CN219532596U - Waste water detection sampling device is used in animal vaccine production - Google Patents

Abstract

The waste water detection sampling device for animal vaccine production comprises a sampling barrel, a sampling mechanism arranged above the inside of the sampling barrel, and a first water outlet pipe, wherein the sampling mechanism comprises a water pump arranged on the inner wall of the side part of the sampling barrel, and the water inlet pipe and the first water outlet pipe are respectively connected with the water inlet pipe and the water outlet pipe of the water pump; a liquid storage mechanism is arranged below the sampling mechanism and is rotatably arranged relative to the sampling mechanism; a test tube bottle for receiving the liquid flowing out of the liquid storage mechanism is arranged below the liquid storage mechanism; the first water outlet pipe is connected with a second water outlet pipe through a connecting piece, and a disinfection mechanism is arranged inside the second water outlet pipe. According to the utility model, the liquid storage tank is divided into a plurality of liquid storage tanks by arranging the rotary liquid storage mechanism, and the sampling mechanism can pump the wastewater into different liquid storage tanks by the rotary arrangement of the liquid storage tanks, so that the sampling detection of wastewater at a plurality of places is realized; through setting up disinfection mechanism can be after the sampling at every turn finishes, carry out disinfection operation to the sampling tube, prevent cross contamination.

Description

Waste water detection sampling device is used in animal vaccine production

Technical Field

The utility model relates to the technical field of animal vaccine production, in particular to a waste water detection sampling device for animal vaccine production.

Background

Animal vaccines can produce a large amount of waste water in the production process, if directly discharge to the sewer can influence domestic water, especially does not inactivate thorough living fungus, live poison and biological poison, can harm people's life safety even, detects whether waste water is up to standard through taking a sample to waste water, and the waste water up to standard just can discharge to protect the environment.

The Chinese patent application No. 201920930729.7 discloses a waste water detection sampling device for animal vaccine production commonly used at present, and particularly discloses a water suction pump which is respectively arranged on the outer walls of a first fixed pipe, a second fixed pipe and a connecting pipe, and waste water can be respectively pumped into the first fixed pipe, the second fixed pipe and the connecting pipe by working the water suction pumps at different positions, so that the waste water is pumped into liquid storage tanks at different positions, and the liquid storage tanks are provided with a plurality of liquid storage tanks, so that the waste water at a plurality of places can be conveniently sampled and detected; however, this kind of structure needs to set up a plurality of fixed pipes and connecting pipe and need carry out interconnect between and, along with the increase of liquid reserve tank quantity, fixed pipe also increases along with it, will lead to whole box internal structure complicacy, increase cost, and when the waste water in different places is inhaled different liquid reserve tanks through the connecting pipe in succession simultaneously, can exist cross contamination, leads to the inspection result unable to judge.

Disclosure of Invention

The utility model aims to solve the defects in the prior art, and provides a waste water detection sampling device for animal vaccine production.

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

the waste water detection sampling device for animal vaccine production comprises a sampling barrel, a sampling mechanism arranged above the inside of the sampling barrel, and a first water outlet pipe, wherein the sampling mechanism comprises a water pump arranged on the inner wall of the side part of the sampling barrel, and the water inlet pipe and the first water outlet pipe are respectively connected with the water inlet pipe and the water outlet pipe of the water pump; a liquid storage mechanism is arranged below the sampling mechanism and is rotatably arranged relative to the sampling mechanism; a test tube bottle for receiving the liquid flowing out of the liquid storage mechanism is arranged below the liquid storage mechanism; and a disinfection mechanism is arranged in the water outlet pipe.

The liquid storage mechanism comprises a first support plate, a rotating shaft, a driving motor and a liquid storage box, wherein the rotating shaft is positioned under the first support plate and fixedly connected with the first support plate, the driving motor is used for driving the rotating shaft to rotate, and the liquid storage box is arranged above the first support plate; and limiting grooves for accommodating the periphery of the first supporting plate are formed in the inner wall of the sampling barrel.

