JP6748830B1 - Rotary jet water-saving mechanism for cleaning molding nets of paper machines - Google Patents

Abstract

PROBLEM TO BE SOLVED: To disclose a rotation injection water saving mechanism for cleaning a molding net of a paper machine. SOLUTION: A bottom plate and two support plates are mainly included, a papermaking mechanism is installed between the support plates, the papermaking mechanism includes a molding net, and power is transmitted to the papermaking mechanism on the rear side of the papermaking mechanism. A transmission mechanism is installed, and a filtration mechanism capable of collecting washed water by filtering from the molding net is fixed to the upper end surface of the bottom plate, and the original power is used when cleaning the paper molding net of the device. The dry stubborn fibers attached to the molding net can be efficiently removed, and the water generated when the device makes paper and the water for cleaning are used for circulation to wash away the molding net and save water. At the same time, it efficiently and effectively completes the cleaning and improves the efficiency and quality of the work. [Selection diagram] Fig. 1

Description

The present invention deals with the field of cleaning, and more specifically, is a rotary jet water-saving mechanism for cleaning a molding net of a papermaking machine.

After the pulp dries and the paper is taken, the fibers stick well to the forming net, and if the forming net is not washed, it is detrimental to the subsequent production of paper, affecting the flatness of the paper,
At the present stage, the method of cleaning the molding net is mainly to wash the molding net directly, which wastes water and at the same time causes the fibers to come into contact with the molding net, affecting the quality of the cleaning and causing some molding net cleaning equipment to rotate. The molding net is washed, but the water cannot be effectively blown away by sprinkling water mainly in the spinning area, and the fibers still remain after spinning and washing.

Chinese Patent Application Publication No. 103611699

The problem to be solved by the present invention is to provide a swirling jet water-saving mechanism for cleaning a forming net of a papermaking machine, which overcomes the problems of wasting water and poor quality of cleaning and improving the quality of cleaning. You can raise it to save water.

The invention is realized by the following technical plan:

A rotary jet water-saving mechanism for washing the forming net of a papermaking machine is used, and a rotary jet water-saving mechanism for washing the forming net of a papermaking machine mainly includes a bottom plate and two supporting plates, and a papermaking mechanism is provided between the supporting plates. The papermaking mechanism includes a molding net, and a transmission mechanism for transmitting power to the papermaking mechanism is installed on the rear side of the papermaking mechanism.

A filtration mechanism capable of collecting water washed by filtering from the molding net is fixed to an upper end surface of the bottom plate, the filtration mechanism includes a fixed block, and a collection chamber having an upward opening is provided in the fixed block. A rotating chamber is installed in the lower end wall of the collecting chamber, and a rotating shaft is rotatably connected to the lower end wall of the rotating chamber, and a rotating wheel and a first belt pulley are connected to the rotating shaft. Is fixed, a through hole penetrating the rotary wheel is installed in the rotary wheel, and a limit chamber penetrated by the through hole is also installed in the rotary wheel. A trapezoidal rod penetrating the through hole is installed therein, a limit block penetrating the trapezoidal rod is installed in the limit chamber, and an upper end of the trapezoidal rod is installed above the rotary wheel. A penetrating circular block is installed, and both left and right ends of the circular block have thrust rods fixed, and two arc-shaped blocks are installed in the rotary chamber. Three support springs supporting the arcuate block are fixed to the lower end, ropes are also fixed to the lower end of the arcuate block, and filtration chambers are installed in the left and right end walls of the rotary chamber. One end of the thrusting rod is located in the filtration chamber, and a piston for thrusting the liquid in the filtration chamber to assist filtration is fixed to one end of the thrusting rod. A drainage pipe communicating with the external space and a communication pipe communicating with the collection chamber are installed on the upper end wall, and the rope can control opening and closing of the communication pipe.

A cleaning mechanism that can collect the squeezed water and the extraneous water is installed above the fixed block, and collects the squeezed water and the extraneous water when the paper is molded by the cleaning mechanism. The molding net is washed, and the water for washing is filtered by the filtration of the filtration mechanism and then reused to save water.

