Disclosure of Invention
The invention provides a water making device for improving domestic drinking water and a preparation method thereof, aiming at the defects of the prior art.
The technical scheme provided by the invention is as follows:
the utility model provides an improve water making device of life drinking water quality, includes the filter screen part, and the filter screen part is folded by double-deck screen cloth and is formed, forms sandwich structure and separates into a plurality of rectangle storage groove that are used for placing the water making piece between the double-deck screen cloth, and the upper end of rectangle storage groove sets up detachable plug, and the lower extreme of double-deck screen cloth sets up the bottom grid.
Preferably, the double-layer screen mesh is in a cylindrical structure and is a screen cylinder, the screen cylinder is formed by wrapping the double-layer screen mesh, an annular sandwich structure is formed between the double-layer screen mesh, and the double-layer screen mesh is separated into a plurality of rectangular storage tanks for placing water producing sheets.
Preferably, the double-layer screen net is in a plate-shaped structure, the screen plate is formed by stacking double-layer screens, and a sandwich structure is formed between the double-layer screens and is separated into a plurality of rectangular storage tanks (46) for placing water producing sheets.
Specifically, the upper end of double-deck screen cloth is fixed to be set up and is put the silo, corresponds the silo and is provided with two parallel arrangement's dead lever, and the last slip of dead lever sets up first support and second support, and electric telescopic handle is fixed to be set up with first support with the dead lever relatively, and the electric telescopic handle other end is fixed with first support, and the fixed setting of relative dead lever is provided with the shake mechanism that can amortize even drainage system water sheet under the second support operating condition between first support and the second support.
Specifically, shake mechanism includes first plate, the second plate, the third plate, the fourth plate, first plate, the second plate, the third plate, the fourth plate articulates in proper order, first plate, the second plate, the third plate, set up the cylinder on one of them plate in below of looks articulated department between the fourth plate, be provided with the spacing groove with this cylinder looks adaptation on the other plate, first plate, the second plate, the equal fixed connection first baffle in the outside of third plate, the fourth plate, the link fixedly connected with two second baffles of first plate and second plate, the fixed third baffle that sets up in position of relative fourth plate on the second support, be provided with two motherboards on first support and the second support, inboard is provided with the actuating mechanism that can drive L shaped plate along dead lever axis direction motion on the motherboard, the motherboard rotates with L shaped plate to be connected.
Specifically, first plate, second plate, third plate, fourth plate are formed by two flat hinges, two second baffles dislocation distribution, first support and second support are all fixed to set up the motor, fixed the setting of rotation axis of motor is gone up and is had two mother boards of every equal threaded connection of two threaded rod, one of them is connected with first support rotation, another one is connected with second support rotation, the mother board that is close to first support is located the both sides of first plate and rotates with it to be connected, the mother board that is close to the second support is located the both sides of fourth plate and rotates with it to be connected.
Specifically, below one side of fourth plate is equipped with the material receiving box, material receiving box is articulated with the top of blowing groove, the logical groove has been seted up on the inboard lateral wall of blowing groove, the inboard sliding connection of logical groove has first inclined plane piece, one side fixedly connected with second inclined plane piece of first inclined plane piece, the equal sliding connection in both sides of second inclined plane piece has the connecting rod, the one end and the blowing groove fixed connection of connecting rod, the spring has been cup jointed in the outside of connecting rod, spring fixed connection connecting rod and blowing groove respectively, fixedly on the blowing groove be provided with the sliding sleeve that is located second inclined plane piece top, slide in the sliding sleeve and set up the push rod, the inclined plane of second inclined plane piece sets up and with push rod sliding contact, push rod top pushes away material receiving box, be equipped with L shape push pedal in the groove of blowing groove, the top fixedly connected with L shape connecting piece of L shape push pedal stretches out the outside of blowing groove and with blowing groove sliding connection, the bottom fixedly connected with fourth motor of L shape connecting piece, fixedly connected with gear on the motor shaft of fourth motor, the outside fixedly connected with annular rack of blowing, the gear is connected with meshing with annular rack.
