CN113006022A - Energy-concerving and environment-protective river rubbish recovery processing equipment - Google Patents

Abstract

The invention relates to a recovery processing device, in particular to an energy-saving and environment-friendly river water garbage recovery processing device. The invention provides the energy-saving and environment-friendly river waste recycling and treating equipment which is convenient to operate, can automatically receive materials and can automatically block the materials. The utility model provides an energy-concerving and environment-protective river rubbish recovery processing equipment, is connected with the splice box between two backup pads including backup pad, splice box, board of falling water, screening frame, rotatory material mechanism and the mechanism that blocks up water, is equipped with the board of falling water on the splice box, and the inboard slidingtype of splice box is equipped with the screening frame, is equipped with rotatory material mechanism of falling on the splice box, is equipped with the mechanism that blocks up water on the rotatory material mechanism of falling, blocks up water mechanism and splice box cooperation. According to the automatic garbage collecting device, the material receiving mechanism is arranged, the screening frame rotates and garbage is poured into the material receiving mechanism, so that the purpose of automatic material collection is achieved, the automatic driving mechanism is arranged, the screening frame and the garbage move upwards through the automatic driving mechanism, the purpose of automatic lifting is achieved, and the operation is simple and convenient.

Description

Energy-concerving and environment-protective river rubbish recovery processing equipment

Technical Field

The invention relates to a recovery processing device, in particular to an energy-saving and environment-friendly river water garbage recovery processing device.

Background

China has numerous rivers, but partial rivers often float with rubbish, some rubbish can be decomposed by microorganisms in river water, some rubbish that can not be decomposed can float on water, such as plastic bottles and the like, the method of usually clearing them mainly relies on manual work to salvage along the lake, the lake often is the slope, easily slides in the water, it is unsafe, the rubbish far away from the lake needs to be salvaged by the cleaning personnel before rowing, this must be qualified professional personnel, so troublesome, and inconvenient.

Patent application CN207328770U, the publication date is 2018.05.08, discloses an energy-concerving and environment-protective rubbish processing apparatus on water, including casing, solar panel, power storage device, advancing device, main control unit, camera device and lighting device etc. through controlgear wireless control treatment facility makes treatment facility get the rubbish of aquatic through pressing from both sides the device clamp in water to obtain the condition in treatment facility the place ahead waters through camera device, the image that the operating personnel only need obtain on the controlgear, come to carry out real-time operation to treatment facility, can accomplish the rubbish processing operation on water, treatment facility adopts the solar energy power supply, and energy-concerving and environment-protective can not cause the pollution to the water, and the device operation is not convenient enough, needs to operate treatment facility repeatedly.

Therefore, the development of an energy-saving and environment-friendly river waste recycling and treating device which is convenient to operate, can automatically receive materials and can automatically block the materials is urgently needed.

Disclosure of Invention

In order to overcome the defects of troublesome operation, unsafety and inconvenience of the existing river waste treatment method, the invention aims to provide the energy-saving and environment-friendly river waste recycling and treating equipment which is convenient to operate, can automatically receive materials and can automatically block the materials.

The purpose of the invention is realized by adopting the following technical scheme:

the utility model provides an energy-concerving and environment-protective river rubbish recovery processing equipment, is connected with the splice box between two backup pads including backup pad, splice box, board of falling water, screening frame, rotatory material mechanism and the mechanism that blocks up water, is equipped with the board of falling water on the splice box, and the inboard slidingtype of splice box is equipped with the screening frame, is equipped with rotatory material mechanism of falling on the splice box, is equipped with the mechanism that blocks up water on the rotatory material mechanism of falling, blocks up water mechanism and splice box cooperation.

Preferably, the connecting frame is provided with two first connecting rods, the first connecting rods are provided with sliding connecting plates in a sliding mode, straight gears are connected between the two sliding connecting plates and the screening frame, the straight gears are connected with the sliding connecting plates in a rotating mode, first springs are wound on the first connecting rods and connected between the first connecting rods and the sliding connecting plates, racks are arranged on the upper portions of the inner sides of the first connecting rods, and the racks are matched with the straight gears.