Preferably, the papermaking mechanism includes two tumbling shafts rotatably connected to the front support plate, and a rear side of the tumbling shaft on the right side is rotatably connected to the tumbling shaft. A motor is installed, a roller is fixed to the rolling shaft, two rollers are connected by the molding net, a second belt pulley is fixed to the front end of the rolling shaft on the right side, and the support plate on the rear side is fixed. The four push shafts are rotatably connected to the front end face of the press cylinder, the push cylinders are fixed to the push shafts, the four push cylinders are connected by the push caterpillars, and the lower end faces of the push caterpillars are formed by the molding. A third belt pulley is fixed to one of the pushing shafts in contact with the upper end surface of the net, a cleaning shaft is rotatably connected to the front end surface of the support plate, and the cleaning shaft is connected to the front end of the cleaning shaft. A washing wheel that can wash the molding net has been fixed.

Preferably, the transmission mechanism includes a transmission shaft whose front and rear ends are rotatably connected to the front and rear support plates, and a fourth belt pulley is fixed to both front and rear ends of the transmission shaft, and the front side A fourth belt pulley and the second belt pulley are connected by a first belt, a rear side fourth belt pulley and the third belt pulley are connected by a second belt, the front end of the rear side support plate Also, two driven shafts are rotatably connected to the surface, and the rear ends of the two driven shafts, the rear end of the push shaft to which the third belt pulley is fixed, and the rear end of the cleaning shaft. In each case, a sprocket is fixed, the four sprockets are connected by a chain, a string winding wheel is slidably connected to the front end of the upper driven shaft, and the driven shaft is connected to the driven shaft in the string winding wheel. An electromagnet capable of attracting each other is installed, a chain is wound around the string winding wheel, a first bevel gear is fixed to the front end of the lower driven shaft, and a rotation is again applied to the upper end surface of the bottom plate. A shaft is rotatably connected, a second bevel gear meshing with the first bevel gear is fixed to an upper end of the rotating shaft, and the rotating shaft is also connected to the first belt pulley and a third belt. The fifth belt pulley is fixed.

Preferably, the filtering mechanism also includes a cutting chamber penetrating the communication pipe, and a cutting plate capable of cutting the communication pipe up and down to cut off the communication and the cutting plate. is installed and return spring which can Rukoto through communicating said communicating pipe by the lower end of the rope extends through the one end wall of the cutting chamber, is and connected to the cutting plate, in said filtering chamber A screen cloth is fixed to the filter chamber, a discharge pipe communicating with the external space is installed in the lower end wall of the filtration chamber, and the lower end wall of the filtration chamber penetrates the discharge pipe and opens upward. And a friction block capable of sealing the discharge pipe and a compression spring capable of returning the friction block.

Preferably, the cleaning mechanism includes a support block, a storage chamber opening upward is installed in the support block, and a water storage chamber communicating with the storage chamber is installed in a lower end wall of the storage chamber. In the lower end wall of the water storage chamber, six drainage ports communicating with an external space are installed, the upper end of the drainage pipe penetrates the support block, and communicates with the storage chamber. Two cutting blocks are installed in the water storage chamber, and two spring chambers whose front and rear end walls and one end wall communicate with the water storage chamber are installed in the cutting block, and a lower end wall of the spring chamber is installed. A connection spring is fixed to the water storage chamber, and lower pressure plates whose front and rear ends are in contact with front and rear end walls of the water storage chamber are installed in the water storage chamber, and left and right ends of the lower pressure plate are respectively connected to the spring chamber. Of the chain is connected to the connecting spring, one end of the chain penetrates the upper end wall of the water storage chamber, and is connected to the lower pressing plate. A return spring, whose upper end is connected to the upper wall of the water storage chamber, is fixedly connected to the center.

Preferably, the sum of the return spring and the elastic forces of the two connecting springs is far larger than the frictional force between the string winding wheel and the driven shaft.

Preferably, when the chain is loosened, the two cutting blocks come into contact with the lower end wall of the water storage chamber, and the return spring and the connection spring have not yet returned.