Specifically, a plurality of circular feed tanks are arranged at the tank bottom of the discharge tank, the circular feed tanks are of two diameters and the same in quantity and are distributed at intervals in an annular mode, the circular feed tanks are communicated with the rectangular storage tank and are in curve-shaped transitional connection to form a first arc-shaped inclined surface and a second arc-shaped inclined surface respectively, and the connection position of the first arc-shaped inclined surface and the circular feed tanks is higher than that of the second arc-shaped inclined surface and the circular feed tanks.
The invention also provides a preparation method of the water making device for improving the quality of the domestic drinking water, which comprises the steps of cutting two screens to form a double-layer screen with a sandwich structure, separating the sandwich between the double-layer screens in a welding mode to form a plurality of rectangular storage tanks, placing a jig in the rectangular storage tanks to carry out forming treatment, arranging a detachable plug at the upper end of each rectangular storage tank, and welding a bottom net at the lower end of each double-layer screen.
According to the invention, the water producing pieces with different sizes can automatically enter the corresponding discharge grooves without manual screening, the screening and placing speed of the water producing pieces is improved, and meanwhile, a batch of water producing pieces are divided into a plurality of times of discharging, so that the situation that the water producing pieces in the material receiving box and the discharge grooves are excessively scattered outside due to continuous discharge of the water producing pieces is avoided. The solution provided by the invention is especially suitable for large-sized water tanks with the diameter of 10 meters, improves the placement speed of the water making sheet and saves manpower.
Detailed Description
Example 1
The utility model provides an improve water making device of life drinking water quality, includes filter screen cylinder 1, and filter screen cylinder 1 is wrapped up in by double-deck screen cloth and is made, forms cyclic annular sandwich structure and separates into a plurality of rectangle storage groove 46 that are used for placing the water making piece between the double-deck screen cloth, and the upper end of rectangle storage groove 46 sets up detachable stopper, and the lower extreme of double-deck screen cloth sets up the bottom net. When in use, the water making device for improving the quality of the domestic drinking water is placed in the water tank.
The water making device can be prepared by cutting two screens, wrapping the two screens into cylinders, placing one of the cylinders into the other cylinder to form a double-layer screen with an annular sandwich structure, then separating the annular sandwich between the double-layer screens in a welding mode to form a plurality of rectangular storage tanks 46, placing a jig in the rectangular storage tanks 46 to form, arranging a detachable plug at the upper end of the rectangular storage tanks 46, and welding the lower ends of the double-layer screen to form a bottom net.
The upper end of the double-layer screen is fixedly provided with an annular discharge groove 2, and the inner wall of the discharge groove 2 is fixedly provided with two fixing rods 26 which are arranged in parallel. The fixed rod 26 is provided with a first bracket 16 and a second bracket 24, and a shaking mechanism capable of flattening the uniform lower drainage water producing sheet is arranged between the first bracket 16 and the second bracket 24. The first bracket 16 and the second bracket 24 can be detachably mounted on the fixed rod 2, and the water producing sheet is filled and then detached. The fixed rod 26 can also be connected with the discharging groove 2 through a detachable mechanism.
The fixed rod 26 is slidably provided with the first bracket 16. The second bracket 24 is fixedly disposed on the fixing rod 26. One end of the electric telescopic rod 27 is fixed with the discharge chute 2, and the other end of the electric telescopic rod 27 is fixed with the first bracket 16.
The shake mechanism includes first plate 3, second plate 4, third plate 5, fourth plate 6, first plate 3, second plate 4, third plate 5, fourth plate 6 articulates in proper order, set up the cylinder on one of them plate of below of looks articulated department between first plate 3, second plate 4, third plate 5, fourth plate 6, be provided with the spacing groove with this cylinder looks adaptation on the other plate, first plate 3, second plate 4, third plate 5, the equal fixed connection first baffle 7 in the outside of fourth plate 6, the link fixedly connected with two second baffles 8 of first plate 3 and second plate 4, the fixed third baffle 25 that sets up in position of relative fourth plate 6 on the second support 24, be provided with two motherboards on first support 16 and the second support 24, inboard is provided with the actuating mechanism that can drive L shaped plate along dead lever 26 axis direction motion on the motherboard, the motherboard rotates with L shaped plate and is connected.