Preferably, the inner side of the lower part of the first connecting rod is provided with a second connecting rod, the lower parts of the two second connecting rods are connected with a water plugging plate, the water plugging plate is matched with the connecting frame, the top of the second connecting rod is provided with a first driving plate, the two second connecting rods are wound with second springs, and the second springs are connected between the first connecting rod and the first driving plate.

Preferably, be equipped with two first sliding sleeves on the connecting frame, first sliding sleeve upper portion inboard slidingtype is equipped with sliding connection pole, is connected with the slip dress frame between two sliding connection poles, all around having the third spring on two sliding connection poles, and third spring coupling is between first sliding sleeve and sliding connection pole, and last triangle drive piece that is equipped with of sliding connection board, triangle drive piece and the cooperation of sliding connection pole.

Preferably, four fixed plates are arranged on the connecting frame, four rotating shafts are rotatably connected between two adjacent fixed plates on two sides, belt pulleys are arranged on the rotating shafts, flat belts are connected between the four belt pulleys on the two sides, a second driving plate is arranged on the flat belts, two third driving plates are arranged on the screening frame, the third driving plates are connected with the connecting frame in a sliding mode, the second driving plates are matched with the third driving plates, two motors are installed on the connecting frame, and output shafts of the motors are connected with one close rotating shaft.

Preferably, the connecting frame is provided with two second sliding sleeves, a switch driving plate is arranged on the inner sides of the second sliding sleeves in a sliding mode and matched with the motor, a fourth spring is wound on the switch driving plate and connected between the second sliding sleeves and the switch driving plate, fourth driving plates are arranged on the two sliding connecting plates, and the fourth driving plates are matched with the switch driving plate.

Preferably, the connecting frame is provided with two third sliding sleeves, a first wedge block is slidably arranged on the inner sides of the third sliding sleeves, a fifth spring is wound on the first wedge block and connected between the third sliding sleeves and the first wedge block, a second wedge block is arranged at the bottom of the switch driving plate and matched with the first wedge block, a fifth driving plate is arranged on the first wedge block, and the fifth driving plate is matched with the second driving plate.

Preferably, the material of the third sliding sleeve is an alloy.

Compared with the prior art, the invention has the beneficial effects that:

1. the rotary dumping mechanism is arranged, and the rotary dumping mechanism operates and enables the screening frame to dump the garbage, so that people can conveniently collect the garbage;

2. according to the automatic material blocking device, the water blocking mechanism is arranged, and the rotary material pouring mechanism operates to drive the water blocking mechanism to operate, so that water and garbage in the connecting frame can be prevented from flowing outwards, and the purpose of automatic material blocking is achieved;

3. according to the garbage collecting device, the material receiving mechanism is arranged, the rotary material pouring mechanism operates to drive the material receiving mechanism to operate, and then the screening frame pours garbage into the material receiving mechanism, so that the purpose of automatic material receiving is achieved;

4. the automatic lifting device is provided with the automatic driving mechanism, the automatic driving mechanism operates and enables the screening frame and the garbage to move upwards, so that the purpose of automatic lifting is achieved, and the operation is simple and convenient;

5. according to the automatic material pouring device, the automatic pressing switch mechanism and the automatic switch resetting mechanism are arranged, the rotary material pouring mechanism operates to drive the automatic pressing switch mechanism to operate, and then the automatic switch resetting mechanism operates, so that the motor is automatically turned on and off, manual operation can be replaced, and time and labor are saved.

Drawings

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

Fig. 2 is a schematic perspective view of the rotary material pouring mechanism of the present invention.

Fig. 3 is a schematic perspective view of the water shutoff mechanism of the present invention.

Fig. 4 is a schematic perspective view of the receiving mechanism of the present invention.

Fig. 5 is a schematic three-dimensional structure diagram of the automatic driving mechanism of the present invention.

Fig. 6 is a schematic perspective view of the automatic push switch mechanism of the present invention.

Fig. 7 is a schematic perspective view of the automatic switch resetting mechanism of the present invention.

