CN211697114U - Install sampler in industrial waste water storage tank - Google Patents

Abstract

The utility model discloses an install sampler in industrial waste water storage tank relates to the sewage detection field, including location graduated flask and sampling device, a plurality of sliding trays have been seted up on the location graduated flask, and it is a plurality of to correspond sliding tray sampling device is equipped with a plurality ofly, one sampling device pegs graft in a sliding tray and with location graduated flask sliding fit, every sampling device all includes sampling piece, draws water a and a sampling rod, sampling piece installs in the bottom of sampling rod, the one end of drawing water is arranged in sampling piece's top and the other end of drawing water a and is arranged in sampling piece. The utility model discloses the during operation is through placing the location measuring staff in the waste water that needs detect back with the thief rod peg graft in the sliding tray, makes the thief rod move down and drives the sample box and remove to wait to contradict through set screw and thief rod behind the sampling position with the thief rod fixed, thereby can gather an arbitrary degree of depth sample in the waste water layer through removing the thief rod and enabling the sample box vertical removal in the waste water layer.

Description

Install sampler in industrial waste water storage tank

Technical Field

The utility model belongs to the technical field of the sewage detection and specifically relates to an install sampler in industrial waste water storage tank and specifically relates to a sampler.

Background

The printing and dyeing wastewater is wastewater discharged from printing and dyeing factories which mainly process cotton, hemp, chemical fibers and blended products thereof. The amount of the printing and dyeing wastewater is large, 100-200 tons of water are consumed for each 1 ton of textiles processed by printing and dyeing, and 80-90% of the water becomes wastewater. The textile printing and dyeing wastewater has the characteristics of large water quantity, high organic pollutant content, large alkalinity, large water quality change and the like, belongs to one of industrial wastewater difficult to treat, contains dye, slurry, auxiliary agent, oiling agent, acid and alkali, fiber impurities, sand substances, inorganic salt and the like, and the pretreatment in the wastewater treatment is mainly to improve the wastewater quality, remove suspended matters and impurities capable of directly settling, adjust the wastewater quality and water quantity, reduce the wastewater temperature and the like, improve the overall effect of the wastewater treatment and ensure the stability of the whole treatment system, so the pretreatment has an extremely important position in the printing and dyeing wastewater treatment, and if the wastewater purification treatment is required, the wastewater is sampled and tested firstly.

A sampler for the content of dissolved oxygen in printing and dyeing wastewater is cited in Chinese patent No. CN 205958304U. This sampler of dissolved oxygen content in printing and dyeing wastewater, including the urceolus, penetrate the push-and-pull rod in the urceolus, the end of push-and-pull rod exposes the urceolus, set up the handle on the end of push-and-pull rod, the urceolus is by supreme volumetric cavity such as a plurality of separating into down, set up the baffle between the adjacent cavity, the push-and-pull rod runs through the sliding connection that the baffle formed seal state, a plurality of cavity is by supreme N cavity to the N +1 cavity of being respectively down, the bottom side of N cavity sets up the sharp mouth that absorbs water, set up the sharp mouth that absorbs water on the lateral wall of N +1 cavity bottom, set up a piston plate in every cavity, the piston plate overlaps on the push-and-pull rod admittedly, the periphery border of piston plate forms seal contact's sliding connection.

However, the above patents have the following disadvantages in use: a plurality of sample connection are fixed can't adjust when the sample of above-mentioned device, and it is inaccurate to cause the data to detect the waste water layer of the different degree of depth.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an install sampler in industrial waste water storage tank to solve among the prior art a plurality of sample connection and be fixed can't carry out the technical problem who adjusts according to the waste water depth of layer.

The utility model provides an install sampler in industrial waste water storage tank, including location measuring staff and sampling device, location measuring staff vertical setting and location have seted up a plurality of sliding trays on the measuring staff, and be corresponding a plurality of sliding tray sampling device is equipped with a plurality ofly, one sampling device pegs graft in a sliding tray and with location measuring staff sliding fit, every sampling device all includes sampling piece, draws water a and sampling staff, the vertical setting of sampling staff and sampling piece are installed in the bottom of sampling staff, the one end of drawing water a is arranged in the top of sampling piece and the other end of drawing water a is arranged in sampling piece.

Furthermore, be equipped with first arithmetic scale and install in the sliding tray side on the location graduated flask, the thief rod is located the sliding tray and the thief rod is equipped with the second arithmetic scale corresponding to first arithmetic scale.

Furthermore, the top of location graduated flask is equipped with the locating part that is used for spacing sample rod, the locating part includes locating plate and positioning screw, the locating plate is installed in the top of location graduated flask and positioning screw and locating plate spiro union, positioning screw's one end and the conflict cooperation of sample rod lateral wall, positioning screw's the other end is equipped with rather than fixed connection's spiral plate.

Further, the sample piece includes sampling box, filter mantle, closing cap and push plate, the front end that the sampling box level set up and the sampling box is equipped with the inlet, and the filter mantle is located the inlet and filter mantle and sampling box joint, and the closing cap is located the front end of filter mantle and the closing cap and the cooperation of sampling box joint, the push plate is located the sample box in and the push plate is located the rear end of filter mantle.