The first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are formed by hinging two flat plates, the two second baffle plates 8 are distributed in a staggered mode, the first support 16 and the second support 24 are all fixedly provided with motors, the rotating shafts of the motors are fixedly provided with bidirectional threaded rods, each bidirectional threaded rod is in threaded connection with two mother plates, one bidirectional threaded rod is rotationally connected with the first support 16, the other bidirectional threaded rod is rotationally connected with the second support 24, the mother plates close to the first support 16 are located on two sides of the first plate 3 and rotationally connected with the first plate, and the mother plates close to the second support 24 are located on two sides of the fourth plate 6 and rotationally connected with the fourth plate.
The following structure is specifically adopted in this embodiment. Both sides of the first plate 3 are hinged with a first L-shaped plate 9 (the position of the hinge axis is shown in fig. 3), and a first shaft lever 10 is fixedly connected to the side surface of the first L-shaped plate 9. One side of the first plate 3 is provided with a first bracket 16, one side of the top end of the first bracket 16 is fixedly connected with a second motor 17, a motor shaft of the second motor 17 is fixedly connected with a first bidirectional threaded rod 18, and one end of the first bidirectional threaded rod 18 is rotationally connected with the first bracket 16. The first mother board 12 is connected to both sides of the first bidirectional threaded rod 18 in a threaded manner, and the first mother board 12 is slidably connected to the top end of the first bracket 16. The inside fixedly connected with first motor 13 of first mother board 12, fixedly connected with first threaded rod 14 on the motor shaft of first motor 13, the one end and the first mother board 12 rotation of first threaded rod 14 are connected, and first mother board 12 inboard is equipped with slider 11, slider 11 and first mother board 12 sliding connection, slider 11 and first threaded rod 14 threaded connection, slider 11 and first axostylus axostyle 10 rotation connection. The top end of the first motherboard 12 is fixedly connected with a first slide seat 15, and the first shaft lever 10 is in sliding connection with the first slide seat 15.
Both sides of the fourth plate 6 are hinged with a second L-shaped plate 19 (the position of the hinge axis is shown in fig. 3), and a second shaft 20 is fixedly connected to the side surface of the second L-shaped plate 19. A second bracket 24 is arranged on one side of the fourth plate 6, a third motor 23 is fixedly connected to one side of the top end of the second bracket 24, a second bidirectional threaded rod 22 is fixedly connected to a motor shaft of the third motor 23, and one end of the second bidirectional threaded rod 22 is rotatably connected with the second bracket 24. The two sides of the second bidirectional threaded rod 22 are connected with a second motherboard 21 in a threaded manner, and the second motherboard 21 is connected with the top end of the second bracket 24 in a sliding manner. The second motherboard 21 is rotatably connected to the second axle 20.
A first air cylinder 28 and a limit groove 31 are arranged between the first plate 3 and the second plate 4, a second air cylinder 29 and a limit groove 31 are arranged between the second plate 4 and the third plate 5, and a third air cylinder 30 and a limit groove 31 are arranged between the third plate 5 and the fourth plate 6. As shown in fig. 5.