The water outlet pipe is internally provided with a tube connected with a connecting piece, the other end of the tube is provided with a sealing cover, and the connecting piece is connected with a water outlet of the water pump.

The disinfection mechanism comprises an ultraviolet lamp tube arranged in the tube, two ends of the ultraviolet lamp tube are respectively provided with a mounting panel, the mounting panels at two ends are respectively mounted on a first end plate and a second end plate, and the second end plate is mounted on the inner wall of the sealing cover.

The power supply module is installed to the one end of first end plate, just power supply module output with installation panel input electric connection.

The connecting piece is including the external connection spare of connecting the second outlet pipe, connects put the internal connection spare of pipe, external connection spare with connect through many connecting strips between the internal connection spare, adjacent be equipped with the filter screen between the connecting strip.

The liquid storage tank is of a circular design and is divided into a plurality of liquid storage tanks through partition plates, a first through hole is formed in the bottom of each liquid storage tank, and an extension part is arranged downwards in each first through hole; the first supporting plate is provided with a second through hole communicated with the first through hole, the extension part extends into the second through hole, the second through hole is used for connecting a pipeline, and the pipeline is provided with an electromagnetic valve.

The inside being located of sample bucket the below of first backup pad is equipped with the second backup pad, be used for placing the sample bottle in the second backup pad, the second backup pad pass the axis of rotation and with the axis of rotation rotates to be connected.

The sampling barrel inner wall is transversely provided with a protruding strip, and the outer periphery bottom of the second supporting plate is movably connected with the protruding strip through a ball.

The sampling barrel is provided with a door body for taking out the liquid storage tank and the test tube bottle, the sampling barrel is of cylindrical design, and the electromagnetic valve and the driving motor signal are provided with a main controller.

Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, the rotary liquid storage mechanism and the sampling mechanism are arranged, the liquid storage tank is divided into a plurality of liquid storage tanks, and the sampling mechanism can pump the wastewater into different liquid storage tanks through the rotary arrangement of the liquid storage tanks, so that the sampling detection of wastewater at a plurality of places is realized.

According to the utility model, the disinfection mechanism is arranged, so that disinfection operation can be performed on the second water outlet pipe after each sampling is finished, and pollution is prevented.

According to the utility model, through the design of the door body, the function of disassembling and taking out the liquid storage tank to facilitate cleaning is realized.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of the present embodiment.

Fig. 2 is a top view of the liquid storage tank in the present embodiment.

Fig. 3 is a schematic structural view of the sterilizing mechanism in this example.

Fig. 4 is a diagram showing another connection structure between the water outlet pipe and the water pump in this embodiment.

Fig. 5 is a transverse cross-sectional view of the connector in this embodiment.

Wherein, 10-sampling barrel; 101-a limit groove; 11-a water pump; 12-a water inlet pipe; 13-a water outlet pipe; 14-connecting piece; 141-an external connection; 142-an inner connection; 143-connecting straps; 144-a filter screen; 21-a first support plate; 22-a drive shaft; 23-driving a motor; 24-a liquid storage tank; 241-a reservoir; 242-first through holes; 2421-an extension; 243-a second through hole; 25-piping; 26-an electromagnetic valve; 27-a second support plate; 28-protruding strips; 29-balls; 31-placing a tube; 32-sealing cover; 33-ultraviolet lamp tube; 332-a first end plate; 333-a second end plate; 334-a power module; 40-test tube bottle.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. 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.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. 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 utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

The waste water detection sampling device for animal vaccine production comprises a sampling barrel 10, and a sampling mechanism arranged above the inside of the sampling barrel 10, wherein the sampling mechanism comprises a water pump 11 arranged on the inner wall of the side part of the sampling barrel 10, a water inlet pipe 12 and a first water outlet pipe 13, wherein the water inlet pipe 12 and the first water outlet pipe 13 are respectively connected with the water inlet of the water pump 11; a liquid storage mechanism is arranged below the sampling mechanism and is rotatably arranged relative to the sampling mechanism; a test tube bottle 40 for receiving the liquid flowing out of the liquid storage mechanism and a main controller are arranged below the liquid storage mechanism; the inside of the water outlet pipe 13 is provided with a disinfection mechanism. In operation, the water inlet pipe 12 is connected with a hose, the hose is extended into a wastewater tank, the water pump 111 starts to work, wastewater is pumped out through the water inlet pipe 12, enters the liquid storage mechanism through the water outlet pipe 13, and finally enters the test tube bottle 40.

