JP6740518B1 - Sludge sampler in deep water for environmental inspection - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a sludge sampler for a deep part of a water area for environmental inspection. SOLUTION: A floating plate 26 and a sampling box are included, a recovery hole 60 is installed in the floating plate, and a pedestal 10 is fixedly attached to the top surface of the floating plate. A turning part 80 that can be moved is installed, and the turning part includes a first winding space 12 and a second winding space 16 installed in the pedestal, and a winding motor 15 is fixedly mounted in the pedestal. The first winding shaft 11 is fixedly connected to the left output shaft of the winding motor, the first winding cylinder 13 is fixedly attached to the first winding shaft, and the drawstring 14 is attached to the first winding cylinder. Are installed around. [Selection diagram] Figure 1

Description

The present invention takes up the field of inspection and verification, and is specifically a sludge sampler in the deep part of a water body for environmental inspection.

Water resources are essential resources for human beings, and protecting water resources is protecting the environment and human health. The inspection of the water environment is generally to inspect the quality of the water, but since many heavy metal pollution and pathogens of some infectious diseases are present in the bottom sludge, it is also necessary to inspect the sludge deep in the water area. is there.
A sampler that inspects sludge in the deep part of the current water area generally needs to separate the water and sludge from each other when the sludge and water mixture is taken directly from the bottom of the water and the quality of the sludge is tested. When collecting the deep sampler, it is necessary to pull the cable manually, and there is a risk of the cable being cut when working underwater.

Chinese Patent Application Publication No. 107621386

An object of the present invention is to provide a deep water sludge sampler for environmental testing, which can solve the problems in the current art mentioned above.

A floating plate and a sampling box are included, a recovery hole is installed in the floating plate, a pedestal is fixedly attached to the top surface of the floating plate, and the sampling box is pulled on the pedestal and moved in water. Is installed, the turning part includes a first winding space and a second winding space installed in the pedestal, and a winding motor is fixedly mounted in the pedestal. A first winding shaft is fixedly connected to the output shaft on the left side of the first winding cylinder, a first winding cylinder is fixedly attached to the first winding shaft, and a drawstring is provided around the first winding cylinder. The drawstring and the sampling box are fixedly connected, and the drawstring can pull the sampling box and return it upward into the recovery hole. Sampling parts that can sample deep sludge are installed,
The sampling part includes a collection space installed in the sampling box, and a collection cylinder capable of winding sludge in the collection space is rotatably mounted in the collection space. A water squeezing space is installed on the upper side, a communication hole is installed between the water squeezing space and the collection space, and a first squeezing plate is slidably mounted in the collection space. The first squeezing plate can move to the right to push the sludge in the collection space into the water squeezing space, and a water filter cylinder and a second squeezing plate are installed in the water squeezing space. The second squeezing plate slides to the right, and the sludge in the water squeezing space can be pushed into the water filter cylinder and collected.

The turning component includes a second winding shaft fixedly attached to an output shaft on the right side of the winding motor, a second winding space is installed on the right side of the first winding space, and the second winding shaft is on the right side. A second winding cylinder is fixedly attached to the second winding shaft by penetrating the second winding space, and a cable is fixedly provided around the second winding cylinder.

A data transfer contact point is fixedly attached to the right side surface of the second winding cylinder, and a data transfer contact ring is fixedly attached to the right inner wall of the second winding space, the data transfer contact ring and the data. The transfer contact points slide with each other, a controller is fixedly mounted in the pedestal, and the controller and the data transfer contact ring are connected by an electrical signal.

A support rod is fixedly mounted symmetrically between the top surface of the floating plate and the bottom surface of the pedestal, and a support wall is fixedly mounted between the support rods on the left and right sides. A Y-type diversion pipe is installed in the inside, the drawstring and the cable penetrate the Y-type diversion pipe, a hook cover is fixedly attached to the cable, and the hook cover attaches the drawstring. Can be fixed.

A rotating wheel is rotatably attached to the floating plate, and vanes are installed on the rotating wheel.

The sampling component includes a sampling port installed between the bottom wall of the sampling space and the bottom surface of the sampling box, and a sampling motor is fixedly mounted in the inner wall of the rear side of the sampling space, A motor and the cable are connected by an electric signal, a collection cylinder shaft is fixedly attached to the output shaft of the sampling motor, and the collection cylinder shaft and the collection cylinder are fixedly connected.

