sample box when installation side pipe is in suitable degree of depth water for this device can take a sample to the different degree of depth water of same region simultaneously.

Description

Environmental pollution detection and analysis sampling device

Technical Field

The utility model relates to a sampling device technical field specifically is an environmental pollution detection and analysis sampling device.

Background

The analysis of the water environment sample is mainly to determine the environment quality (or pollution degree) and the change trend thereof by measuring the representative value of the factors influencing the environment quality. The environmental monitoring is to track the change of environmental quality and determine the environmental quality level by detecting the content and the discharge of various substances which have influence on human beings and the environment, thereby providing a foundation and guarantee for the work of environmental management, pollution treatment and the like.

The device of the prior art utilizes the sampling tube to sample the water usually, but often need synthesize the sampling to the different degree of depth water in same region in the reality and draw more accurate, more comprehensive water data, and the sampling tube not only can not gather the water sample in deeper waters under this condition, need frequently change the sampling tube in addition in the in-service use process in order to guarantee can not mix between the sample.

Disclosure of Invention

Not enough to among the prior art, the utility model provides an environmental pollution detection and analysis sampling device has the advantage of taking a sample to different degree of depth water samples simultaneously fast, has solved and has utilized the sampling tube sample to waste time and energy and the big shortcoming of limitation among the prior art device.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an environmental pollution detection analysis sampling device, includes installation side pipe, installation side pipe quantity is a plurality of, is provided with connecting square pipe between two adjacent installation side pipes, protruding go-between of installation side pipe, connecting square pipe up end fixedly connected with, installation side pipe, connecting square pipe lower extreme are provided with spread groove I to protruding go-between, and in the protruding go-between embedding spread groove I on adjacent installation side pipe and the connecting square pipe, be provided with coupling mechanism between adjacent installation side pipe and the connecting square pipe, installation side pipe left side from left to right runs through and is provided with the spout, the inside sliding connection of spout has a sampling box, sampling box upper end is open structure, for linear motion about installation side pipe is, the sampling box right side is provided with glide machanism.

Preferably, the sliding mechanism comprises a horizontally arranged screw, the left end face of the screw is fixedly connected with the sampling box, the right end face of the screw extends out of the sampling box, a vertically arranged bevel gear I is sleeved outside the screw, and the bevel gear I is in threaded connection with the screw.

Preferably, the number of the sliding mechanisms is two, and the sliding mechanisms are arranged in a front-back manner.

Preferably, bevel gears I in the two sliding mechanisms are mutually close to one side and vertically provided with a bevel gear II, one side of the two bevel gears II which are mutually close to one side is vertically provided with a bevel gear III through a horizontally arranged transmission rod, a bevel gear IV is horizontally arranged between the two bevel gears III, the bevel gears I and the bevel gears II are matched and mutually meshed, and the bevel gears III and the bevel gears IV are matched and mutually meshed.

Preferably, bevel gear IV goes up from the top down and runs through and be provided with a dwang I, connecting side pipe right-hand member rotates and is connected with a dwang II, terminal surface fixedly connected with protruding connecting block under dwang I, the II dwang, II upper ends of dwang I, dwang are provided with spread groove II to protruding connecting block, protruding connecting block is the cuboid, and when protruding go-between embedding spread groove I, protruding connecting block embedding spread groove is in II.

Preferably, the screw rod left end is kept away from I one side outside cover of bevel gear relatively and is equipped with a sealing ring I, I outside and the square fixed connection of installation pipe in the sealing ring, I inboard and the screw rod of sealing ring closely laminate.

Preferably, be provided with sealing ring II in the spout, II outsides of sealing ring and installation side pipe fixed connection, II inboards of sealing ring closely laminate with the sampling box, when the sampling box is in the rightmost end through glide machanism, the sampling box does not break away from with sealing ring II.

Preferably, the sealing ring III is sleeved outside the convex connecting ring and is in interference fit with the connecting groove I.