In the above drawings: 1. a support plate, 2, a connecting frame, 3, a water pouring plate, 4, a screening frame, 5, a rotary material pouring mechanism, 51, a first connecting rod, 52, a sliding connecting plate, 53, a straight gear, 54, a first spring, 55, a rack, 6, a water blocking mechanism, 61, a second connecting rod, 62, a water blocking plate, 63, a second spring, 64, a first driving plate, 7, a material receiving mechanism, 71, a first sliding sleeve, 72, a sliding connecting rod, 73, a sliding material loading frame, 74, a third spring, 75, a triangular driving block, 8, an automatic driving mechanism, 81, a fixed plate, 82, a rotating shaft, 83, a belt pulley, 84, a flat belt, 85, a second driving plate, 86, a third driving plate, 87, a motor, 9, an automatic pressing switch mechanism, 91, a second sliding sleeve, 92, a switch driving plate, 93, a fourth spring, 94, a fourth driving plate, 10, an automatic switch reset mechanism, 101, a third sliding sleeve, 102. a first wedge block 103, a fifth spring 104, a second wedge block 105 and a fifth driving plate.

Detailed Description

The invention will be further described with reference to the accompanying drawings and the detailed description below:

as shown in fig. 1-7, the energy-saving and environment-friendly river waste recycling device comprises a support plate 1, a connection frame 2, a water pouring plate 3, a screening frame 4, a rotary material pouring mechanism 5, a first connection rod 51, a sliding connection plate 52, a spur gear 53, a first spring 54, a rack 55, a water blocking mechanism 6, a second connection rod 61, a water blocking plate 62, a second spring 63, a first driving plate 64, a material receiving mechanism 7, a first sliding sleeve 71, a sliding connection rod 72, a sliding material loading frame 73, a third spring 74 seconds, a triangular driving block 75, an automatic driving mechanism 8, a fixed plate 81, a rotating shaft 82, a belt pulley 83, a flat belt 84, a second driving plate 85, a third driving plate 86, a motor 87, an automatic pressing switch mechanism 9, a second sliding sleeve 91, a switch driving plate 92, a fourth spring 93, a fourth driving plate 94, an automatic switch resetting mechanism 10, a third sliding sleeve 101, a first wedge block 102, Fifth spring 103, second wedge 104 and fifth driving plate 105 are connected with linking frame 2 between the backup pad 1 of the left and right sides, and linking frame 2 front side upper portion is equipped with water pouring plate 3, and the inboard slidingtype of linking frame 2 is equipped with screening frame 4, is equipped with rotatory material mechanism 5 of falling on linking frame 2, is equipped with water shutoff mechanism 6 on the rotatory material mechanism 5 of falling, and water shutoff mechanism 6 cooperates with linking frame 2.

When people need to recover the garbage in the river, firstly, people fix the supporting plate 1 at a flowing low-lying position of the river to enable the river to flow to the top of the water pouring plate 3, then the river slides into the screening frame 4 from the water pouring plate 3 due to gravity, the screening frame 4 filters the river to enable the garbage and water to be separated, meanwhile, the gravity of the garbage enables the screening frame 4 to slide downwards in the connecting frame 2, people enable the screening frame 4 to slide upwards out of the connecting frame 2 after a certain amount of garbage is accumulated in the screening frame 4, meanwhile, the screening frame 4 moves to enable the rotary material pouring mechanism 5 to operate, after the screening frame 4 rises to a certain height, the rotary material pouring mechanism 5 enables the screening frame 4 to rotate to pour the garbage out, people collect the garbage again, simultaneously, the river continuously flows into the connecting frame 2, the rotary material pouring mechanism 5 enables the water blocking mechanism 6 to operate, and therefore, the garbage and the garbage flowing into the connecting frame 2 are prevented from flowing outwards again, then people make the screening frame 4 resume the normal position, and then make rotatory mechanism 5 of falling material and the mechanism 6 normal position of water blocking, people collect the rubbish that flows out in the link frame 2 simultaneously, wait that rubbish recovery work accomplishes the back, people make this equipment leave the river, if reuse this equipment, it can to repeat above-mentioned step.

In a preferred embodiment, the lower portions of the left and right sides of the connecting frame 2 are respectively provided with a first connecting rod 51, the first connecting rods 51 are slidably provided with a sliding connecting plate 52, two sliding connecting plates 52 and the screen frame 4 are respectively connected with a straight gear 53, the straight gear 53 is rotatably connected with the sliding connecting plate 52, the first connecting rod 51 is wound with a first spring 54, the first spring 54 is connected between the first connecting rod 51 and the sliding connecting plate 52, the upper portion of the inner side of the first connecting rod 51 is provided with a rack 55, and the rack 55 is matched with the straight gear 53.