Further, the piece of drawing water is including connecting rope, pull ring and seal block, the one end and the pull ring fixed connection of connecting the rope, the other end and the seal block fixed connection of connecting the rope, be used for placing the through-hole of connecting the rope in the thief rod, seal block arranges in the thief box and the front end and the filter mantle laminating of seal block, and the top of thief rod is arranged in to the pull ring.

Furthermore, the top of the sampling rod is provided with a handle fixedly connected with the sampling rod.

Furthermore, a plurality of sliding groove sampling devices are arranged correspondingly.

Compared with the prior art, the beneficial effects of the utility model reside in that:

one of which, the utility model discloses the during operation is pegged graft the thief rod in the sliding tray through placing the location graduated flask in the waste water that needs detected back, it is fixed with the thief rod to make the thief rod move down and drive the sampling box and remove to waiting to contradict through set screw and thief rod behind the sampling position, thereby can gather any degree of depth sample in the waste water layer through removing the thief rod and enabling the vertical removal of sampling box in the waste water layer, get under same state when needs, during the waste water of the different degree of depth, take out another sampling device and peg graft in another sliding tray of location graduated flask and make another sampling box arrive appointed sampling position.

Secondly, the utility model discloses in the filter mantle that sets up can block the great granule in the waste water and only need take the filter mantle out in the sample box and just can use once more changing a new filter mantle when the filter mantle receives the striking damage.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the positioning measuring rod of the present invention;

fig. 3 is a schematic perspective view of the sampling device of the present invention;

fig. 4 is a schematic perspective view of the sampling device of the present invention;

fig. 5 is a partial sectional view of a sampling device according to the present invention;

fig. 6 is a partial sectional view of the sampling device of the present invention.

Reference numerals:

the device comprises a positioning measuring rod 1, a sliding groove 11, a limiting piece 12, a positioning plate 121, a positioning screw 122, a rotary plate 123, a first arithmetic scale 13, a sampling device 2, a sampling piece 21, a sampling box 211, a filter cover 212, a closed cover 213, a push plate 214, a pumping piece 22, a connecting rope 221, a pull ring 222, a sealing block 223, a sampling rod 23, a second arithmetic scale 231 and a pull handle 232.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention.

The components of the embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

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 should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "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 simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 6, the embodiment of the present invention provides a sampler installed in an industrial wastewater storage tank, including positioning rod 1 and sampling device 2, a plurality of sliding grooves 11 have been seted up on the vertical setting of positioning rod 1 and positioning rod 1, and it is corresponding a plurality of sliding groove 11 sampling device 2 is equipped with a plurality of, one sampling device 2 is pegged graft in a sliding groove 11 and with positioning rod 1 sliding fit, every sampling device 2 all includes sampling piece 21, pumping piece 22 and sampling rod 23, sampling rod 23 vertical setting and sampling piece 21 are installed in the bottom of sampling rod 23, the one end of pumping piece 22 is placed in the top of sampling piece 21 and the other end of pumping piece 22 is placed in sampling piece 21.

Specifically, be equipped with first arithmetic scale 13 and first arithmetic scale 13 on location graduated flask 1 and install in sliding tray 11 side, sampling rod 23 is located sliding tray 11 and sampling rod 23 is equipped with second arithmetic scale 231 corresponding to first arithmetic scale 13, when needs sample, thereby when placing location graduated flask 1 in the waste water take out with location graduated flask 1 and just can see the degree of depth of waste water and calculate the deposit layer, intermediate level and the shallow water layer of waste water, the position of sampling rod 23 in location graduated flask 1 can be confirmed to the second arithmetic scale 231 that sets up on sampling rod 23 to the position of sample 21 sample in the waste water is prepared in accurate control.

Specifically, the top of location graduated flask 1 is equipped with the locating part 12 that is used for spacing thief rod 23, locating part 12 includes locating plate 121 and positioning screw 122, locating plate 121 is installed in the top of location graduated flask 1 and positioning screw 122 and locating plate 121 spiro union, positioning screw 122's one end and the conflict cooperation of thief rod 23 lateral wall, and positioning screw 122's the other end is equipped with rather than fixed connection's swivel plate 123, and it makes positioning screw 122 contradict with thief rod 23 through rotating swivel plate 123 after waiting to sample position to drive thief rod 23 downstream and take out a sample 21 and remove, thereby can make the unable vertical removal of thief rod 23 with the spacing fixed of thief rod 23 through positioning screw 122.