A sealing plate is slidably mounted between the front and rear inner walls of the collection space, a sealing motor is fixedly mounted in the sampling box, and the sealing motor and the cable are connected by an electric signal. A first screw thread rod is fixedly attached to the output shaft of the hermetic motor, the first screw thread rod and the sealing plate are connected by a screw thread, and a first screw rod is provided in a right inner wall of the collection space. A push motor is fixedly mounted, the first push motor and the cable are connected by an electric signal, and a second thread rod is fixedly connected to the output shaft of the first push motor, The thread rod and the first pressing plate are connected by a thread.

A second push motor is fixedly mounted in the inner wall of the right side of the watering space, the second push motor and the cable are connected by an electric signal, and the output shaft of the second push motor has a third A thread rod is fixedly attached, the third thread rod and the second pressing plate are attached by a thread, and a spool space communicating with the communication hole is installed in the communication hole. A spool is slidably mounted in the spool space, an electromagnet space is installed on the left side of the spool space, and an electromagnet is fixedly mounted on the left inner wall of the electromagnet space. And the cable are connected by an electric signal, a slide rod is slidably mounted between the spool space and the electromagnet space, and the slide rod and the spool are fixedly connected to each other, and the slide rod A permanent magnet is fixedly attached to the water filter, and the water filter cylinder can filter water.

A camera space is installed in the sampling box, a camera is installed in the camera space, the camera and the cable are connected by an electric signal, and a hook is hooked on the top surface of the sampling box by a hinge. A torsion spring is fixedly connected between the hooking claw and the sampling box.

The beneficial effects of the present invention are: When the sludge is sampled in the deep part of the body of water, the water can be directly removed, so that the sludge can be directly inspected after sampling, and a device for collecting inside the deep part of the body of water. Is directly connected by a drawstring, can be conveniently retrieved or released, and the cable for transmitting signal and power can be caught on the drawstring, so that the cable can be used when the underwater collection device is retrieved or released. It is inseparable and worth spreading.

In order to describe the present invention in detail in conjunction with FIGS. 1 to 6 below and to explain it conveniently, the following directions are defined as follows: FIG. 1 is a front view of the device of the present invention, and The left, right, front, and rear directions are the same as the top, bottom, left, right, front, and rear directions of the self-projection relationship in FIG.

FIG. 1 is a schematic view of the entire structure of the present invention. FIG. 2 is a schematic diagram of an enlarged structure of A in FIG. FIG. 3 is a schematic view of the enlarged structure of B of FIG. FIG. 4 is a schematic view of the enlarged structure of C in FIG. FIG. 5 is a schematic sectional view taken along line DD of FIG. FIG. 6 is a schematic view of a sectional structure in the EE direction of FIG.

Referring to FIGS. 1 to 6, the sludge sampler in the deep layer of the water area for environmental inspection of the embodiment of the present invention includes a floating plate 26 and a sampling box 27, and the recovery hole 60 is installed in the floating plate 26. The pedestal 10 is fixedly attached to the top surface of the floating plate 26, and the pedestal 10 is provided with a turning component 80 capable of pulling the sampling box 27 and moving it in water. The pedestal 10 includes a first winding space 12 and a second winding space 16, a winding motor 15 is fixedly mounted in the pedestal 10, and an output shaft on the left side of the winding motor 15 is attached to the winding motor 15. A first winding shaft 11 is fixedly connected, a first winding cylinder 13 is fixedly attached to the first winding shaft 11, a draw string 14 is provided around the first winding cylinder 13, and The string 14 and the sampling box 27 are fixedly connected to each other, and the draw string 14 can pull the sampling box 27 and return the sampling box 27 upward into the recovery hole 60. A sampling component 81 that can directly sample the sludge in the deep part of the water area is installed.

The sampling component 81 includes a collection space 29 installed in the sampling box 27, and a collection cylinder 50 capable of winding sludge into the collection space 29 is rotatably mounted in the collection space 29. A water squeezing space 35 is installed above the collection space 29, and a communication hole 47 is installed between the water squeezing space 35 and the collection space 29. A first squeezing plate 46 is slidably attached to the first squeezing plate 46, and the first squeezing plate 46 can move to the right to push the sludge in the collection space 29 into the water squeezing space 35. A water filter cylinder 32 and a second squeezing plate 38 are installed in the space 35, and the second squeezing plate 38 slides to the right to push the sludge in the water squeezing space 35 into the water filter cylinder 32 and collect it. it can.