The lower side of the fourth plate 6 is provided with a material receiving box 32, the material receiving box 32 is hinged with the top end of the material discharging groove 2, the inner side wall of the material discharging groove 2 is provided with a through groove 33, the inner side of the through groove 33 is slidably connected with a first inclined surface block 34, one side of the first inclined surface block 34 is fixedly connected with a second inclined surface block 35, two sides of the second inclined surface block 35 are slidably connected with a connecting rod 38, one end of the connecting rod 38 is fixedly connected with the material discharging groove 2, the outer side of the connecting rod 38 is sleeved with a spring 39, the spring 39 is fixedly connected with the connecting rod 38 and the material discharging groove 2 respectively, the material discharging groove 2 is fixedly provided with a sliding sleeve 37 positioned above the second inclined surface block 35, a push rod 36 is slidably arranged in the sliding sleeve 37, the inclined surface of the second inclined surface block 35 is arranged towards the push rod 36 and slidably contacts with the push rod 36, the upper side of the push rod 36 pushes the material receiving box 32, an L-shaped push plate 40 is arranged in the groove of the material discharging groove 2, the top end of the L-shaped push plate 40 is fixedly connected with an L-shaped connecting piece, the L-shaped connecting piece extends out of the outer side of the material discharging groove 2 and is slidably connected with the material discharging groove 2, the bottom end of the L-shaped connecting piece is fixedly connected with a fourth motor 41, the motor shaft 41 is fixedly connected with the outer side of the fourth motor shaft 41, the ring gear 42 is fixedly connected with a ring gear 44, and the ring gear 44 is fixedly connected with the outer side of the ring gear 44 of the material discharging groove 42, and the ring gear 44 is meshed with the ring gear 44.
The tank bottom of the discharging tank 2 is provided with a plurality of circular feeding tanks 45, the circular feeding tanks 45 have two diameters and the same quantity and are distributed at intervals in a ring shape, the circular feeding tanks 45 are communicated with the rectangular storage tank 46 and are connected in a curve-shaped transitional manner to form a first arc-shaped inclined surface 47 and a second arc-shaped inclined surface 48 respectively, and the connection position of the first arc-shaped inclined surface 47 and the circular feeding tank 45 is higher than the connection position of the second arc-shaped inclined surface 48 and the circular feeding tank 45.
Initial state of the device: the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are horizontally distributed; the spring 39 in fig. 8 is in a natural state, and the stock box 32 is in a state of being inclined leftward.
When the water producing device is used, a batch of water producing sheets with two sizes are poured onto the second plate 4, the third plate 5 and the fourth plate 6, the second motor 17 and the third motor 23 are started to drive the first bidirectional threaded rod 18 and the second bidirectional threaded rod 22 to rotate respectively, so that the two first mother boards 12 and the two second mother boards 21 move towards the middle part of the bidirectional threaded rod simultaneously, the first mother boards 12 push the first L-shaped plates 9 to move towards the middle part of the bidirectional threaded rod through the sliding piece 11 and the first shaft rod 10, the second mother boards 21 push the second L-shaped plates 19 to move towards the middle part of the bidirectional threaded rod through the second shaft rod 20, the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are further converted into a second state (shown in fig. 6), and at this time, the water producing sheets slide towards the hinge shaft position in the middle of the two flat plates and are blocked by the second baffle 8 and the third baffle 25 and cannot slide out to the outside.
At this time, the second motor 17 and the third motor 23 are turned off, and the electric telescopic rod 27 is started, and the electric telescopic rod 27 drives the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to perform telescopic movement with a certain frequency through the first bracket 16 and the second bracket 24, so that the water producing sheets are uniformly distributed at the positions of the hinge shafts between the two flat plates. If the electric telescopic rod 27 is not provided, the first bracket 16 and the second bracket 24 may also be manually swung. The water producing sheets can be evenly distributed at the position of the hinge shaft between the two flat plates directly through the tool.
Then the electric telescopic rod 27 is closed, the second motor 17 and the third motor 23 are started to reversely rotate so that the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are restored to the horizontal state (as shown in fig. 1), and the second motor 17 and the third motor 23 are closed. Then, the first cylinder 28 and the second cylinder 29 are controlled to be inserted into the limiting groove 31, and the third cylinder 30 is not inserted. Then, the first motor 13 is started to drive the first threaded rod 14 to rotate, and then the sliding part 11 is driven to move rightwards (in the observing direction shown in fig. 4), the sliding part 11 drives the first plate 3 to move rightwards through the first shaft rod 10 and the first L-shaped plate 9, and then the hinge shaft of the third plate 5 and the fourth plate 6 moves upwards, so that the plate integrating the first plate 3, the second plate 4 and the third plate 5 and the fourth plate 6 form an inverted V shape, and at the moment, the water making sheet on the fourth plate 6 can slide into the material receiving box 32, and the water making sheet on the first plate 3, the second plate 4 and the third plate 5 can move leftwards. Then the first motor 13 is started to rotate reversely to restore the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to the horizontal state.
