JP2020196422A - River surface floating matter collection process vessel - Google Patents

Abstract

To provide a floating matter collection process vessel saving labor in a pick up process for water surface floating matter.SOLUTION: A pick up mechanism 101 capable of picking up river surface litter includes a litter vessel 19 and support plates 16 attached fixedly to front, back, and both sides of the litter vessel, the pick up mechanism includes a recovery box 62 attached fixedly to the left side surface of the litter vessel, a recovery chamber 15 is installed in the recovery box, a second filter 44 is attached by a hinge on a left side inner wall of the recovery chamber, a rotation rod 14 is attached to be capable of rotating in the recovery box, and a collection box is attached fixedly to the rotation rod.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of river surface waste collection technology, and specifically is a river surface suspended matter recovery processing ship.

Garbage littered by people can fall onto the surface of the river, resulting in more floating material on the surface of the river, polluting the river and, over time, smelling water and destroying the river's ecological environment. Will be done.
Generally, the floating matter on the river surface is pulled up and processed by raising human power, but the process of pulling up consumes a lot of labor and physical strength, and there is a possibility that the raising is incomplete. In the process of transporting suspended matter, it consumes a lot of physical strength, affects the speed of pulling up, and has a certain effect on the reprocessing of suspended matter.

Publication No. 102020004 of Chinese Patent Application

An object of the present invention is to provide a river surface suspended matter recovery processing vessel, which can solve the above-mentioned problems in the current technology.

The river surface floating matter recovery processing ship of the embodiment of the present invention includes a garbage ship, and support plates are fixedly attached to both front and rear sides of the garbage ship, and a pulling mechanism for pulling up river surface garbage on the left side of the garbage ship. Is installed, the pulling mechanism includes a collection box fixedly attached to the left side surface of the garbage ship, a collection chamber is installed in the collection box, and a second filter is installed on the left inner wall of the collection chamber. Is attached by a hinge, a rotating rod is mounted in the collection box so as to be rotatable, a collection box is fixedly attached to the rotating rod, and a collection chamber is installed in the collection box. A first filter is fixed between the left and right inner walls of the collection chamber, and the first filter and the second filter leave river surface dust in the collection chamber and the collection chamber to collect the river surface dust.
A feeding mechanism capable of sending dust in the collection chamber is installed below the pulling mechanism, a connecting chamber is also installed in the garbage ship, and a compression chamber is installed on the right side of the connecting chamber. A compression mechanism capable of compressing dust is installed in the compression chamber, and after the feed mechanism sends dust into the compression mechanism by the connecting chamber, the compression mechanism pushes dust and also from the dust. Drain the pressed water.

The pulling mechanism is also provided by a power chamber, a motor, a power rod, a first gear, a transmission chamber, a transmission rod, a second gear, a first gear, a second gear, and a first chain. The power chamber is configured, the power chamber is installed in the garbage ship, the motor is fixedly mounted in the top wall of the power chamber, and the power rod is fixed to the bottom surface of the downward output shaft of the motor. A first bevel gear is fixedly attached to the power rod, a transmission chamber is installed in the support plate on the rear side of the power chamber, and the power chamber and the transmission chamber are connected to each other. A transmission rod is attached so as to be rotatable between them, and a second umbrella gear is fixedly attached to the front surface of the transmission rod, and the second umbrella gear and the first umbrella gear are meshed with each other. A first gear is fixedly attached to the rear side surface of the transmission rod, the rotary rod extends rearward and penetrates the front inner wall of the transmission chamber, and a second gear is attached to the rear surface of the rotary rod. It is fixedly attached and is attached between the second gear and the first gear so that the first chain can be transmitted.

The feed mechanism is composed of a push chamber, a push block, and a thread hole. The push chamber is installed below the power chamber, and the power rod extends downward and penetrates the top wall of the push chamber. , The push block is installed in the push chamber so as to be slidable, a thread hole opened upward is installed in the push block, and the thread hole and the power rod are attached by threads. Be done.

A spring chamber is installed on the left side of the push chamber, and a stop block is slidably installed in the spring chamber, and a spring is provided between the top surface of the stop block and the top wall of the spring chamber. It is fixedly attached, and the bottom surface of the stop block and the top surface of the push block are bonded together.