Preferably, the frictional force between the piston and the friction block is much larger than the sum of the elastic force of the compression spring and the frictional force between the friction chamber and the friction block, and the elastic force of the compression spring is the friction. It is much larger than the sum of the friction forces between the chamber and the friction block.

The beneficial effects of the present invention are: the device is simple in construction, convenient to operate, and when cleaning the papermaking molding net of the device, the original power is used to efficiently dry the stubborn fibers attached to the molding net. It can be removed, and by using the water generated when the device makes paper and the cleaning water for circulation, the molding net is washed away, saving water and at the same time efficiently and effectively completing the cleaning. Improve work efficiency and quality.

In order to explain the present invention in detail and to explain it conveniently with reference to FIGS. 1 to 5 below, the following directions are defined as follows: FIG. 1 is a front view of the device of the present invention, and The left, right, front, and rear directions are the same as the up, down, left, right, front, and rear directions of the self-projection relationship in FIG.

FIG. 1 is a schematic diagram of the configuration of an embodiment of the present invention. FIG. 2 is an enlarged schematic view of the left side surface of the entire cross section of the embodiment of the present invention. FIG. 3 is a schematic diagram of the configuration AA of the embodiment of the present invention. FIG. 4 is a schematic enlarged front view of a partial cross section of a filtration mechanism according to an embodiment of the present invention. FIG. 5 is an enlarged schematic top view of a circular block according to an embodiment of the present invention.

1 to 5, mainly including a bottom plate 1 and two support plates 13, and a papermaking mechanism 68 between the support plates 13 together with a configuration diagram of a rotary jet water-saving mechanism for cleaning a molding net of a papermaking machine. Is installed, the papermaking mechanism 68 includes a molding net 9, a transmission mechanism 66 for transmitting power to the papermaking mechanism 68 is installed on the rear side of the papermaking mechanism 68, and the molding machine is formed on the upper end surface of the bottom plate 1. A filtration mechanism 67 capable of collecting the washed and washed water from the net 9 is fixed, the filtration mechanism 67 includes a fixed block 5, and a collection chamber 6 having an upward opening is installed in the fixed block 5. A rotation chamber 46 is installed in the lower end wall of the collection chamber 6, and a rotation shaft 39 is rotatably connected to the lower end wall of the rotation chamber 46. The belt pulley 40 is fixed, a through hole 63 penetrating the rotary wheel 45 is installed in the rotary wheel 45, and a limit penetrating the through hole 63 is also provided in the rotary wheel 45. A chamber 65 is installed, a trapezoidal rod 64 penetrating the through hole 63 is installed in the through hole 63, and a limit block 62 penetrated by the trapezoidal rod 64 is installed in the limit chamber 65. A circular block 57 is installed on the upper side of the rotary wheel 65 and penetrates the upper end of the trapezoidal rod 64, and the pushing rods 33 are fixed to both left and right ends of the circular block 57. Two arc-shaped blocks 41 are installed in the rotation chamber 46, and three support springs 42 supporting the arc-shaped blocks 41 are fixed to the lower ends of the arc-shaped blocks 41, and the lower ends of the arc-shaped blocks 41 are fixed. The rope 43 is fixed, the filtration chamber 3 is installed in each of the left and right end walls of the rotation chamber 46, one end of the thrusting rod 33 is located in the filtration chamber 3, and A piston 34 is fixed to one end of the thrusting rod 33 to assist in filtering by moving the liquid in the filtration chamber 3, and a drain pipe 27 communicating with an external space and the above-mentioned drain pipe 27 are provided on an upper end wall of the filtration chamber 3. A communication pipe 31 communicating with the collection chamber 6 is installed, the rope 43 can control the opening and closing of the communication pipe 31, and the upper side of the fixed block 5 can also collect squeezed water and foreign water. A mechanism 69 is installed to collect water squeezed and foreign water squeezed when the cleaning mechanism 69 forms the paper, and also to form the molding net. The washing water is washed, and the washing water is filtered by the filtration of the filtration mechanism 67 and reused to save water.