The second motor 17 and the third motor 23 are then controlled again to operate, so that the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are shifted to the second state (fig. 6). And then the electric telescopic rod 27 is controlled to drive the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to perform telescopic movement with a certain frequency, so that the rest water producing sheets are uniformly distributed at the middle hinge shaft position. The first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are then restored to the horizontal state. Then, the first cylinder 28 and the third cylinder 30 are controlled to be inserted into the limiting groove 31, and the second cylinder 29 is not inserted. Then, the first motor 13 is started to drive the first plate 3 to move rightwards so that the hinge shafts of the second plate 4 and the third plate 5 move upwards, the plate integrating the first plate 3 and the second plate 4 with the plate integrating the third plate 5 and the fourth plate 6 form an inverted V shape, at the moment, the water producing pieces on the third plate 5 and the fourth plate 6 can slide into the material receiving box 32, and the water producing pieces on the first plate 3 and the second plate 4 can move leftwards. Then the first motor 13 is started to rotate reversely to restore the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to the horizontal state.
Then, the second motor 17 and the third motor 23 are controlled again to operate, so that the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are converted into the second state (as shown in fig. 6). And then the electric telescopic rod 27 is controlled to drive the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to perform telescopic movement with a certain frequency, so that the rest water producing sheets are uniformly distributed at the position of the hinge shaft between the two flat plates. The first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are then restored to the horizontal state. Then, the second cylinder 29 and the third cylinder 30 are controlled to be inserted into the limiting groove 31, and the first cylinder 28 is not inserted. Then, the first motor 13 is started to drive the first plate 3 to move rightwards so as to enable the hinge shafts of the first plate 3 and the second plate 4 to move upwards, the plates integrated by the second plate 4, the third plate 5 and the fourth plate 6 and the plates integrated by the first plate 3 form an inverted V shape, at the moment, the water producing sheets on the second plate 4, the third plate 5 and the fourth plate 6 can slide into the material receiving box 32, and then the first motor 13 is started to rotate reversely so as to enable the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to recover to the horizontal state again.
In summary, a batch of water producing pieces of different sizes is divided into three times and falls into the material receiving box 32, and the number of water producing pieces is approximately equal.
During use, the L-shaped push plate 40 continuously rotates in the discharge groove 2 through the cooperation of the fourth motor 41, the gear 42 and the annular chute 43. And each time the water making sheet falls into the material receiving box 32, the L-shaped push plate 40 is close to the position of the through groove 33, then the long edge of the L-shaped push plate 40 pushes the first inclined surface block 34 to move inwards, and then the push rod 36 is moved upwards through the second inclined surface block 35, so that the material receiving box 32 is jacked up and has a certain inclination angle, and the water making sheet in the material receiving box 32 slides in the material placing groove 2. The short plates of the L-shaped push plate 40 then push the water making pieces to move in the discharge chute 2, and when the water making pieces with different sizes pass through a plurality of circular feed tanks 45 with different sizes, the water making pieces can fall into the circular feed tanks 45 with corresponding sizes. Under the cooperation of the first arc-shaped inclined surface 47 and the second arc-shaped inclined surface 48, the water making sheet is rotated to a vertical state and enters the rectangular storage groove 46. The three times of water sheet making and discharging and the continuous rotation of the L-shaped pushing plate 40 are carried out until the plurality of rectangular storage tanks 46 are filled and blocked.
With the water making device for the small-sized water tank, after the water making sheet is placed, the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 can be used as handles. The first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are adjusted to be in a horizontal state, and then the first air cylinder 28, the second air cylinder 29 and the third air cylinder 30 are not inserted into the limit groove 31, so that the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 can be bent to be used as handles.