In a preferred embodiment, the second link rods 61 are provided inside the lower portions of the first link rods 51, the water blocking plate 62 is connected between the lower portions of the two second link rods 61, the water blocking plate 62 is engaged with the coupling frame 2, the first driving plate 64 is provided on the top portion of the second link rods 61, the second springs 63 are wound around the two second link rods 61, and the second springs 63 are connected between the first link rods 51 and the first driving plate 64.

In a preferred embodiment, two first sliding sleeves 71 are provided on the front side of the connecting frame 2, sliding connecting rods 72 are slidably provided on the inner sides of the upper portions of the first sliding sleeves 71, a sliding loading frame 73 is connected between the sliding connecting rods 72 on the left and right sides, third springs 74 are wound around both the sliding connecting rods 72, the third springs 74 are connected between the first sliding sleeves 71 and the sliding connecting rods 72, a triangular driving block 75 is provided on the front side of the sliding connecting plate 52, and the triangular driving block 75 is engaged with the sliding connecting rods 72.

In a preferred embodiment, four fixed plates 81 are provided at the lower rear portion of the connecting frame 2, four rotating shafts 82 are rotatably connected between the two left fixed plates 81 and between the two right fixed plates 81, belt pulleys 83 are provided on the rotating shafts 82, flat belts 84 are connected between the four left and right belt pulleys 83, a second driving plate 85 is provided at the lower front portion of the flat belts 84, third driving plates 86 are provided at the lower left and right sides of the rear portion of the screen frame 4, the third driving plates 86 are slidably connected to the connecting frame 2, the second driving plates 85 are engaged with the third driving plates 86, motors 87 are mounted at the left and right sides of the rear portion of the connecting frame 2, and output shafts of the motors 87 are connected to the rotating shafts 82 at the lower front portion.

In a preferred embodiment, the connecting frame 2 is provided with second sliding sleeves 91 at both left and right sides of the rear portion thereof, a switch driving plate 92 is slidably provided inside the second sliding sleeves 91, the switch driving plate 92 is engaged with the motor 87, a fourth spring 93 is wound around the switch driving plate 92, the fourth spring 93 is connected between the second sliding sleeves 91 and the switch driving plate 92, and fourth driving plates 94 are provided at rear sides of the two sliding connecting plates 52, and the fourth driving plates 94 are engaged with the switch driving plate 92.

In a preferred embodiment, the rear sides of the lower portions of the left and right sides of the coupling frame 2 are provided with third sliding sleeves 101, the inner sides of the third sliding sleeves 101 are slidably provided with first wedge blocks 102, fifth springs 103 are wound on the first wedge blocks 102, the fifth springs 103 are connected between the third sliding sleeves 101 and the first wedge blocks 102, the bottom of the switch driving plate 92 is provided with second wedge blocks 104, the second wedge blocks 104 are engaged with the first wedge blocks 102, the front sides of the first wedge blocks 102 are provided with fifth driving plates 105, and the fifth driving plates 105 are engaged with the second driving plates 85.

When the garbage in the screening frame 4 is gradually increased, the gravity of the garbage enables the screening frame 4 to move downwards, and further enables the straight gear 53 to move downwards, and then the sliding connection plate 52 slides downwards on the first connection rod 51, the first spring 54 is changed from an initial state to a stretching state, after a certain amount of garbage is accumulated in the screening frame 4, people manually enable the screening frame 4 to move upwards, so that the garbage, the sliding connection plate 52 and the straight gear 53 move upwards, the first spring 54 resets firstly, and then the initial state is changed to a compressing state, when the straight gear 53 is meshed with the rack 55, the rack 55 enables the straight gear 53 to rotate, and further the screening frame 4 rotates and pours the garbage, then people loosen the screening frame 4, and the first spring 54 resets, so that the screening frame 4 and the sliding connection plate 52 restore to the original positions.

