JP2021001421A - Automatic blending system of china paper pulp - Google Patents

Abstract

To provide an automatic blending system of China paper pulp.SOLUTION: The invention provides an automatic blending system of China paper pulp which includes a pulp blending pond, wherein a pulp blending chamber is installed in the pulp blending pond, a quantitative determination chamber is installed on the left side of the pulp blending chamber, a quantitative determination plate is installed in the quantitative determination chamber in a manner capable of sliding vertically, a lift mechanism is installed on the lower side of the quantitative determination plate, the height of the quantitative determination plate is regulated by using the lift mechanism, and moreover, quantitative determination is performed to virgin pulp of China paper; the present invention employs a method of performing quantitative determination of high concentration virgin pulp of China paper, then diluting, blending pulp of China paper at a predetermined concentration, and causing turbulent water flow by blending, hence better protection of components in the pulp of China paper can be achieved while avoiding forming wastes.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of papermaking technology, and specifically, is an automatic blending system for xuan paper pulp.

Xuan paper is a national treasure, and it is a good quality paper that is not eaten by insects or rots, and has good properties. When manufacturing Xuan paper, different pulps are used to make different types of Xuan paper, so different demands can be met. Conventional pulp is produced manually, employees judge the concentration of pulp by experience, and then manually stir and mix the pulp, not only there is a deviation in the concentration of pulp, but also it takes time and energy. If you just pump the pulp and mix it with a stir bar, the ingredients in the pulp will be severely destroyed and may stick to the instrument. The present invention discloses a device capable of solving the above problems.

Chinese Patent Application Publication No. 108671799

Technical problem: The production of conventional Xuan paper relies on experience, and it is done by manually adding raw materials and stirring, making it difficult to control the concentration of pulp, and it takes time and energy.

In order to solve the above problem, this example designs an automatic blending system for pulp and paper pulp, and the automatic blending system for pulp and paper described in the present invention includes a pulp blending pond, and pulp in the pulp blending pond. A compounding chamber is installed, a metering chamber is installed on the left side of the pulp compounding chamber, a metering plate is installed in the metering chamber so that the metering plate can slide up and down, and an elevating mechanism is provided below the metering plate. It is installed, the altitude of the metering plate is controlled by the elevating mechanism, and the virgin pulp of the painting paper is quantified, and the left and right sides of the metering chamber are installed so that the holes are symmetrically communicated with each other. The punch hole communicates with the external space, virgin pulp is sent into the metering chamber, the punch hole on the right side communicates with the pulp compounding chamber, and a valve plate is inside the punch hole. Is installed, the valve plate on the left side is opened when the metering plate is lowered, the valve plate on the right side is opened when the metering plate is raised, and the valve plate is opened and closed on the rear side of the valve plate. A controllable valve control device is installed, and an elastic water permeable film is fixedly installed on the lower side inside the pulp compounding chamber, and the elastic water permeable film divides the pulp compounding chamber into upper and lower sides, and pulp fibers of painting paper. The elementary components can be located only above the elastic water-permeable film, and five push rods that can be raised and lowered are installed in the lower wall of the pulp compounding chamber so as to be linearly arranged from left to right. The upper end of the rod can push the elastic water permeable film up and down like a wave to create a confused stream of water, further softly stir the pulp, and a pulp compounding device is installed below the pulp compounding chamber. While the pulp blending device transports diluted pulp into the pulp blending chamber, the push rods can be interlocked and stirred, and a control device is installed under the pulp blending device. The control device can control the valve control device and the pulp compounding device.

Preferably, the elevating mechanism includes an elevating rod fixedly installed under the metering plate, into which the elevating screw rod is threaded and into the lower wall of the metering chamber. The metering motor is fixedly installed, and the lifting screw rod is connected so as to be transmitted to the upper end of the metering motor.

Preferably, the valve control device includes a pulling groove installed on the rear end surface of the valve plate, in which the pulling rod is installed so that the pulling rod can slide up and down, after the metering chamber. A swing chamber is installed on the side, the rear end of the pulling rod extends into the swing chamber, and the interlocking rod is fixedly connected to the rear end of the pulling rod to form the swing chamber. The swing rod is installed on the lower side of the inside so that the swing rod can rotate, the lower ends of the interlocking rods on both the left and right sides are connected to the left and right ends of the swing rod so as to rotate, and the same rotation shaft is on the rear side of the swing rod. The driven spur gear is fixedly installed, and the driven spur gear that meshes with the driven spur gear is installed on the right side of the driven spur gear so that it can rotate.

Preferably, a blocking plate chamber is installed on the lower wall of the punch hole so as to communicate with the blocking plate chamber, and the valve plate is installed so as to be slid up and down in the blocking plate chamber, and the lower end of the valve plate and the blocking plate are installed. A pressing spring is fixedly connected to the lower wall of the plate chamber.