In this embodiment, the sampling bucket 10 is provided with a door 50 for taking out the liquid storage tank 24 and the test tube bottle 30, and when a user needs to take out the liquid storage tank 24, the user only needs to open the door 40 and lift the liquid storage tank on the first support plate 21 to take out the liquid storage tank.

In this embodiment, the liquid storage mechanism includes a first support plate 21, a rotation shaft 22 located under the first support plate 21 and fixedly connected to the first support plate 21, a driving motor 23 driving the rotation shaft 22 to rotate, and a liquid storage tank 24 disposed above the first support plate 21; the inner wall of the sampling barrel 10 is provided with a limit groove 101 for accommodating the periphery of the first supporting plate 21. The stability of the first support plate 21 during rotation is maintained by the provision of the limit groove 101.

The sampling barrel 10 and the liquid storage tank 24 in this embodiment are designed in a cylindrical manner, and are divided into four liquid storage tanks 241 (as shown in fig. 2) by a partition board, the lower end of the water outlet pipe 13 is aligned to the position right above one liquid storage tank 241 (or the lower end of the water outlet pipe 13 is connected to a hose, the hose part extends into the liquid storage tank to prevent splashing) for receiving the waste water flowing out of the water outlet pipe 13, a first through hole 242 is arranged at the bottom of the liquid storage tank 241, an extension part 2421 is arranged downwards in the first through hole 242, a second through hole 243 which is communicated with the first through hole 242 and corresponds to the first through hole 242 is arranged on the first supporting plate 21, and the extension part 2421 extends into the second through hole 243, so that the position of the liquid storage tank can be stabilized, and the waste water can be prevented from overflowing between the first supporting plate and the liquid storage tank; the second through hole 243 is used for connecting a pipeline 25, an electromagnetic valve 26 is arranged on the pipeline 25, a hose can be connected below the pipeline 25, and the hose is aligned to the position right above the test tube bottle 30.

In this embodiment, the driving motor 23 is connected to the main controller by a signal, and when the driving motor 23 is started, the rotating shaft 22 starts to rotate, and the rotating shaft 22 drives the first support plate 21 to rotate, and since the extension part 2421 at the bottom of each liquid storage tank 241 in the liquid storage tank 24 can extend into the first support plate 21, the liquid storage tank 24 will also rotate accordingly.

As shown in fig. 1 and 2, the liquid storage tank 24 in the present embodiment is divided into four liquid storage tanks 241 by a partition plate on average, so that a user can preset the plane rotation angle of the first support plate 21 in advance, and the rotation angle is 90 in the present embodiment. . The user may divide the tank 24 into other number of tanks, and the rotation angle is preset according to the actual situation, and how this is specifically set as the prior art will not be described in detail here.

The electromagnetic valve 26 in this embodiment is connected with the main controller through signals, so that the electromagnetic valve can be controlled to be opened and closed, after the main controller controls the electromagnetic valve 26 to be opened, waste water flows out through a hose and enters the test tube bottle 30, and after the waste water flows out, the main controller controls the electromagnetic valve 26 to be closed.

As shown in fig. 3, a pipe 31 connected with the connector 14 is installed in the water outlet pipe 13, a sealing cover 32 is installed at the other end of the pipe, and the connector 14 is connected with the water outlet of the water pump 11.