Example 2
The utility model provides an improve water making device of life drinking water quality, includes the filter screen part, and the filter screen part is folded the welding by double-deck screen cloth and is formed, and double-deck screen cloth becomes platy structure and is filter screen plate 51, forms sandwich structure and separates into a plurality of rectangle storage groove 46 that are used for placing the water making piece between the double-deck screen cloth. The upper end of the rectangular storage groove 46 is provided with a detachable plug, and the lower end of the double-layer screen is provided with a bottom screen.
The water making device can be prepared by cutting two screens, stacking the two screens into a plate shape, placing one screen on the other screen to form a double-layer screen with a sandwich structure, then separating the sandwich between the double-layer screens in a welding mode to form a plurality of rectangular storage tanks 46, placing a jig in the rectangular storage tanks 46 to form the rectangular storage tanks, arranging a detachable plug at the upper end of the rectangular storage tanks 46, and welding the lower ends of the double-layer screens to form a bottom net.
The upper end of the screen plate 51 is fixedly provided with a storage tank 2. A material receiving box 32 is hinged to one side of the top end of the filter screen plate 51.
Two mounting frames 200 are detachably mounted on the top end of the water tank 100, and two fixing rods 26 are fixedly connected between the two mounting frames 200. The fixed rod 26 is positioned above the discharge chute 2. The first bracket 16 and the second bracket 24 are both slidably connected to a fixed rod 26. One side of the first bracket 16 is fixedly connected with an electric telescopic rod 27, the other end of the electric telescopic rod 27 is fixedly connected with a fixing plate 49, and two ends of the fixing plate 49 are fixedly connected with the fixing rod 26. A limiting block 50 is connected to the outer sides of the two fixing rods 26 for limiting the second bracket 24. The limiting block 42 is in interference fit with the fixed rod 26, so that the limiting block 42 can be in sliding fit on the fixed rod 26 through a tool, and the limiting block can be used for limiting and fixing the second bracket 24. So that the second bracket 24 is fixedly arranged relative to the fixing rod 26 in the working state,
a shaking mechanism capable of flattening the uniform lower drainage water producing sheet is arranged between the first bracket 16 and the second bracket 24.
The shake mechanism includes first plate 3, second plate 4, third plate 5, fourth plate 6, first plate 3, second plate 4, third plate 5, fourth plate 6 articulates in proper order, set up the cylinder on one of them plate of below of looks articulated department between first plate 3, second plate 4, third plate 5, fourth plate 6, be provided with the spacing groove with this cylinder looks adaptation on the other plate, first plate 3, second plate 4, third plate 5, the equal fixed connection first baffle 7 in the outside of fourth plate 6, the link fixedly connected with two second baffles 8 of first plate 3 and second plate 4, the fixed third baffle 25 that sets up in position of relative fourth plate 6 on the second support 24, be provided with two motherboards on first support 16 and the second support 24, inboard is provided with the actuating mechanism that can drive L shaped plate along dead lever 26 axis direction motion on the motherboard, the motherboard rotates with L shaped plate and is connected.
The first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are formed by hinging two flat plates, the two second baffle plates 8 are distributed in a staggered mode, the first support 16 and the second support 24 are all fixedly provided with motors, the rotating shafts of the motors are fixedly provided with bidirectional threaded rods, each bidirectional threaded rod is in threaded connection with two mother plates, one bidirectional threaded rod is rotationally connected with the first support 16, the other bidirectional threaded rod is rotationally connected with the second support 24, the mother plates close to the first support 16 are located on two sides of the first plate 3 and rotationally connected with the first plate, and the mother plates close to the second support 24 are located on two sides of the fourth plate 6 and rotationally connected with the fourth plate.