Beneficially, the papermaking mechanism 68 includes two tumbling shafts 7 rotatably connected to the support plate 13 on the front side, and the tumbling shafts 7 and power are mounted on the rear side of the tumbling shaft 7 on the right side. A motor 60 connected so as to be capable of transmitting is installed, a roller 8 is fixed to the rolling shaft 7, two rollers 8 are connected by the molding net 9, and a first end is provided at the front end of the rolling shaft 7 on the right side. Two belt pulleys 61 are fixed, four push shafts 11 are rotatably connected to the front end surface of the support plate 13 on the rear side, and push cylinders 12 are fixed to the push shafts 11 and four push shafts are fixed. The cylinders 12 are connected by a pushing caterpillar 10, the lower end surface of the pushing caterpillar 10 contacts the upper end surface of the molding net 9, and the third belt pulley 47 is fixed to one of the pushing shafts 11, and the supporting plate A cleaning shaft 20 is also rotatably connected to the front end surface of the cleaning shaft 13, and a cleaning wheel 21 for cleaning the molding net is fixed to the front end of the cleaning shaft 20.

Beneficially, the transmission mechanism 66 includes a transmission shaft 22 whose front and rear ends are rotatably connected to the front and rear support plates 13, respectively, and the fourth belt pulley 23 is provided at both front and rear ends of the transmission shaft 22. Is fixed, the fourth belt pulley 23 on the front side and the second belt pulley 61 are connected by a first belt 58, and the fourth belt pulley 23 and the third belt pulley 47 on the rear side are second belts. 59, and two driven shafts 52 are also rotatably connected to the front end surface of the support plate 13 on the rear side, and the rear ends of the two driven shafts 52 and the third belt pulley 47 are fixed. A sprocket 44 is fixed to each of the rear end of the push shaft 11 and the rear end of the cleaning shaft 20, four sprocket 44 are connected by a chain 50, and the front end of the driven shaft 52 on the upper side is connected to each other. A string winding wheel 48 is slidably connected, and an electromagnet 49 capable of attracting the driven shaft 52 is installed in the string winding wheel 48, and the chain 17 is wound around the string winding wheel 48. A first bevel gear 51 is fixed to the front end of the driven shaft 52 on the lower side, a rotary shaft 54 is rotatably connected to the upper end surface of the bottom plate 1, and the upper end of the rotary shaft 54 is connected to the rotary shaft 54. A second bevel gear 53 meshing with the first bevel gear 51 was fixed, and a fifth belt pulley 55 connected by the first belt pulley 40 and a third belt 56 was also fixed to the rotating shaft 54.

Beneficially, the filtration mechanism 67 also includes a cutting chamber 4 penetrating the communication pipe 31, in which the communication pipe 31 can be cut up and down to break communication. is installed and the return spring 30 which can Rukoto that by returning the cutting plate 32 and the plate 32 through connecting the communicating pipe 31, the lower end of the rope 53 extends through the one end wall of the cutting chamber 4, In addition, the screen cloth 2 is fixed in the filtration chamber 3 and is connected to the cutting plate 32, and a discharge pipe 38 communicating with an external space is installed in a lower end wall of the filtration chamber 3. A friction chamber 36 penetrating the discharge pipe 38 and opening upward is installed on the lower end wall of the friction block 37. The friction block 37 and the friction block 36 can seal the discharge pipe 38 in the friction chamber 36. The compression spring 35, which can return 37, was installed.

Advantageously, the cleaning mechanism 69 includes a support block 25, a storage chamber 24 having an upward opening is installed in the support block 25, and the storage chamber 24 is provided in a lower end wall of the storage chamber 24. A water storage chamber 28 communicating with the water storage chamber 28 is installed, six drainage ports 29 communicating with the external space are installed in the lower end wall of the water storage chamber 28, and the upper end of the drainage pipe 27 penetrates the support block 25. cage, and communicates with the housing chamber 24, the two cutting block 14 is installed in the water storage chamber 28, the reservoir chamber and the front and rear end wall and one end wall in the cutting block 14 Two spring chambers 19 communicating with 28 are installed, a connecting spring 15 is fixed to a lower end wall of the spring chamber 19, and front and rear ends of the water storage chamber 28 are respectively the front and rear end walls of the water storage chamber 28. An abutting lower pressing plate 16 is installed, the left and right ends of the lower pressing plate 16 are respectively located in the spring chamber 19, and are connected to the connecting spring 15, and one end of the chain 17 is A return spring 18 that penetrates the upper end wall of the water storage chamber 28 and is connected to the lower pressing plate 16 and has an upper end connected to the upper end wall of the water storage chamber 28 at the center of the upper end surface of the lower pressing plate 16. Was fixedly connected.