The disinfection mechanism comprises an ultraviolet lamp tube 33 arranged inside the tube 31, and the tube 31 in the embodiment is a transparent tube, so that the ultraviolet lamp tube 31 can emit light outwards; the two ends of the ultraviolet lamp 33 are respectively provided with a mounting panel, the two ends of the mounting panels are respectively mounted on the first end plate 332 and the second end plate 333, and the second end plate 333 is mounted on the inner wall of the sealing cover 32.

In this embodiment, a plurality of connection bars 335 are further connected between the first end 332 and the second end plate 333, so as to enclose the ultraviolet lamp 33 in the space formed by the connection bars 335.

The power supply module 334 is installed at one end of the first end plate 332, and the output end of the power supply module 334 is electrically connected with the input of the installation panel 331, so as to facilitate the power supply process of the ultraviolet lamp 33.

The power supply module 334 in this embodiment is in signal connection with the main controller, and the main controller controls the start and stop of the power supply module 334.

As shown in fig. 5, the connecting member 14 includes an external connecting member 141 connected to the water outlet pipe 13, and an internal connecting member 142 connected to the pipe 31, the external connecting member 141 and the internal connecting member 142 are connected by a plurality of connecting bands 143, and a filter screen 144 is disposed between adjacent connecting bands 143, so that when the wastewater passes through the connecting member 14, the filter screen 144 can filter the wastewater, and impurities in the wastewater can be prevented from blocking the water outlet pipe.

In this embodiment, as shown in fig. 4, the user connects the second water outlet pipe 131 above the connecting piece 14, and installs the second water outlet pipe 131 between the connecting pieces, and since the two ends of the connecting piece 14 are respectively provided with the water outlet pipe 13 and the second water outlet pipe 131, the filter screen 144 can collect the filtered residues in the second water outlet pipe 131, so as to facilitate the disassembly and replacement of the user.

The inside of the sampling barrel 10 is provided with a second supporting plate 27 below the first supporting plate 21, the second supporting plate 27 is used for placing the sampling bottle 40, and the second supporting plate 27 penetrates through the rotating shaft 22 and is rotationally connected with the rotating shaft 22.

A protruding strip 28 is transversely arranged on the inner wall of the sampling barrel 10, and the bottom of the periphery of the second supporting plate 27 is movably connected with the protruding strip 28 through a ball 29.

When the user needs to take out the test tube bottle 30, only the door body 40 is required to be opened, and as the second support plate 27 is movably connected with the protruding strip 12 through the balls, only the second support plate 27 is required to be manually rotated, so that the rest of test tube bottles 30 can be taken out when being sequentially close to the door body 40.

The number of the liquid storage tanks of the test tube bottle in the embodiment is corresponding, and the bottom of the liquid storage tank in the embodiment is designed from a low slope to a high slope (as shown in fig. 4), so that wastewater can flow out through the first through hole conveniently.

Working principle: moving the device to a designated working place, extending a hose into a wastewater pool, starting the water pump 112 to work, pumping out wastewater through the water inlet pipe 113, and entering a certain liquid storage tank 241 in a liquid storage mechanism through the water outlet pipe 114, wherein the main controller controls the electromagnetic valve 26 to be closed, so that the wastewater in the current liquid storage tank 241 can be prevented from flowing out, the collection of the wastewater is realized, after the completion of the collection, the main controller controls the starting of the power supply module 334, the ultraviolet lamp tube is lightened, the disinfection work is started for the interior of the water outlet pipe 13, and the formation of cross contamination during the next wastewater pumping is prevented, so that the inaccuracy of a detection result is caused; when the work place is replaced, the main controller controls the driving motor to start, so that the liquid storage tank 241 which does not store the waste water rotates to be positioned under the water outlet pipe 114, the water pump is started again to collect the waste water, and the like.