Preferably, coupling mechanism includes the mounting panel, mounting panel quantity is two, sets up from top to bottom, and two mounting panels respectively with connecting square pipe, mounting square pipe fixed connection, from the top down run through on two mounting panels and be provided with a screw, screw lower extreme spiro union has lock nut, coupling mechanism quantity is a plurality of, encircles the vertical axle center of mounting square pipe and evenly arranges.

Compared with the prior art, the utility model discloses the beneficial effect who has is:

the utility model discloses a glide machanism makes the sample box can be for installation side pipe about linear motion, makes the sample box lean out the installation side outside of tubes and can carry out indiscriminate sample to external water through removing the sample box when installation side pipe is in suitable degree of depth water, and a plurality of installation side pipes and a plurality of connecting square pipe mutually support simultaneously and make this device can take a sample to the different degree of depth water of same region simultaneously.

The utility model discloses a mutually support between sealing ring III and spread groove I, sealing ring II and sampling box, sealing ring I and the screw rod and guarantee that the water can not get into installation side intraduct, guarantee not receive the pollution of sampling box when the sampling box does not sink installation side's pipe, guarantee after the sampling of sampling box sample completion that the inside sample of sampling box does not receive different degree of depth water sample pollution.

The utility model discloses a bevel gear I, bevel gear II, bevel gear III, bevel gear IV, bevel gear 5 mutually support and make two glide machanisms can synchronous motion, thereby keep the same rate of motion to avoid taking place the stroke conflict and reducing this device spoilage between sample box and the installation side pipe.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the connection between the installation square pipe and the connection square pipe of the present invention;

figure 3 is the side view of the utility model discloses installation side pipe.

In the figure: 1. mounting a square tube; 2. connecting the square tubes; 3. a connecting mechanism; 301. a screw; 302. mounting a plate; 303. locking the nut; 4. a sampling box; 5. a sealing ring II; 6. a sealing ring III; 7. a convex connecting ring; 8. a sealing ring I; 9. a sliding mechanism; 901. a screw; 902. a bevel gear II; 903. a bevel gear I; 904. rotating the rod I; 905. a convex connecting block; 906. a transmission rod; 907. a bevel gear IV; 908. a bevel gear III; 10. and rotating the rod II.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Please refer to fig. 1-3, an environmental pollution detection analysis sampling device, including installation side pipe 1, the left side of installation side pipe 1 runs through from left to right and is provided with the spout, the inside sliding connection of spout has a sampling box 4, sampling box 4 does left and right linear motion for installation side pipe 1, make sampling box 4 can be visited out, immerse in installation side pipe 1 as required through sliding sampling box 4 in the in-service use process, when sampling box 4 visits out installation side pipe 1 inside, can make the water directly immerse in sampling box 4 and accomplish the water sampling process to the present degree of depth through sampling box 4 upper end for open structure, when sampling box 4 immerses installation side pipe 1 inside, can protect sampling box 4 through installation side pipe 1, guarantee sampling box 4 not to receive the pollution of installation side pipe 1 when sampling box 4 does not immerse sampling box 4, guarantee sampling box 4 inside sample not receive the different degree of depth water sample pollution after sampling box 4 samples and finishes.

The right side of the sampling box 4 is provided with a sliding mechanism 9 so as to drive the sampling box 4 to do left-right linear motion relative to the mounting square pipe 1 through the sliding mechanism 9.

Be provided with sealing ring II 5 in the spout, 1 fixed connection is managed with installation side in the II 5 outsides of sealing ring, and II 5 inboards of sealing ring closely laminate with sample box 4

When sampling box 4 was in the rightmost end through glide machanism 9, sampling box 4 did not break away from with sealing ring II 5 and guaranteed that the water can not flow into installation side pipe 1 inside from the clearance between sampling box 4 and the spout after sampling box 4 submerged installation side pipe 1 in order to utilize sampling box 4 left end face and sealing ring II 5 to mutually support.

The sliding mechanism 9 comprises a screw 901 which is horizontally arranged, the left end face of the screw 901 is fixedly connected with the sampling box 4, and the right end face of the screw extends out of the sampling box 4.