The sequence of machine operation of the entire device is:

1: Pulp is evenly laid on the upper end surface of the molding net 9, the motor 60 is operated, and the rolling shaft 7 is interlocked and rotated, whereby the roller 8 is interlocked and rotated, whereby the molding net 9 is rotated. Then, the rolling shaft 7 rotates to rotate the second belt pulley 61 in an interlocking manner, which causes the front side fourth belt pulley 23 to rotate in an interlocking manner, which causes the transmission shaft 22 to rotate in an interlocking manner. The fourth belt pulley 23 on the rear side is interlocked and rotated by this, and thereby the third belt pulley 47 and the push shaft 11 to which the third belt pulley 47 is fixed are interlocked and rotated, whereby the push cylinder 12 is rotated. When the push caterpillar 10 is transmitted, the other push cylinders 12 and the push shaft 11 are made to rotate in conjunction with each other, whereby the pulp in the forming net 9 is squeezed, whereby most of the pulp. The water is squeezed out, the squeezed water falls into the storage chamber 24, and the cleaning water is put into the storage chamber 24 and collected in the water storage chamber 28.

2: When the molding net 9 is located below the roller 8 when the roller 8 rotates, the pulp in the molding net 9 is removed, the fibers remain in the molding net 9, and if not processed, it affects the next production, The push shaft 11 to which the third belt pulley 47 is fixed rotates to rotate the sprocket 44 in an interlocked manner, and the chain 50 transmits all the sprocket 44 in an interlocked manner to thereby rotate the sprocket 44 and the two driven shafts 52 together. By rotating the three cleaning shafts 20 in conjunction with each other, water collects in the water storage chamber 28, and water drains into the forming net 9 through the drain port 29, whereby the dry fibers in the forming net 9 are wetted again, and the fibers are removed. It is convenient to remove, and the cleaning wheel 21 is rotated in conjunction with the rotation of the cleaning shaft 20 to thereby clean the lower end surface of the molding net 9,

3: The electromagnet 49 operates to attract each other with the upper driven shaft 52, which causes the upper driven shaft 52 to rotate the string winding wheel 48 in an interlocking manner, thereby tightening the chain 17 and thereby the two cutting blocks. 14 moves upward, the connection spring 15 and the return spring 18 are compressed, and after the water is filled in the water storage chamber 28, the electromagnet 49 is deactivated, which causes the connection spring 15 and the return spring 18 to move. Upon return, the two cutting blocks 14 first come into contact with the bottom wall of the water storage chamber 28, filling the space between the two cutting blocks 14 and the lower pressure plate 16 and then under the action of three springs. The lower presser plate 16 is lowered, whereby the water between the two cutting blocks 14 and the lower presser plate 16 is pressurized and then quickly discharged through the drainage port 29 to flush the molding net 9 and to return the return spring 18. After the connection spring 15 is returned, the electromagnet 49 is actuated again to rotate the string winding wheel 48 and tighten the chain 17, whereby the return spring 18 and the connection spring 15 are compressed, and the cutting block 14 is raised.