A moving groove is installed on the bottom surface of the second filter, and a moving block is slidably mounted in the moving groove. A partition plate is attached to the moving block by a hinge, and the partition plate and the garbage ship are attached. And are connected by a hinge, an auxiliary box is fixedly attached below the collection box on the left side surface of the garbage ship, and a slide chamber opened upward is installed symmetrically in the auxiliary box. On the right side of the slide chamber, a meshing chamber is installed in the garbage ship, and a thread rod penetrating the left inner wall of the meshing chamber is installed in the left inner wall of the slide chamber so as to rotate. , The thread block is attached to the thread rod by a thread, and the thread block and the slide chamber are attached so as to be slidable, and a hinge rod is attached to the thread block by a hinge. The rod and the second filter are attached by a hinge, a third bevel gear is fixedly attached to the right side surface of the thread rod, and a chain chamber is installed behind the meshing chamber on the rear side. A connecting rod is rotatably attached between the chain chamber and the front meshing chamber, and a fourth umbrella gear is fixedly mounted in the meshing chamber of the connecting rod, and the fourth umbrella is fixedly attached. The gear and the third bevel gear are meshed with each other, the third gear is fixedly attached to the rear side surface of the connecting rod, and the fourth gear is fixedly attached to the chain chamber of the transmission rod. It is attached so that the second chain can be transmitted between the fourth gear and the third gear.

The compression mechanism is composed of a compression plate, a hydraulic pump and a fixing plate, and the compression plate is mounted so as to slide into the compression chamber, and the hydraulic pump is fixed in the top wall of the compression chamber. A hydraulic rod is fixedly attached to the bottom surface of the hydraulic pump, and the bottom surface of the hydraulic rod and the top surface of the compression plate are fixedly connected to the inside of the compression chamber. The fixing plate is fixedly attached.

An outlet penetrating the top surface of the garbage vessel is installed on the inner wall on the right side of the compression chamber so as to communicate with the inner wall.

A punch hole is installed in the fixing plate.

A pump is installed on the right side of the compression chamber, a water supply pipe communicating with the compression chamber is fixedly attached to the left side surface of the pump, and the top surface of the garbage ship is attached to the right side surface of the pump. The penetrating drainage pipe is fixedly attached.

The beneficial effect of the present invention is: The lifting mechanism of the present invention collects the floating matter on the river surface, guarantees the complete lifting of the floating matter on the river surface, and the rotation of the collection box puts the floating matter in the collection chamber into the collection chamber. Centralized processing is performed on the suspended matter, and the suspended matter is sent into the compression mechanism by the feeding mechanism, and the entire process does not need to be manually transported, the labor force is reduced, the pulling efficiency is increased, and the compression mechanism is suspended. It can compress objects, squeeze out the moisture in the suspended matter, and pump out the moisture in the compression chamber to reduce the weight of the suspended matter, making reworking of the suspended matter convenient and popular value. There is.

In order to explain the present invention in detail with reference to FIGS. 1 to 6 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic structural diagram of the present invention. FIG. 2 is a schematic cross-sectional structure of FIG. 1 in the AA direction. FIG. 3 is a schematic cross-sectional structure of FIG. 1 in the BB direction. FIG. 4 is an enlarged schematic view of C in FIG. FIG. 5 is a schematic cross-sectional structure of FIG. 3 in the DD direction. FIG. 6 is a schematic view of the upper surface structure of the partition plate.

With reference to FIGS. 1 to 6, the river surface suspended matter recovery processing vessel according to the embodiment of the present invention includes a garbage vessel 19, and support plates 16 are fixedly attached to both front and rear sides of the garbage vessel 19, and the garbage vessel is attached. A pulling mechanism 101 for pulling up river waste is installed on the left side of the 19 and the pulling mechanism 101 includes a collection box 62 fixedly attached to the left side of the garbage ship 19, and the collection box 62 contains a collection box 62. A collection chamber 15 is installed, a second filter 44 is attached to the left inner wall of the collection chamber 15 by a hinge, and a rotary rod 14 is mounted in the recovery box 62 so as to be rotatable, and is attached to the rotary rod 14. The collection box 11 is fixedly attached, the collection chamber 13 is installed in the collection box 11, the first filter 12 is fixed between the left and right inner walls of the collection chamber 13, and the first filter 12 is fixed. And the second filter 44 leaves the river surface dust in the collection chamber 13 and the collection chamber 15, collects the river surface dust, and sends the dust in the collection chamber 15 below the pulling mechanism 101. A capable feed mechanism 102 is installed, a connecting chamber 30 is also installed in the garbage vessel 19, a compression chamber 28 is installed on the right side of the connecting chamber 30, and dust is installed in the compression chamber 28. A compression mechanism 103 capable of compressing the dust is installed, and after the feed mechanism 102 sends dust into the compression mechanism 103 by the connecting chamber 30, the compression mechanism 103 pushes the dust and the moisture pushed from the dust. Discharge.