The outside cover in screw rod 901 left end is equipped with a sealing ring I8, the I8 outside of sealing ring and installation side pipe 1 fixed connection, the I8 inboard of sealing ring closely laminates with screw rod 901 so that outside water can not follow the clearance between screw rod 901 and the installation side pipe 1 and flow into the inside water that leads to outside water pollution sampling box 4 of installation side pipe 1.

The right side of the sealing ring I8 and the outer portion of the screw 901 are sleeved with a bevel gear I903 which is vertically arranged, the bevel gear I903 is in threaded connection with the screw 901, the device is enabled to only limit the rotation of the screw 901 through threaded connection in the actual use process, the relative position between the bevel gear I903 and the screw 901 can be changed in a mode of rotating the bevel gear I903, namely the screw 901 is changed, and the relative position of the mounting box in the horizontal direction is changed.

The number of the sliding mechanisms 9 is two, the front and back are arranged, namely the number of the screws 901 is two, the left end faces of the two screws 901 are fixedly connected with the sampling box 4, so that the sampling box 4 is prevented from being unbalanced due to unilateral stress, stroke conflict is avoided, and meanwhile the two screws 901 can also be mutually restricted so that the screws 901 cannot rotate relative to the I903 bevel gear.

A bevel gear II 902 is vertically arranged on one side, close to each other, of bevel gears I903 in the two sliding mechanisms 9, and the bevel gears I903 and the bevel gears II 902 are matched and meshed with each other, so that the bevel gears I903 and the bevel gears II 902 can synchronously rotate, and the movement trends are kept consistent.

One side, close to each other, of each of the two bevel gears II 902 is vertically provided with a bevel gear III 908 through a horizontally arranged transmission rod 906, so that the bevel gears II 902 and the bevel gears III 908 can synchronously rotate and keep the movement trends consistent.

A bevel gear IV 907 is horizontally arranged between the two bevel gears III 908, the bevel gears III 908 and the bevel gears IV 907 are matched and meshed with each other, so that the bevel gears III 908 and the bevel gears IV 907 can synchronously rotate, the movement trends are kept consistent, namely the bevel gears I903, the bevel gears II 902, the bevel gears III 908 and the bevel gears IV 907 can synchronously rotate, the movement trends are kept consistent, and a user can change the two screw rods 901 by rotating one bevel gear IV 907, namely the relative position of the sampling box 4 in the horizontal direction.

A rotating rod I904 penetrates through the bevel gear IV 907 from top to bottom to drive the bevel gear IV 907 to rotate in a mode of rotating the rotating rod I904.

The 1 quantity of installation side pipe is a plurality of with the while samples different degree of depth waters in the same region.

Be provided with connecting square pipe 2 between two adjacent installation side pipes 1 in order to change between two adjacent installation side pipes 1 through connecting square pipe 2, two adjacent relative distances between the sample box 4 promptly to make the sample depth freely control according to user's actual demand, can set up connecting square pipe 2 that quantity varies, the specification is different between two adjacent installation side pipes 1 in the in-service use in order to satisfy user's actual use demand.

A connecting mechanism 3 is arranged between the adjacent mounting square pipe 1 and the connecting square pipe 2 to ensure that the mounting square pipe 1 and the connecting square pipe 2 cannot be separated from each other.

Coupling mechanism 3 includes mounting panel 302, mounting panel 302 quantity is two, sets up from top to bottom, and two mounting panels 302 respectively with the side of being connected pipe 2, 1 fixed connection is managed in the side of the installation, and the side of being connected pipe 2, 1 upper end lower extreme lateral wall is managed in the side of installation all respectively a mounting panel 302 of fixed connection promptly.

Closely laminating between installation side pipe 1 and connection side pipe 2, closely laminating between two connection side pipe 2, when closely laminating between two installation side pipe 1, from the top down runs through on two adjacent mounting panels 302 and is provided with a screw 301, screw 301 lower extreme spiro union has lock nut 303, can guarantee through the mutually supporting between lock nut 303 and the screw 301 that relative position does not change between two adjacent mounting panels 302, form fixedly between adjacent installation side pipe 1 and connection side pipe 2, adjacent connection side pipe 2, the adjacent installation side pipe 1 promptly.