4: The flush water and the removed fibers are accumulated in the collecting chamber 6, and the lower driven shaft 52 rotates to rotate the first bevel gear 51 in an interlocking manner, thereby interlocking the second bevel gear 53. As a result, the rotation shaft 54 and the fifth belt pulley 55 are interlocked and rotated, and thereby the first belt pulley 40 and the rotation shaft 39 are interlocked and rotated, and thereby the rotary wheel 45 is interlocked and rotated. This causes the trapezoidal rod 64 to rotate in an interlocking manner, thereby interlocking the block-shaped block 57 to move left and right, and when the block-shaped block 57 moves to the right side of the rotation shaft 39, the trapezoidal rod 64 moves. It is lowered by interlocking the right arc-shaped block 41, thereby loosening the right rope 43, thereby stretching the spring 30 is restored, thereby the right of the cutting plate 32 is cut the communication pipe 31, the left arc-shaped blocks 41 Returns and tightens the left rope 43, which causes the left cutting plate 32 to move to the right, which causes the mixture in the collection chamber 6 to enter the left filtration chamber 3 and the circular block 57. Moving to the right causes the right-hand thrusting rod 33 to move in the right direction, which in turn causes the right-side piston 34 to move in the right direction, whereby the action of the right screen cloth 2 is reduced. It is initially filtered so that the water is drained by the drain pipe 27 into the storage chamber 24 for reuse.

5: The circular block 57 moves to the right for the first time and thrusts it to move the rod 33 in conjunction to move it to the right, but when the trapezoidal rod 64 is still located above the left arcuate block 41, The left-side piston 34 moves the left-side friction block 37 in conjunction with the left-side friction block 37 to move it to the right, whereby the discharge pipe 38 communicates the left-side filtration chamber 3 with the external space, thereby discharging scraps, and the piston 34 causing the friction block. When separated from 37, the friction block 37 returns under the action of the compression spring 35 and disconnects the discharge pipe 38.

6: With the rotation of the rotary shaft 39, the filtration mechanism 67 continuously operates to utilize water for circulation.

The above is only a specific implementation mode of the present invention, but the protection scope of the present invention is not limited to this. Changes and substitutions that come up without the whole creative labor are covered by the protection scope of the present invention. Therefore, the scope of protection of the present invention is standardized on the scope of protection to which the right claim is limited.

Claims (6)