Specifically, the sampling piece 21 includes a sampling box 211, a filter cover 212, a sealing cover 213 and a push plate 214, the sampling box 211 is horizontally disposed and the front end of the sampling box 211 is provided with a liquid inlet, the filter cover 212 is located in the liquid inlet and the filter cover 212 is connected with the sampling box 211 in a clamping manner, the sealing cover 213 is located at the front end of the filter cover 212 and the sealing cover 213 is connected with the sampling box 211 in a clamping manner, the push plate 214 is located in the sampling box 211 and the push plate 214 is located at the rear end of the filter cover 212, the sampling box 211 is used for accommodating a wastewater sample and the liquid inlet provided on the sampling box 211 is used for allowing the wastewater sample to enter the sampling box 211, the filter cover 212 on the clamping sampling box 211 can be replaced, and the sealing cover 213 can seal the liquid inlet when the sampling box 211 is not used to prevent external dust or dirt from entering the sampling.

Specifically, the water drawing member 22 includes a connecting string 221, a pull ring 222 and a sealing block 223, one end of the connecting rope 221 is fixedly connected with the pull ring 222, the other end of the connecting rope 221 is fixedly connected with the sealing block 223, the sampling rod 23 is internally provided with a through hole for placing the connecting rope 221, the sealing block 223 is arranged in the sampling box 211, the front end of the sealing block 223 is attached to the filter cover 212, the pull ring 222 is arranged at the top of the sampling rod 23, when it is desired to take a sample in the waste water layer, the pull ring 222 is pulled so that the connection string 221 pulls the sealing block 223 to move in the sample box 211, when the sealing block 223 moves, a wastewater sample can enter the sampling box 211 through the liquid inlet, when a sample in the sampling box 211 needs to be taken out, the pushing plate 214 is pushed to move towards the filter cover 212, the pushing plate 214 pushes the sealing block 223 to move, and the sealing block 223 moves to discharge the sample in the sampling box 211 outwards through the liquid inlet.

Specifically, the top of the sampling rod 23 is provided with a handle 232 fixedly connected with the sampling rod, and the handle 232 is used for facilitating the sampling rod 23 to be taken out from the sliding groove 11 arranged on the positioning measuring rod 1 after the sampling of the sampling box 211 is completed.

Specifically, when wastewater at different depths in the same state is to be detected, a plurality of sampling devices 2 are placed in the corresponding sliding grooves 11 in a one-to-one correspondence manner, and the sampling piece 21 in each sampling device 2 is located at a corresponding sampling position.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (6)

1. A sampler installed in an industrial wastewater storage tank, characterized in that: including location graduated flask (1) and sampling device (2), a plurality of sliding tray (11) have been seted up on location graduated flask (1) vertical setting and location graduated flask (1), and it is corresponding a plurality of sliding tray (11) sampling device (2) are equipped with a plurality ofly, one sampling device (2) peg graft in a sliding tray (11) and with location graduated flask (1) sliding fit, every sampling device (2) all include sampling piece (21), water sampling piece (22) and sampling rod (23), install in the bottom of sampling rod (23) sampling piece (21) in vertical setting of sampling rod (23) and sampling piece (21), the top of sampling piece (21) and the other end of water sampling piece (22) are arranged in sampling piece (21) in to the one end of water sampling piece (22).

2. A sampler according to claim 1 mounted in an industrial waste water tank, wherein: the positioning and measuring rod (1) is provided with a first arithmetic scale (13), the first arithmetic scale (13) is installed beside the sliding groove (11), the sampling rod (23) is positioned in the sliding groove (11), and a second arithmetic scale (231) is arranged on the sampling rod (23) corresponding to the first arithmetic scale (13).

3. A sampler according to claim 2 mounted in an industrial waste water tank, wherein: the top of location graduated flask (1) is equipped with locating part (12) that are used for spacing sample rod (23), locating part (12) are including locating plate (121) and positioning screw (122), locating plate (121) are installed in the top of location graduated flask (1) and positioning screw (122) and locating plate (121) spiro union, the one end and the sample rod (23) lateral wall conflict cooperation of positioning screw (122), and the other end of positioning screw (122) is equipped with rather than fixed connection's spiral plate (123).

4. A sampler according to claim 1 mounted in an industrial waste water tank, wherein: sample piece (21) is including sampling box (211), filter mantle (212), closing cap (213) and push plate (214), the front end of sampling box (211) level setting and sampling box (211) is equipped with the inlet, filter mantle (212) are located inlet and filter mantle (212) and sampling box (211) joint, and closing cap (213) are located the front end of filter mantle (212) and closing cap (213) and sampling box (211) joint cooperation, push plate (214) are located sampling box (211) and push plate (214) are located the rear end of filter mantle (212).

5. A sampler according to claim 4 mounted in an industrial waste water tank, wherein: the water pumping part (22) comprises a connecting rope (221), a pull ring (222) and a sealing block (223), one end of the connecting rope (221) is fixedly connected with the pull ring (222), the other end of the connecting rope (221) is fixedly connected with the sealing block (223), a through hole for placing the connecting rope (221) is formed in the sampling rod (23), the sealing block (223) is arranged in the sampling box (211), the front end of the sealing block (223) is attached to the filter cover (212), and the pull ring (222) is arranged at the top of the sampling rod (23).

6. A sampler according to claim 1 mounted in an industrial waste water tank, wherein: the top of the sampling rod (23) is provided with a handle (232) fixedly connected with the sampling rod.

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