3 quantity of coupling mechanism is a plurality of, encircles 1 vertical axle centers of installation side pipe and evenly arranges in order to form stably fixed, guarantees simultaneously that adjacent installation side pipe 1 can not take place to rotate with connection side pipe 2, adjacent installation side pipe 1 between.

The utility model discloses a water body of installation side pipe 1, protruding go-between 7 of 2 up end fixedly connected with of connecting side pipe, installation side pipe 1, 2 lower extremes of connecting side pipe are provided with spread groove I to protruding go-between 7, in order to guarantee adjacent installation side pipe 1 and connecting side pipe 2 through mutually supporting between protruding go-between 7 and the spread groove in the adjacent installation side pipe 1 imbeds the spread groove I with the protruding go-between 7 of connecting side pipe 2, adjacent connecting side pipe 2, the connection gap can not the seepage water body lead to the inside entering water body of installation side pipe 1 between the adjacent installation side pipe 1.

Protruding go-between 7 outside covers are equipped with sealing ring III 6, sealing ring III 6 and I interference fit of spread groove can not the seepage water body in order to further guarantee between adjacent installation side pipe 1 and connection side pipe 2, adjacent connection side pipe 2, the adjacent installation side pipe 1 between the joint gap lead to the inside entering water body of installation side pipe 1.

The right end of the square connecting pipe 2 is rotatably connected with a rotating rod II 10.

Terminal surface fixedly connected with protruding connecting block 905 under dwang I904, dwang II 10, dwang I904, II 10 upper ends of dwang are provided with spread groove II to protruding connecting block 905, protruding connecting block 905 is the cuboid, when protruding go-between 7 imbeds spread groove I, protruding connecting block 905 imbeds in the spread groove II with mutually supporting through between protruding connecting block 905 and the go-between make dwang I904 and II 10 of dwang rotate in step, promptly as a plurality of installation side pipes 1, when the 2 cooperations of connection side pipe, the user can drive whole dwang I904 through rotating I904 of the dwang of top or II 10 of dwang, thereby II 10 rotations of dwang realize the purpose to the same regional different degree of depth water sample simultaneously.

The working principle is as follows: the utility model discloses at first need select the water sample of the suitable degree of depth with connecting square pipe 2 according to the position that the suitable quantity was located in this device installation side pipe 1 can be gathered to the at first needs in the in-service use process, later loop through coupling mechanism 3 to installation side pipe 1, connecting square pipe 2 assembles, through sealing ring III 6 and spread groove I, sealing ring II 5 and sampling box 4, mutually support between sealing ring I8 and the screw rod 901 and guarantee that the water can not get into installation side pipe 1 inside, after a plurality of installation side pipes 1 all reached the predetermined depth, the user rotates the dwang I904 or dwang II 10 of the top and drives whole dwang I904, dwang II 10 rotates thereby make in a plurality of installation side pipes 1 sampling box 4 can both visit installation side pipe 1 in, external water pours into sampling box 4 inside completion sample this moment, at last in proper order with a plurality of installation side pipes 1, connecting square pipe 2 takes out from the water, to sampling box 4 inside sample collection can.

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

Claims (9)

1. The utility model provides an environmental pollution detection analysis sampling device which characterized in that: the mounting structure comprises a plurality of mounting square tubes (1), wherein a connecting square tube (2) is arranged between every two adjacent mounting square tubes (1);

the connecting structure is characterized in that the upper end faces of the mounting square tubes (1) and the connecting square tubes (2) are fixedly connected with a convex connecting ring (7), the lower ends of the mounting square tubes (1) and the connecting square tubes (2) are provided with connecting grooves I aiming at the convex connecting ring (7), the convex connecting rings (7) on the adjacent mounting square tubes (1) and the connecting square tubes (2) are embedded into the connecting grooves I, and connecting mechanisms (3) are arranged between the adjacent mounting square tubes (1) and the connecting square tubes (2);

a sliding chute penetrates through the left side of the mounting square pipe (1) from left to right, a sampling box (4) is connected inside the sliding chute in a sliding manner, and the upper end of the sampling box (4) is of an open structure and moves linearly left and right relative to the mounting square pipe (1);

and a sliding mechanism (9) is arranged on the right side of the sampling box (4).