After all the sampled waste water is collected, the controller controls the electromagnetic valves 26 under all the waste water storage tanks 241 to be opened, so that the waste water at different places flows into the corresponding test tube bottles 30.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (10)

1. The waste water detection sampling device for animal vaccine production comprises a sampling barrel (10), a sampling mechanism arranged above the inside of the sampling barrel (10), and a water outlet pipe (13) which is respectively connected with a water inlet pipe (12) of a water inlet of the water pump (11) and a water outlet pipe (13) of a water outlet, wherein the water pump (11) is arranged on the inner wall of the side part of the sampling barrel (10); it is characterized in that the method comprises the steps of,

a liquid storage mechanism is arranged below the sampling mechanism and is rotatably arranged relative to the sampling mechanism;

a test tube bottle (40) for receiving the liquid flowing out of the liquid storage mechanism is arranged below the liquid storage mechanism;

the inside of the water outlet pipe (13) is provided with a disinfection mechanism.

2. The device for detecting and sampling the waste water for animal vaccine production according to claim 1, wherein the liquid storage mechanism comprises a first supporting plate (21), a rotating shaft (22) which is positioned right below the first supporting plate (21) and fixedly connected with the first supporting plate (21), a driving motor (23) which drives the rotating shaft (22) to rotate, and a liquid storage tank (24) which is arranged above the first supporting plate (21); limiting grooves (101) for accommodating the periphery of the first supporting plate (21) are formed in the inner wall of the sampling barrel (10).

3. The device for detecting and sampling the waste water for animal vaccine production according to claim 2, wherein a tube (31) connected with a connecting piece (14) is arranged in the water outlet pipe (13), a sealing cover (32) is arranged at the other end of the tube, and the connecting piece (14) is connected with a water outlet of the water pump (11).

4. A waste water detecting and sampling device for animal vaccine production according to claim 3, wherein the sterilizing mechanism comprises an ultraviolet lamp tube (33) arranged in the tube (31), two ends of the ultraviolet lamp tube (33) are respectively provided with a mounting panel, the two ends of the mounting panels are respectively mounted on a first end plate (332) and a second end plate (333), and the second end plate (333) is mounted on the inner wall of the sealing cover (32).

5. The device for detecting and sampling waste water for animal vaccine production according to claim 4, wherein a power supply module (334) is installed at one end of the first end plate (332), and an output end of the power supply module (334) is electrically connected with an input of the installation panel (331).

6. The device for detecting and sampling the waste water for animal vaccine production according to claim 5, wherein the connecting piece (14) comprises an external connecting piece (141) connected with the water outlet pipe (13), an internal connecting piece (142) connected with the tube (31), the external connecting piece (141) and the internal connecting piece (142) are connected through a plurality of connecting belts (143), and a filter screen (144) is arranged between every two adjacent connecting belts (143).

7. The device for detecting and sampling the waste water for animal vaccine production according to claim 6, wherein the liquid storage tank (24) is of a circular design and is divided into a plurality of liquid storage tanks (241) by a partition plate, a first through hole (242) is arranged at the bottom of the liquid storage tank (241), and an extension part (2421) is arranged downwards in the first through hole (242); the first supporting plate (21) is provided with a second through hole (243) communicated with the first through hole (242), the extension part (2421) extends into the second through hole (243), the second through hole (243) is used for connecting a pipeline (25), and the pipeline (25) is provided with an electromagnetic valve (26).

8. The waste water detection sampling device for animal vaccine production according to claim 7, wherein a second supporting plate (27) is arranged below the first supporting plate (21) in the sampling bucket (10), the second supporting plate (27) is used for placing a sampling bottle (30), and the second supporting plate (27) penetrates through the rotating shaft (22) and is rotationally connected with the rotating shaft (22).

9. The device for detecting and sampling the waste water for animal vaccine production according to claim 8, wherein a protruding strip (28) is transversely arranged on the inner wall of the sampling barrel (10), and the bottom of the periphery of the second supporting plate (27) is movably connected with the protruding strip (28) through a ball (29).

10. The device for detecting and sampling the waste water for animal vaccine production according to claim 9, wherein a door body (50) for taking out the liquid storage tank (24) and the test tube bottle (40) is arranged on the sampling barrel (10), the sampling barrel (10) is of a cylindrical design, and the electromagnetic valve (26) and the driving motor (23) are provided with a main controller.