Further, in another embodiment, the pulling mechanism 101 also includes a power chamber 17 installed in the garbage ship 19, and a motor 18 is fixedly mounted in the top wall of the power chamber 17. A power rod 40 is fixedly attached to the bottom surface of the downward output shaft of the motor 18, a first bevel gear 39 is fixedly attached to the power rod 40, and the rear side of the power chamber 17 is fixedly attached. In, a transmission chamber 46 is installed in the support plate 16, and a transmission rod 49 is attached between the power chamber 17 and the transmission chamber 46 so as to be rotatable, and is attached to the front surface of the transmission rod 49. The second bevel gear 52 is fixedly attached, the second bead gear 52 and the first bevel gear 39 are meshed with each other, and the first gear 48 is fixedly attached to the rear side surface of the transmission rod 49. The rotary rod 14 extends rearwardly and penetrates the front inner wall of the transmission chamber 46, and a second gear 45 is fixedly attached to the rear side surface of the rotary rod 14 with the second gear 45. The first chain 47 is attached to the first gear 48 so that it can be transmitted, and when the dust is pulled up by this, the motor 18 starts and the power rod 40 is rotationally interlocked, and the power rod 40 is the first bevel gear. The transmission rod 49 is rotationally interlocked by 39 and the second bevel gear 52, and the transmission rod 49 is rotationally interlocked by the transmission of the first gear 48 and the first chain 47 to rotate the second gear 45 and the rotary rod 14, and the collection box 11 is rotated. Then, the dust in the collection chamber 13 is put into the collection chamber 15.

Further, in another embodiment, the feed mechanism 102 includes a push chamber 59 installed below the power chamber 17, and the power rod 40 extends downward and penetrates the top wall of the push chamber 59. The push block 60 is slidably mounted in the push chamber 59, and a thread hole 61 opened upward is installed in the push block 60, and the thread hole 61 and the power are installed. When the rod 40 is attached by a screw thread and the power rod 40 rotates, the power rod 40 moves the push block 60 upward and interlocks to open the connecting chamber 30, and dust is collected by the connecting chamber 30 of the compression mechanism 103. You can go inside.

Further, in another embodiment, a spring chamber 57 is installed on the left side of the push chamber 59, and the stop block 56 is mounted in the spring chamber 57 so as to be slidable, and the top of the stop block 56 is installed. A spring 58 is fixedly attached between the surface and the top wall of the spring chamber 57, the bottom surface of the stop block 56 and the top surface of the push block 60 are bonded to each other, and dust is collected from the push chamber. It is possible to prevent entering the 59.

Further, in another embodiment, a moving groove 43 is installed on the bottom surface of the second filter 44, and the moving block 42 is slidably mounted in the moving groove 43, and the moving block 42 is fitted with the moving block 42. The partition plate 41 is attached by a hinge, the partition plate 41 and the garbage ship 19 are connected by a hinge, and an auxiliary box 38 is fixedly attached below the collection box 62 on the left side surface of the garbage ship 19. A slide chamber 37 opened upward is installed symmetrically in the auxiliary box 38, and a meshing chamber 31 is installed in the garbage vessel 19 on the right side of the slide chamber 37. A thread rod 36 penetrating the left inner wall of the meshing chamber 31 is rotatably attached to the left inner wall, and a thread block 35 is attached to the thread rod 36 by a thread. The thread block 35 and the slide chamber 37 are attached so as to be slidable, a hinge rod 34 is attached to the thread block 35 by a hinge, and the hinge rod 34 and the second filter 44 are attached by a hinge. A third bevel gear 33 is fixedly attached to the right side surface of the thread rod 36, a chain chamber 50 is installed behind the meshing chamber 31 on the rear side, and the chain chamber 50 and the meshing on the front side are installed. A connecting rod 53 is rotatably attached to and from the chamber 31, and a fourth bevel gear 32 is fixedly attached to the engaging chamber 31 in the connecting rod 53 to be attached to the fourth bevel gear 32. The third bevel gear 33 is engaged, and the third gear 54 is fixedly attached to the rear side surface of the connecting rod 53, and the fourth gear 51 is contained in the chain chamber 50 in the transmission rod 49. Is fixedly attached, and the second chain 55 is attached between the fourth gear 51 and the third gear 54 so that the second chain 55 can be transmitted, whereby the transmission rod 49 rotates and the fourth gear 51 is rotated and interlocked. The fourth gear 51 rotates the connecting rod 53 and the fourth umbrella gear 32 by the second chain 55 and the third gear 54, and the fourth gear 32 rotates the thread rod 36 by the third gear 33. Interlocking, the thread block 35 is moved, the thread block 35 rotates and interlocks the second filter 44 with the hinge rod 34, and the dust in the collection chamber 15 is put into the compression chamber 28.