2. The environmental pollution detecting, analyzing and sampling device of claim 1, wherein: the sliding mechanism (9) comprises a screw (901) which is horizontally arranged, the left end face of the screw (901) is fixedly connected with the sampling box (4), and the right end face of the screw extends out of the sampling box (4);

a bevel gear I (903) which is vertically arranged is sleeved outside the screw rod (901), and the bevel gear I (903) is in threaded connection with the screw rod (901).

3. The environmental pollution detection and analysis sampling device of claim 2, wherein: the number of the sliding mechanisms (9) is two, and the sliding mechanisms are arranged in the front and the back.

4. The environmental pollution detection and analysis sampling device of claim 3, wherein: a bevel gear II (902) is vertically arranged on one side, close to each other, of bevel gears I (903) in the two sliding mechanisms (9), a bevel gear III (908) is vertically arranged on one side, close to each other, of the two bevel gears II (902) through a horizontally arranged transmission rod (906), and a bevel gear IV (907) is horizontally arranged between the two bevel gears III (908);

the bevel gear I (903) is matched and meshed with the bevel gear II (902), and the bevel gear III (908) is matched and meshed with the bevel gear IV (907).

5. The environmental pollution detection, analysis and sampling device of claim 4, wherein: a rotating rod I (904) penetrates through the bevel gear IV (907) from top to bottom, and the right end of the connecting square pipe (2) is rotatably connected with a rotating rod II (10);

the lower end faces of the rotating rod I (904) and the rotating rod II (10) are fixedly connected with a convex connecting block (905), the upper ends of the rotating rod I (904) and the rotating rod II (10) are provided with a connecting groove II aiming at the convex connecting block (905), and the convex connecting block (905) is a cuboid;

when the convex connecting ring (7) is embedded into the connecting groove I, the convex connecting block (905) is embedded into the connecting groove II.

6. The environmental pollution detecting, analyzing and sampling device of claim 2, wherein: the outer portion of one side, far away from bevel gear I (903), of the left end of the screw rod (901) is sleeved with a sealing ring I (8), the outer side of the sealing ring I (8) is fixedly connected with the mounting square pipe (1), and the inner side of the sealing ring I (8) is tightly attached to the screw rod (901).

7. The environmental pollution detecting, analyzing and sampling device of claim 1, wherein: a sealing ring II (5) is arranged in the sliding groove, the outer side of the sealing ring II (5) is fixedly connected with the mounting square tube (1), and the inner side of the sealing ring II (5) is tightly attached to the sampling box (4);

when the sampling box (4) is positioned at the rightmost end through the sliding mechanism (9), the sampling box (4) is not separated from the sealing ring II (5).

8. The environmental pollution detecting, analyzing and sampling device of claim 1, wherein: a sealing ring III (6) is sleeved outside the convex connecting ring (7);

and the sealing ring III (6) is in interference fit with the connecting groove I.

9. The environmental pollution detection and analysis sampling device of claim 1, wherein: the connecting mechanism (3) comprises two mounting plates (302), the two mounting plates (302) are arranged up and down, and the two mounting plates (302) are respectively fixedly connected with the connecting square pipe (2) and the mounting square pipe (1);

a screw (301) penetrates through the two mounting plates (302) from top to bottom, and the lower end of the screw (301) is connected with a locking nut (303) in a threaded manner;

the number of the connecting mechanisms (3) is multiple, and the connecting mechanisms are uniformly distributed around the vertical axis of the mounting square pipe (1).

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