When the sliding connection plate 52 moves upwards to contact with the first driving plate 64, the sliding connection plate 52 drives the first driving plate 64 to move upwards, so that the second connecting rod 61 slides upwards in the first connecting rod 51, the water blocking plate 62 moves upwards, meanwhile, the second spring 63 changes from an initial state to a stretching state, then the water blocking plate 62 is matched with the connecting frame 2, water and garbage in the connecting frame 2 are prevented from flowing outwards, and when the sliding connection plate 52 moves back downwards to the original position, the second spring 63 resets, so that the water blocking plate 62 and the first driving plate 64 move back to the original position.

The sliding connection plate 52 moves upwards to drive the triangular driving block 75 to move upwards, then the triangular driving block 75 enables the sliding connection rod 72 to slide forwards in the first sliding sleeve 71, the third spring 74 is changed from an initial state to a compressed state, the sliding connection rod 72 moves to enable the sliding loading frame 73 to move forwards, then the screening frame 4 pours out garbage, the garbage falls into the sliding loading frame 73 due to gravity, then the sliding connection plate 52 drives the triangular driving block 75 to move back downwards to the original position, the third spring 74 resets, the sliding connection rod 72 and the sliding loading frame 73 move back to the original position, and people take out the garbage in the sliding loading frame 73, so that the purpose of automatic material receiving is achieved.

When a certain amount of garbage is accumulated in the screening frame 4, people start the motor 87, the output shaft of the motor 87 drives the rotating shaft 82 at the lower side of the front part to rotate, and further the front lower pulley 83 is rotated, so that the flat belt 84 is rotated, and further the remaining pulley 83 is rotated, so that the remaining rotation shaft 82 is rotated, the flat belt 84 is rotated to move the second driving plate 85 upward, and then the third driving plate 86 is moved upward, thereby moving the screen frame 4 upward, thus achieving the purpose of automatic ascent, and then the screen frame 4 is rotated, and then the third driving plate 86 is moved forward, while the second driving plate 85 is gradually separated from the third driving plate 86, the flat belt 84 then continues to move the second driving plate 85 while the screen frame 4 moves the third driving plate 86 back into position, whereupon the motor 87 is turned off so that the second driving plate 85 stops moving and the screen frame 4 continues to filter the river water.

The downward movement of the sliding link plate 52 causes the fourth driving plate 94 to move downward, then the fourth driving plate 94 causes the switch driving plate 92 to slide downward in the second sliding sleeve 91, the fourth spring 93 is changed from the initial state to the compressed state, the switch driving plate 92 moves downward to start the motor 87, so that the screening frame 4 drives the garbage to move upward, further the fourth driving plate 94 moves upward, the person manually presses the switch driving plate 92 downward again to enable the motor 87 to be in the starting state, after the screening frame 4 pours the garbage out and moves back to the original position downward, the person releases the switch driving plate 92, the fourth spring 93 resets, the switch driving plate 92 moves back to the original position, and the motor 87 is turned off.

The downward movement of the switch driving plate 92 will drive the second wedge-shaped block 104 to move downwards, and further the first wedge-shaped block 102 slides forward in the third sliding bush 101, and further the fifth driving plate 105 moves forward, and at the same time the fifth spring 103 changes from the initial state to the compressed state, when the second wedge-shaped block 104 is separated from the first wedge-shaped block 102, the fifth spring 103 is reset, so that the first wedge-shaped block 102 and the fifth driving plate 105 move back to the original position, at which time the first wedge-shaped block 102 catches the second wedge-shaped block 104 and the switch driving plate 92, and thus the motor 87 can be prevented from being immediately turned off, when the second driving plate 85 moves to contact with the fifth driving plate 105, the second driving plate 85 will move the fifth driving plate 105 forward, and further the first wedge-shaped block 102 moves forward, the fifth spring 103 is compressed, and then the fourth spring 93 will move the switch driving plate 92 and the second wedge-shaped block 104 back upward, and the motor 87 is turned off, so that the second driving plate 85 stops moving, at the same time, the fifth spring 103 is reset, thereby moving the first wedge block 102 and the fifth driver plate 105 back into position.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an energy-concerving and environment-protective river rubbish recovery processing equipment, a serial communication port, including backup pad (1), carriage (2), board (3) of falling water, screening frame (4), rotatory material mechanism (5) and water shutoff mechanism (6) fall, be connected with carriage (2) between two backup pads (1), be equipped with board (3) of falling water on carriage (2), carriage (2) inboard slidingtype is equipped with screening frame (4), be equipped with rotatory material mechanism (5) of falling on carriage (2), be equipped with water shutoff mechanism (6) on rotatory material mechanism (5), water shutoff mechanism (6) and carriage (2) cooperation.