In another embodiment, the compression mechanism 103 includes a compression plate 21 slidably mounted in the compression chamber 28, and a hydraulic pump 20 in the top wall of the compression chamber 28. Is fixedly attached, a hydraulic rod 27 is fixedly attached to the bottom surface of the hydraulic pump 20, and the bottom surface of the hydraulic rod 27 and the top surface of the compression plate 21 are fixedly connected. A fixing plate 29 is fixedly mounted in the compression chamber 28, whereby the river surface dust enters the compression chamber 28 by the connecting chamber 30, and then the hydraulic pump 20 starts and the hydraulic rod 27 expands and contracts. The compression plate 21 and the fixing plate 29 compress the dust.

Further, in another embodiment, the right inner wall of the compression chamber 28 is provided with an outlet 22 penetrating the top surface of the garbage ship 19 so as to communicate with the compressed dust. Can be taken out by 22.

Further, in another embodiment, a punch hole 26 is installed in the fixing plate 29, and the moisture generated when the dust is compressed flows down through the punch hole 26.

Further, in another embodiment, a pump 24 is installed on the right side of the compression chamber 28, and a water supply pipe 25 communicating with the compression chamber 28 is fixedly attached to the left side surface of the pump 24. A drain pipe 23 penetrating the top surface of the garbage ship 19 is fixedly attached to the right side surface of the pump 24, whereby the water in the compression chamber 28 is transferred by the pump 24 via the water supply pipe 25. It can be sucked in and discharged by the drain pipe 23.

When using, when pulling up dust, the motor 18 starts and the power rod 40 is rotationally interlocked, the power rod 40 is rotationally interlocked with the transmission rod 49 by the first gear 39 and the second gear 52, and the transmission rod 49 The second gear 45 and the rotary rod 14 are rotationally interlocked by the transmission of the first gear 48 and the first chain 47, the collection box 11 is rotated, the dust in the collection chamber 13 is put into the collection chamber 15, and the power rod 40 When the power rod 40 moves and interlocks the push block 60 upward, the connecting chamber 30 is opened, and when the transmission rod 49 rotates and the fourth gear 51 is rotationally interlocked, the fourth gear 51 moves and interlocks with the second chain 55. And the third gear 54 rotate the connecting rod 53 and the fourth umbrella gear 32, and the fourth gear 32 rotates the thread rod 36 by the third gear 33 to move the thread block 35 and screw. The mountain block 35 rotates and interlocks the second filter 44 with the hinge rod 34, puts the dust in the collection chamber 15 into the compression chamber 28, and after the dust enters the compression chamber 28 by the connecting chamber 30, the hydraulic pressure. The pump 20 starts to expand and contract the hydraulic rod 27, the compression plate 21 and the fixing plate 29 compress the dust, and the compressed dust can be taken out by the take-out port 22, and the moisture generated when the dust is compressed. Can flow down through the draft hole 26, and the water in the compression chamber 28 can be sucked in through the water supply pipe 25 by the pump 24, and discharged by the drain pipe 23.

Engineers in this field can clarify that they do not deviate from the general spirit and ideas of the present invention, and various modifications can be made to the above examples, all of which are within the scope of protection of the present invention. The protection plan of the present invention should be standardized on the claim of the present invention.

Claims (9)