In one embodiment, the turning component 80 includes a second winding shaft 19 fixedly attached to the output shaft on the right side of the winding motor 15, and a second winding shaft 19 on the right side of the first winding space 12. The space 16 is installed, the second winding shaft 19 penetrates the second winding space 16 to the right, and the second winding cylinder 17 is fixedly attached to the second winding shaft 19. A cable 18 is fixedly provided around 17
When the winding motor 15 is started, the winding motor 15 can cause the second winding cylinder 17 to wind or release the cable 18.

Also, in one embodiment, a data transfer contact point 21 is fixedly attached to the right side surface of the second winding cylinder 17, and a data transfer contact ring 22 is fixedly attached to the right inner wall of the second winding space 16. The data transfer contact ring 22 and the data transfer contact point 21 slide on each other, and the controller 20 is fixedly mounted in the pedestal 10 so that the controller 20 and the data transfer contact ring 22 are attached to each other. Are connected by electrical signals,
The control signal of the controller 20 can be transferred to the cable 18 through the data transfer contact point 21 and the data transfer contact ring 22.

In addition, in one embodiment, the support rods 23 are fixedly installed symmetrically between the top surface of the floating plate 26 and the bottom surface of the pedestal 10, and between the support rods 23 on the left and right sides. A support wall 24 is fixedly mounted, and a Y-type shunt pipe 25 is installed in the support wall 24. The drawstring 14 and the cable 18 penetrate the Y-type shunt pipe 25, and the cable 18 A catch cover 61 is fixedly attached to the catch cover 61, and the catch cover 61 can fix the drawstring 14.
After the first winding cylinder 13 and the second winding cylinder 17 release the drawstring 14 and the cable 18, the drawstring 14 can be fixed to the catch cover 61 after passing through the Y-type distribution pipe 25.

In addition, in one embodiment, a rotating wheel 62 is rotatably attached to the floating plate 26, and a blade 63 is installed on the rotating wheel 62.
The blades 63 can move the floating plate 26 and the pedestal 10 on the water surface.

Further, in one embodiment, the sampling component 81 includes a sampling port 28 installed between a bottom wall of the sampling space 29 and a bottom surface of the sampling box 27, and the inside of the rear inner wall of the sampling space 29. A sampling motor 52 is fixedly attached to the sampling motor 52, the cable 18 is connected to the sampling motor 52 by an electric signal, and a sampling cylinder shaft 51 is fixedly attached to an output shaft of the sampling motor 52 to The cylinder shaft 51 and the collection cylinder 50 are fixedly connected,
The sampling motor 52 is started, and the sampling motor 52 rotates the collection cylinder 50 so that the sludge at the bottom of the water can be wound into the collection space 29.

Further, in one embodiment, a sealing plate 45 is slidably mounted between the front and rear inner walls of the collection space 29, and a sealing motor 53 is fixedly mounted in the sampling box 27 to seal the sealing space. The motor 53 and the cable 18 are connected by an electric signal, the first screw rod 54 is fixedly attached to the output shaft of the sealing motor 53, and the first screw rod 54 and the sealing plate 45 are connected to each other. A first push motor 48 is fixedly mounted in the inner wall of the right side of the collection space 29 by a screw thread, and the first push motor 48 and the cable 18 are connected by an electric signal, A second thread rod 49 is fixedly connected to the output shaft of the push motor 48, the second thread rod 49 and the first pressing plate 46 are connected by a thread,
After the sludge is wound into the collection space 29, the sealing motor 53 is started, the sealing motor 53 rotates the first thread rod 54, and the first thread rod 54 pushes the sealing plate 45 forward to seal the The plate 45 seals the collection space 29, starts the first pushing motor 48, the first pushing motor 48 rotates the second thread rod 49, the second thread rod 49 rotates, and the first squeezing board 46 is moved. By moving it to the right, the sludge in the collection space 29 is pushed into the water squeezing space 35 through the communication hole 47.