In a front view, it mainly includes a bottom plate and two support plates, a papermaking mechanism is installed between the support plates, the papermaking mechanism includes a molding net, and power is transmitted to the papermaking mechanism behind the papermaking mechanism. A transmission mechanism to
A filtration mechanism capable of collecting water washed by filtering from the molding net is fixed to an upper end surface of the bottom plate, the filtration mechanism includes a fixed block, and a collection chamber having an upward opening is provided in the fixed block. A rotating chamber is installed in the lower end wall of the collecting chamber, and a rotating shaft is rotatably connected to the lower end wall of the rotating chamber, and a rotating wheel and a first belt pulley are connected to the rotating shaft. Is fixed, a through hole penetrating the rotary wheel is installed in the rotary wheel, and a limit chamber penetrated by the through hole is also installed in the rotary wheel. A trapezoidal rod penetrating the through hole is installed therein, a limit block penetrating the trapezoidal rod is installed in the limit chamber, and an upper end of the trapezoidal rod is installed above the rotary wheel. A penetrating circular block is installed, and both left and right ends of the circular block have thrust rods fixed, and two arc-shaped blocks are installed in the rotary chamber. Three support springs supporting the arcuate block are fixed to the lower end, ropes are also fixed to the lower end of the arcuate block, and filtration chambers are installed in the left and right end walls of the rotary chamber. One end of the thrusting rod is located in the filtration chamber, and a piston for thrusting the liquid in the filtration chamber to assist filtration is fixed to one end of the thrusting rod. A drainage pipe communicating with an external space and a communication pipe communicating with the collection chamber are installed on the upper end wall, and the rope can control opening and closing of the communication pipe,
A cleaning mechanism that can collect the squeezed water and the extraneous water is installed above the fixed block, and collects the squeezed water and the extraneous water when the paper is molded by the cleaning mechanism. A swirling jet water-saving mechanism for washing a molding net of a papermaking machine, which is characterized in that the molding net is washed and then the washing water is filtered by the filtration of the filtration mechanism to be reused, thereby saving water. The papermaking mechanism includes two tumbling shafts rotatably connected to the supporting plate on the front side, and a motor connected to the tumbling shaft for transmitting power is installed on the rear side of the rolling shaft on the right side. A roller is fixed to the rolling shaft, the two rollers are connected by the molding net, a second belt pulley is fixed to the front end of the rolling shaft on the right side, and a front end surface of the support plate on the rear side is fixed. The four push shafts are rotatably connected to each other, the push cylinders are fixed to the push shafts, the four push cylinders are connected by push caterpillars, and the lower end surfaces of the push caterpillars are on the molding net. A third belt pulley is fixed to one of the pushing shafts in contact with the end face, a cleaning shaft is rotatably connected to the front end face of the support plate, and the molding net is attached to the front end of the cleaning shaft. The rotary jet water-saving mechanism for cleaning a molding net of a papermaking machine according to claim 1, wherein a wash wheel that can be washed is fixed. The transmission mechanism includes a transmission shaft whose front and rear ends are rotatably connected to the front and rear support plates, respectively, and a fourth belt pulley is fixed to both front and rear ends of the transmission shaft, and the front side fourth belt. The pulley and the second belt pulley are connected by a first belt, the rear side fourth belt pulley and the third belt pulley are connected by a second belt, and on the front end surface of the rear side support plate Further, two driven shafts are rotatably connected to each other, and the rear ends of the two driven shafts, the rear end of the push shaft to which the third belt pulley is fixed, and the rear end of the cleaning shaft are both A sprocket is fixed, and the four sprockets are connected by a chain, a string winding wheel is slidably connected to the front end of the upper driven shaft, and the driven shaft is sucked into the string winding wheel. An electromagnet is installed, a chain is wound around the string winding wheel, a first bevel gear is fixed to the front end of the lower driven shaft, and a rotation shaft rotates on the upper end surface of the bottom plate. A fifth belt which is connected so that a second bevel gear meshing with the first bevel gear is fixed to the upper end of the rotating shaft and which is also connected to the rotating shaft by the first belt pulley and the third belt. The rotary jet water-saving mechanism for cleaning a forming net of a papermaking machine according to claim 1, wherein the pulley is fixed. Wherein the filtration mechanism also comprises the cleavage chamber through the communicating pipe, into the cutting chamber by returning the cutting plate and the cutting plate that can be cut off the communication by cutting the communication pipe vertically a return spring that can Rukoto through communicating the communication pipe is disposed, the lower end of the rope extends through the one end wall of the cutting chamber, it is and connected to the cutting plate, the screen in the filtering chamber A cloth is fixed, a discharge pipe communicating with an external space is installed in a lower end wall of the filtration chamber, and a friction chamber penetrating the discharge pipe and opened upward in the lower end wall of the filtration chamber. 4. A friction block capable of sealing the discharge pipe and a compression spring capable of returning the friction block are installed in the friction chamber. Water-saving mechanism for swirling and jetting to clean the molding net of the paper machine. The cleaning mechanism includes a support block, a storage chamber having an upward opening is installed in the support block, and a water storage chamber communicating with the storage chamber is installed in a lower end wall of the storage chamber. Six drainage ports communicating with the external space are installed in the lower end wall of the chamber, the upper end of the drainage pipe penetrates the support block, and communicates with the storage chamber. Two cutting blocks are installed therein, and two spring chambers having front and rear end walls and one end wall communicating with the water storage chamber are installed in the cutting block, and connected to a lower end wall of the spring chamber. A spring is fixed and a lower pressing plate is installed in the water storage chamber, the front and rear ends of which are in contact with the front and rear end walls of the water storage chamber, and the left and right ends of the lower pressing plate are respectively in the spring chamber. Is located and is connected to the connecting spring, one end of the chain penetrates the upper end wall of the water storage chamber, and is connected to the lower pressing plate, and the center of the upper end surface of the lower pressing plate is The rotary jet water-saving mechanism for cleaning a molding net of a papermaking machine according to claim 1 or 2, wherein a return spring having an upper end connected to an upper wall of the water storage chamber is fixedly connected. The paper machine according to claim 5, wherein when the chain is loosened, the two cutting blocks come into contact with a lower end wall of the water storage chamber, and the return spring and the connection spring are not yet returned. A rotating jet water-saving mechanism for cleaning molded nets.

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