In front view, including the garbage ship, support plates are fixedly attached to both front and rear sides of the garbage ship, and a pulling mechanism for pulling up river surface garbage is installed on the left side of the garbage ship, and the pulling mechanism is the garbage. A collection box is included, which is fixedly attached to the left side surface of the ship, a collection chamber is installed in the collection box, and a second filter is attached to the left inner wall of the collection chamber by a hinge. A rotary rod is attached so as to be rotatable inside, a collection box is fixedly attached to the rotary rod, a collection chamber is installed in the collection box, and a collection chamber is installed between the left and right inner walls of the collection chamber. The first filter is fixed, and the first filter and the second filter leave the river surface dust in the collection chamber and the collection chamber to collect the river surface dust.
A feeding mechanism capable of sending dust in the collection chamber is installed below the pulling mechanism, a connecting chamber is also installed in the garbage ship, and a compression chamber is installed on the right side of the connecting chamber. A compression mechanism capable of compressing dust is installed in the compression chamber, and after the feed mechanism sends dust into the compression mechanism by the connecting chamber, the compression mechanism pushes dust and also from the dust. A river surface floating matter recovery processing ship characterized by discharging the pressed water. The pulling mechanism also consists of a power chamber, a motor, a power rod, a first bevel gear, a transmission chamber, a transmission rod, a second bevel gear, a first gear, a second gear, and a first chain. Configured
The power chamber is installed in the garbage ship, the motor is fixedly mounted in the top wall of the power chamber, and the power rod is fixed on the bottom surface of the downward output shaft of the motor. The first bevel gear is fixedly attached to the power rod, the transmission chamber is installed in the support plate on the rear side of the power chamber, and the power chamber and the transmission chamber are The transmission rod is rotatably attached between the transmission rods, the second umbrella gear is fixedly attached to the front surface of the transmission rod, and the second umbrella gear and the first umbrella gear mesh with each other. The first gear is fixedly attached to the rear side surface of the transmission rod, the rotary rod extends rearwardly and penetrates the front inner wall of the transmission chamber, and is attached to the rear surface surface of the rotary rod. The river surface floating substance according to claim 1, wherein the second gear is fixedly attached, and the first chain is attached between the second gear and the first gear so that the first chain can be transmitted. Recovery processing ship. The feed mechanism is composed of a push chamber, a push block and a thread hole.
The push chamber is installed below the power chamber, the power rod extends downward and penetrates the top wall of the push chamber, and the push block is slidably mounted in the push chamber. The river surface suspended matter recovery according to claim 1, wherein the thread hole opened upward is installed in the push block, and the thread hole and the power rod are attached by a screw thread. Processing ship. A spring chamber is installed on the left side of the push chamber, and a stop block is slidably installed in the spring chamber, and a spring is provided between the top surface of the stop block and the top wall of the spring chamber. The river surface suspended matter recovery processing chamber according to claim 3, wherein the bottom surface of the stop block and the top surface of the push block are fixedly attached and bonded to each other. A moving groove is installed on the bottom surface of the second filter, and a moving block is slidably mounted in the moving groove. A partition plate is attached to the moving block by a hinge, and the partition plate and the garbage ship are attached. And are connected by a hinge, an auxiliary box is fixedly attached below the collection box on the left side surface of the garbage ship, and a slide chamber opened upward is installed symmetrically in the auxiliary box. On the right side of the slide chamber, a meshing chamber is installed in the garbage ship, and a thread rod penetrating the left inner wall of the meshing chamber is installed in the left inner wall of the slide chamber so as to rotate. , The thread block is attached to the thread rod by a thread, and the thread block and the slide chamber are attached so as to be slidable, and a hinge rod is attached to the thread block by a hinge. The rod and the second filter are attached by a hinge, a third bevel gear is fixedly attached to the right side surface of the thread rod, and a chain chamber is installed behind the meshing chamber on the rear side. A connecting rod is rotatably attached between the chain chamber and the front meshing chamber, and a fourth umbrella gear is fixedly mounted in the meshing chamber of the connecting rod, and the fourth umbrella is fixedly attached. The gear and the third bevel gear are meshed with each other, the third gear is fixedly attached to the rear side surface of the connecting rod, and the fourth gear is fixedly attached to the chain chamber of the transmission rod. The river surface suspended matter recovery processing vessel according to claim 3, wherein the second gear is attached so as to be able to transmit between the fourth gear and the third gear. The compression mechanism is composed of a compression plate, a hydraulic pump, a hydraulic rod, and a fixing plate.
The compression plate is mounted so as to slide into the compression chamber, the hydraulic pump is fixedly mounted in the top wall of the compression chamber, and the hydraulic rod is mounted on the bottom surface of the hydraulic pump. Is fixedly attached, the bottom surface of the hydraulic rod and the top surface of the compression plate are fixedly connected, and the fixed plate is fixedly attached in the compression chamber. Item 1. The river surface suspended matter recovery processing vessel according to item 1. The river surface suspended matter recovery processing ship according to claim 6, wherein an outlet penetrating the top surface of the garbage ship is installed on the right inner wall of the compression chamber so as to communicate with the inner wall. The river surface suspended matter recovery processing ship according to claim 6, wherein a punching hole is provided in the fixing plate. A pump is installed on the right side of the compression chamber, a water supply pipe communicating with the compression chamber is fixedly attached to the left side surface of the pump, and the top surface of the garbage ship is attached to the right side surface of the pump. The river surface suspended matter recovery processing ship according to claim 6, wherein the penetrating drainage pipe is fixedly attached.

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