Also, in one embodiment, a second push motor 36 is fixedly installed in the right inner wall of the water squeezing space 35, and the second push motor 36 and the cable 18 are connected by an electric signal. A third screw thread rod 37 is fixedly attached to the output shaft of the second push motor 36, the third screw thread rod 37 and the second squeezing plate 38 are attached by a screw thread, and the communication hole 47. A spool space 39 communicating with the communication hole 47 is installed therein, a spool 40 is slidably mounted in the spool space 39, and an electromagnet space 42 is provided on the left side of the spool space 39. The electromagnet 41 is fixedly installed in the left inner wall of the electromagnet space 42, the electromagnet 41 and the cable 18 are connected by an electric signal, and the space between the spool space 39 and the electromagnet space 42 is connected. A slide rod 44 is slidably attached to the slide rod 44, the slide rod 44 and the spool 40 are fixedly connected, and a permanent magnet 43 is fixedly attached to the slide rod 44. Can filter water,
After the sludge in the collection space 29 is pushed into the water squeezing space 35, the electromagnet 41 is energized, the electromagnet 41 pushes the permanent magnet 43, the permanent magnet 43 pushes the spool 40 to the right, and the spool 40 moves. The spool space 39 is sealed, the second push motor 36 is started, the second push motor 36 rotates the third thread rod 37, the third thread rod 37 rotates, and the second pressing plate 38 moves to the right. Then, the second squeezing plate 38 pushes the sludge into the water filter cylinder 32, and the water in the sludge is squeezed.

Further, in one embodiment, a camera space 30 is installed in the sampling box 27, a camera 31 is installed in the camera space 30, and the camera 31 and the cable 18 are connected by an electric signal, A catch claw 33 is connected to the top surface of the sampling box 27 by a hinge, and a torsion spring 34 is fixedly connected between the catch claw 33 and the sampling box 27.
The catch claw 33 can fix the water filter cylinder 32, prevent the water filter cylinder 32 from falling when pushing the sludge, and the camera 31 can monitor the sampling position.

The floating plate 26 is placed on the water surface, and the rotating wheel 62 can move the floating plate 26 and the pedestal 10 on the water surface. When the winding motor 15 is started, the winding motor 15 winds or releases the drawstring 14 and the cable 18. The control signal of the controller 20 can be transferred to the cable 18 through the data transfer contact point 21 and the data transfer contact ring 22, and the first winding cylinder 13 and the second winding cylinder 17 release the drawstring 14 and the cable 18. After that, the drawstring 14 can be fixed to the catch cover 61 after passing through the Y-type branch pipe 25, and the sampling box 27 can enter the deep part of the water area downward.

The sampling motor 52 is started, the sampling motor 52 rotates the collection cylinder 50, and the sludge on the bottom of the water can be caught in the collection space 29. After the sludge is caught in the collection space 29, the sealed motor 53 is turned on. Starting, the sealing motor 53 rotates the first thread rod 54, the sealing plate 45 pushed forward by the first thread rod 54 seals the collection space 29 and starts the first pushing motor 48. , The first pushing motor 48 moves the first squeezing plate 46 to the right, the first squeezing plate 46 pushes the sludge in the collection space 29 into the water squeezing space 35 through the communication hole 47, and After the sludge is pushed into the squeezed space 35, the electromagnet 41 is energized, the electromagnet 41 pushes the permanent magnet 43, the permanent magnet 43 pushes the spool 40 to the right, the spool 40 seals the spool space 39, The second push motor 36 is started, the second push motor 36 rotates the third screw thread rod 37, the third screw thread rod 37 rotates, and the second squeezing plate 38 is moved to the right. Pushes the sludge into the water filter cylinder 32, and the water in the sludge is squeezed.

The catch claw 33 can fix the water filter cylinder 32, prevent the water filter cylinder 32 from falling when pushing the sludge, and the camera 31 can monitor the sampling position.

It is clear to a person skilled in the art that the present invention can be modified in various ways without departing from the spirit and idea of the invention, and all the modifications are within the protection scope of the invention. The protection plan of the present invention should be based on the claims of the present invention.