The lower side of the fourth plate 6 is provided with a receiving box 32, the receiving box 32 is hinged with the top end of the discharging groove 2, the inner side wall of the discharging groove 2 is provided with a through groove 33, the inner side of the through groove 33 is connected with a first inclined surface block 34 in a sliding mode, one side of the first inclined surface block 34 is fixedly connected with a second inclined surface block 35, two sides of the second inclined surface block 35 are connected with connecting rods 38 in a sliding mode, one end of each connecting rod 38 is fixedly connected with the discharging groove 2, the outer side of each connecting rod 38 is sleeved with a spring 39, the springs 39 are respectively fixedly connected with the connecting rods 38 and the discharging groove 2, the discharging groove 2 is fixedly provided with a sliding sleeve 37 positioned above the second inclined surface block 35, a push rod 36 is arranged in a sliding mode in the sliding sleeve 37, the inclined surface of the second inclined surface block 35 is arranged towards the push rod 36 and is in sliding contact with the push rod 36, the upper side of the push rod 36 pushes the receiving box 32, and the groove of the discharging groove 2 is provided with an L-shaped push plate 40 in a sliding mode.
The tank bottom of the discharging tank 2 is provided with a plurality of circular feeding tanks 45, the circular feeding tanks 45 have two diameters and the same quantity and are distributed at intervals in a ring shape, the circular feeding tanks 45 are communicated with the rectangular storage tank 46 and are connected in a curve-shaped transitional manner to form a first arc-shaped inclined surface 47 and a second arc-shaped inclined surface 48 respectively, and the connection position of the first arc-shaped inclined surface 47 and the circular feeding tank 45 is higher than the connection position of the second arc-shaped inclined surface 48 and the circular feeding tank 45.
Initial state of the device: the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are horizontally distributed; the second bracket 24 is contacted with the limiting block 50, namely the blocking of the limiting block 50 of the second bracket 24 can not move rightwards; the spring 39 in fig. 20 is in a natural state, and the stock box 32 is in a state of being inclined leftward.
In use, the screen plate 51 is placed inside the tank 1 and moved to the right of the fourth plate 6, the position of which is shown as the position of the screen plate 51 in the middle in fig. 13.
Then a batch of water producing sheets with different sizes are placed on the second plate 4, the third plate 5 and the fourth plate 6, the second motor 17 and the third motor 23 are started to drive the first bidirectional threaded rod 18 and the second bidirectional threaded rod 22 to rotate respectively, so that the two first mother boards 12 and the two second mother boards 21 move inwards simultaneously, the first mother boards 12 push the first L-shaped plates 9 to move inwards through the sliding parts 11 and the first shaft rods 10, the second mother boards 21 push the second L-shaped plates 19 to move inwards through the second shaft rods 20, and the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are converted into a second state as shown in fig. 18. At this time, the water producing sheets are all slid to the hinge shaft position between the two flat plates, and are blocked by the second baffle plate 8 and the third baffle plate 25 from being slid outside. At this time, the second motor 17 and the third motor 23 are turned off, and the electric telescopic rod 27 is started, and the electric telescopic rod 27 drives the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to perform telescopic movement with a certain frequency through the first bracket 16 and the second bracket 24, so that the water producing sheets are uniformly distributed at the positions of the hinge shafts between the two flat plates. Then, the electric telescopic rod 27 is closed, the electric telescopic rod 27 pushes the second bracket 24 to the initial position, then the second bracket is closed, the second motor 17 and the third motor 23 are started to reversely rotate, the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are restored to the horizontal state again, and the second motor 17 and the third motor 23 are closed. Then the first cylinder 28 and the second cylinder 29 are controlled to be inserted into the corresponding limit grooves 31, and the third cylinder 30 is not inserted into the corresponding limit grooves 31. Then start first motor 13 and drive first threaded rod 14 rotation, and then drive slider 11 and remove to the right, slider 11 drives first plate 3 through first axostylus axostyle 10 and first L shaped plate 9 and removes to the right, and then make the articulated shaft of third plate 5 and fourth plate 6 upwards remove, make first plate 3, second plate 4, the plate that third plate 5 is as an organic whole and fourth plate 6 form the reverse V-arrangement, the water production piece on the fourth plate 6 can slide to receiving box 32 this moment, the water production piece on first plate 3, second plate 4, the third plate 5 can left side remove. Then the first motor 13 is started to rotate reversely to restore the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to the horizontal state.