2. The river water garbage recycling and treating device as claimed in claim 1, wherein two first connecting rods (51) are arranged on the connecting frame (2), a sliding connecting plate (52) is slidably arranged on the first connecting rods (51), a straight gear (53) is connected between the two sliding connecting plates (52) and the screening frame (4), the straight gear (53) is rotatably connected with the sliding connecting plates (52), a first spring (54) is wound on the first connecting rods (51), the first spring (54) is connected between the first connecting rods (51) and the sliding connecting plates (52), a rack (55) is arranged on the upper portion of the inner side of each first connecting rod (51), and the rack (55) is matched with the straight gear (53).

3. The river water garbage recycling and treating device for energy conservation and environmental protection as claimed in claim 2, wherein a second connecting rod (61) is arranged at the inner side of the lower part of the first connecting rod (51), a water blocking plate (62) is connected between the lower parts of the two second connecting rods (61), the water blocking plate (62) is matched with the connecting frame (2), a first driving plate (64) is arranged at the top of the second connecting rod (61), a second spring (63) is wound on each of the two second connecting rods (61), and the second spring (63) is connected between the first connecting rod (51) and the first driving plate (64).

4. The energy-saving and environment-friendly river water garbage recycling and treating equipment as claimed in claim 3, wherein two first sliding sleeves (71) are arranged on the connecting frame (2), sliding connecting rods (72) are slidably arranged on the inner sides of the upper portions of the first sliding sleeves (71), a sliding loading frame (73) is connected between the two sliding connecting rods (72), third springs (74) are wound on the two sliding connecting rods (72), the third springs (74) are connected between the first sliding sleeves (71) and the sliding connecting rods (72), triangular driving blocks (75) are arranged on the sliding connecting plates (52), and the triangular driving blocks (75) are matched with the sliding connecting rods (72).

5. The energy-saving and environment-friendly river water garbage recycling and treating equipment as claimed in claim 4, wherein four fixing plates (81) are arranged on the connecting frame (2), four rotating shafts (82) are rotatably connected between two adjacent fixing plates (81) on two sides, belt pulleys (83) are arranged on the rotating shafts (82), flat belts (84) are connected between the four belt pulleys (83) on two sides, second driving plates (85) are arranged on the flat belts (84), two third driving plates (86) are arranged on the screening frame (4), the third driving plates (86) are slidably connected with the connecting frame (2), the second driving plates (85) are matched with the third driving plates (86), two motors (87) are arranged on the connecting frame (2), and the output shafts of the motors (87) are connected with one adjacent rotating shaft (82).

6. The river waste recycling and treating equipment for energy conservation and environmental protection as claimed in claim 5, wherein the connecting frame (2) is provided with two second sliding sleeves (91), the inner sides of the second sliding sleeves (91) are slidably provided with switch driving plates (92), the switch driving plates (92) are matched with the motor (87), the switch driving plates (92) are wound with fourth springs (93), the fourth springs (93) are connected between the second sliding sleeves (91) and the switch driving plates (92), the two sliding connecting plates (52) are respectively provided with a fourth driving plate (94), and the fourth driving plates (94) are matched with the switch driving plates (92).

7. The energy-saving and environment-friendly river water garbage recycling and treating equipment as claimed in claim 6, wherein two third sliding sleeves (101) are arranged on the connecting frame (2), a first wedge block (102) is slidably arranged on the inner sides of the third sliding sleeves (101), a fifth spring (103) is wound on the first wedge block (102), the fifth spring (103) is connected between the third sliding sleeves (101) and the first wedge block (102), a second wedge block (104) is arranged at the bottom of the switch driving plate (92), the second wedge block (104) is matched with the first wedge block (102), a fifth driving plate (105) is arranged on the first wedge block (102), and the fifth driving plate (105) is matched with the second driving plate (85).

8. The river waste recycling and processing equipment for energy conservation and environmental protection as claimed in claim 7, wherein the material of the third sliding sleeve (101) is alloy.

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