Claims (8)

A floating plate and a sampling box are included, a recovery hole is installed in the floating plate, a pedestal is fixedly attached to the top surface of the floating plate, and the sampling box is pulled on the pedestal and moved in water. Is installed, the turning part includes a first winding space and a second winding space installed in the pedestal, and a winding motor is fixedly mounted in the pedestal. A first winding shaft is fixedly connected to the output shaft on the left side of the first winding cylinder, a first winding cylinder is fixedly attached to the first winding shaft, and a drawstring is provided around the first winding cylinder. The drawstring and the sampling box are fixedly connected, and the drawstring can pull the sampling box and return it upward into the recovery hole. Sampling parts that can sample deep sludge are installed,
The sampling component includes a collection space installed in the sampling box, and a collection cylinder capable of winding sludge into the collection space is rotatably mounted in the collection space. A water squeezing space is installed on the upper side, a communication hole is installed between the water squeezing space and the collection space, and a first squeezing plate is slidably mounted in the collection space. The first squeezing plate can move to the right to push the sludge in the collection space into the water squeezing space, and a water filter cylinder and a second squeezing plate are installed in the water squeezing space. , The second squeezing plate slides to the right to collect sludge in the water squeezing space by pushing it into the water filter cylinder,
The turning component includes a second winding shaft fixedly attached to an output shaft on the right side of the winding motor, a second winding space is installed on the right side of the first winding space, and the second winding shaft is on the right side. the second winding space through to the the second winding shaft a second winding cylinder fixedly mounted, said the second winding cylinder cable is characterized in that it is fixedly provided around Sludge sampler in the deep part of the water area for environmental inspection. A data transfer contact point is fixedly attached to the right side surface of the second winding cylinder, and a data transfer contact ring is fixedly attached to the right inner wall of the second winding space, the data transfer contact ring and the data. The transfer contact point slides with each other, a controller is fixedly mounted in the pedestal, and the controller and the data transfer contact ring are connected by an electrical signal. Sludge sampler in the deep part of the body of water for environmental inspection in Japan. A support rod is fixedly mounted symmetrically between the top surface of the floating plate and the bottom surface of the pedestal, and a support wall is fixedly mounted between the support rods on the left and right sides. 7. A Y-type diversion pipe is installed inside, the drawstring and the cable pass through the Y-type diversion pipe, and a hook is fixedly attached to the cable. The sludge sampler in the deep part of the water area for environmental inspection described in 1. The sludge sampler in the deep part of the water area for environmental inspection according to claim 1, wherein a rotating wheel is rotatably attached to the floating plate, and vanes are installed on the rotating wheel. The sampling component includes a sampling port installed between the bottom wall of the sampling space and the bottom surface of the sampling box, and a sampling motor is fixedly mounted in the inner wall of the rear side of the sampling space, A motor and the cable are connected by an electric signal, a collection cylinder shaft is fixedly attached to the output shaft of the sampling motor, and the collection cylinder shaft and the collection cylinder are fixedly connected. The sludge sampler in the deep part of the water area for environmental inspection according to claim 1. A sealing plate is slidably mounted between the front and rear inner walls of the collection space, a sealing motor is fixedly mounted in the sampling box, and the sealing motor and the cable are connected by an electric signal. A first screw thread rod is fixedly attached to the output shaft of the hermetic motor, the first screw thread rod and the sealing plate are connected by a screw thread, and a first screw rod is provided in a right inner wall of the collection space. A push motor is fixedly mounted, the first push motor and the cable are connected by an electric signal, and a second thread rod is fixedly connected to the output shaft of the first push motor, The thread rod and the first pressing plate are connected by a thread,
After the sludge is caught in the collection space, the sealing motor is started, the sealing motor rotates the first thread rod, the first thread rod pushes the sealing plate forward, and the sealing plate seals the collection space. The sludge sampler in the deep part of the water area for environmental inspection according to claim 1. A second push motor is fixedly mounted in the inner wall of the right side of the watering space, the second push motor and the cable are connected by an electric signal, and the output shaft of the second push motor has a third A thread rod is fixedly attached, the third thread rod and the second pressing plate are attached by a thread, and a spool space communicating with the communication hole is installed in the communication hole. A spool is slidably mounted in the spool space, an electromagnet space is installed on the left side of the spool space, and an electromagnet is fixedly mounted on the left inner wall of the electromagnet space. And the cable are connected by an electric signal, and a slide rod is slidably mounted between the spool space and the electromagnet space, and the slide rod and the spool are fixedly connected to each other. The sludge sampler in the deep part of the water area for environmental inspection according to claim 1, wherein a permanent magnet is fixedly attached to the water filter, and the water filter cylinder can filter water. A camera space is installed in the sampling box, a camera is installed in the camera space, the camera and the cable are connected by an electric signal, and a hook is hooked on the top surface of the sampling box by a hinge. The sludge sampler in the deep part of the water area for environmental inspection according to claim 1, further comprising a torsion spring fixedly connected between the hooking claw and the sampling box.

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