Then, the second motor 17 and the third motor 23 are controlled again to operate, so that the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are shifted to the second state, as shown in fig. 18. And then the electric telescopic rod 27 is controlled to drive the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to perform telescopic movement with a certain frequency, so that the rest water producing sheets are uniformly distributed at the position of the hinge shaft between the two flat plates. The first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are then restored to the horizontal state. Then the first cylinder 28 and the third cylinder 30 are controlled to be inserted into the corresponding limit grooves 31, and the second cylinder 29 is controlled not to be inserted into the corresponding limit grooves 31. Then, the first motor 13 is started to drive the first plate 3 to move rightwards so that the hinge shafts of the second plate 4 and the third plate 5 move upwards, the plate integrating the first plate 3 and the second plate 4 with the plate integrating the third plate 5 and the fourth plate 6 form an inverted V shape, at the moment, the water producing pieces on the third plate 5 and the fourth plate 6 can slide into the material receiving box 32, and the water producing pieces on the first plate 3 and the second plate 4 can move leftwards. Then the first motor 13 is started to rotate reversely to restore the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to the horizontal state.
The second motor 17 and the third motor 23 are then controlled again to operate, so that the first plate 3, the second plate 4, the third plate 5, and the fourth plate 6 are shifted to the second state, as shown in fig. 18. And then the electric telescopic rod 27 is controlled to drive the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to perform telescopic movement with a certain frequency, so that the rest water producing sheets are uniformly distributed at the middle hinge shaft position. The first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 are then restored to the horizontal state. The second cylinder 29 and the third cylinder 30 are then controlled to be inserted into the corresponding limiting grooves 31, and the first cylinder 28 is not inserted into the corresponding limiting grooves 31. Then, the first motor 13 is started to drive the first plate 3 to move rightwards so as to enable the hinge shafts of the first plate 3 and the second plate 4 to move upwards, the plates integrated by the second plate 4, the third plate 5 and the fourth plate 6 and the plates integrated by the first plate 3 form an inverted V shape, at the moment, the water producing sheets on the second plate 4, the third plate 5 and the fourth plate 6 can slide into the material receiving box 32, and then the first motor 13 is started to rotate reversely so as to enable the first plate 3, the second plate 4, the third plate 5 and the fourth plate 6 to recover to the horizontal state again.
In summary, a batch of different sized pieces of water fall into the bin 32 three times in total and are approximately equal in number.
During use, the L-shaped push plate 40 is pushed by an external power mechanism or manually to continuously reciprocate in the discharge chute 2. And each time the water producing sheet falls into the receiving box 32, the L-shaped push plate 40 returns to the original position after having undergone one reciprocating rectilinear motion, i.e. the position where the L-shaped push plate 40 is located in fig. 19. Then, the long side of the L-shaped push plate 40 pushes the first inclined block 34 to move inwards, so that the push rod 36 moves upwards through the second inclined block 35, and the material receiving box 32 is lifted up and has a certain inclination angle, so that the water producing sheets in the material receiving box 32 slide in the material placing groove 2. The short plates of the L-shaped push plate 40 then push the water making pieces to move in the discharge chute 2, and when the water making pieces with different sizes pass through a plurality of circular feed tanks 45 with different sizes, the water making pieces can fall into the circular feed tanks 45 with corresponding sizes. Under the cooperation of the first arc-shaped inclined surface 47 and the second arc-shaped inclined surface 48, the water making sheet is rotated to a vertical state and enters the rectangular storage groove 46. After three times of water sheet making and discharging, and the continuous movement of the L-shaped pushing plate 40, until the plurality of rectangular storage tanks 46 are filled.
After the rectangular reservoir 46 is filled with the water producing sheet, the mounting bracket 200 can be removed from the water tank 100.