Preferably, the pulp blending apparatus comprises a push-moving chamber installed below the pulp blending chamber, the lower end of the push rod extending into the push-moving chamber, and at the lower end of the push rod. The thrust plate is fixedly installed, a return spring is fixedly installed between the upper end of the thrust plate and the upper wall of the push-moving chamber, and the cam is installed so as to come into contact with the lower end of the thrust plate. The cam is connected to the rear wall of the push-moving chamber so as to be rotatable, a rotation shaft is fixedly installed at the center of rotation of the cam, and a synchronous chamber is located behind the push-moving chamber. The rear ends of the three intermediate rotating shafts extend into the synchronous chamber, and the double pulleys are fixedly installed at the rear ends of the three intermediate rotating shafts, and the left and right sides of the rotating shaft are fixed. The rear end of the rotating shaft extends into the synchronous chamber, and synchronous pulleys are fixedly installed at the rear ends of the rotating shafts on both the left and right sides, and the synchronous pulley is fixedly installed between the adjacent double pulleys and the adjacent synchronous chamber. A synchronous belt is installed so as to wrap between the double pulley and the double pulley.

Preferably, a pump is fixedly installed in the right wall of the push-moving chamber, and is installed on the right side of the pump so that an inlet opened to the right communicates with the right side of the pump. Is installed so that the transport pipe communicates with each other, the upper end of the transport pipe communicates with the upper end of the right wall of the pulp compounding chamber, and the pulley chamber is installed on the right side of the synchronous chamber and the pump. The first transmission pulley is installed in the pulley chamber so that it can rotate, the first transmission pulley is connected so that it can be transmitted to the pump, and the second transmission pulley rotates on the left side of the first transmission pulley. The second transmission pulley is connected so as to be able to transmit to the rear end of the double pulley in the middle, and the main drive pulley is installed under the second transmission pulley so as to be able to rotate. The pulleys are connected so as to be able to transmit to the control device, and the transmission belt is installed so as to be wound between the first transmission pulley, the second transmission pulley, and the main drive pulley.

Preferably, the control device includes a control chamber installed below the push-moving chamber, a control motor fixedly installed in the left wall of the control chamber, and a control at the right end of the control motor. The screw rods are connected so as to be transmitted, and a control block connected to the control screw rods by threads is installed in the control chamber so as to slide left and right, and a switching chamber communicates under the control chamber. In the switching chamber, a switching rod fixedly connected to the lower end of the control block can be slid, and a power supply motor is fixed in the right end surface of the switching rod. The power cap gear is connected to the right end of the power supply motor so that the power cap gear can be transmitted, and the power cap gear is installed to the right end of the rear wall of the switching chamber so that the power cap gear can rotate. It can mesh with the power cap gear and is connected so that the transmission cap gear can be transmitted to the main pulley.

Preferably, the gear chamber is installed on the upper wall of the switching chamber and on the left side of the control chamber so as to communicate with the gear chamber, and the rack spur gear is installed in the gear chamber so as to be able to rotate. The gears are connected so as to be transmitted to the driving spur gear, and a rack capable of meshing with the rack spur gear is fixedly installed in the upper end surface of the switching rod.

The beneficial effect of the present invention is: The present invention employs a method of quantifying high-concentration xuan paper virgin pulp, then diluting it, blending xuan paper pulp at the required concentration, and mixing disturbing the water flow. Better protection of the ingredients in the pulp and avoiding waste.

In order to explain the present invention in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic diagram of the overall configuration of the automatic blending system for xuan paper pulp of the present invention. FIG. 2 is a schematic configuration diagram from the direction AA of FIG. FIG. 3 is a schematic configuration diagram from the BB direction of FIG. FIG. 4 is a schematic configuration diagram from the CC direction of FIG. FIG. 5 is a schematic configuration diagram from the DD direction of FIG.

The present invention takes up an automatic blending system for xuan paper pulp, and is mainly used for the work of blending pulp when producing xuan paper. The present invention will be further described below with reference to the drawings of the present invention.

The automatic pulp compounding system for picture sen paper pulp according to the present invention includes a pulp compounding pond 11, a pulp compounding chamber 12 is installed in the pulp compounding pond 11, and a metering chamber 13 is provided on the left side of the pulp compounding chamber 12. It is installed so that the metering plate 14 can slide up and down in the metering chamber 13, and an elevating mechanism 101 is installed under the metering plate 14, and the elevating mechanism 101 causes the metering plate 14 to slide up and down. The altitude is controlled, and quantification is performed on the virgin pulp of the painting paper. The punch holes 15 are symmetrically and communicatively installed on the left and right sides of the metering chamber 13, and the punch holes 15 on the left side are in the external space. Virgin pulp is sent into the metering chamber 13, the punch hole 15 on the right side communicates with the pulp compounding chamber 12, and a valve plate 16 is installed in the punch hole 15. When the metering plate 14 is lowered, the valve plate 16 on the left side is opened, and when the metering plate 14 is raised, the valve plate 16 on the right side is opened, and the valve plate 16 is behind the valve plate 16. A valve control device 102 capable of controlling the opening and closing of the pulp compounding chamber 12 is installed, an elastic water permeable film 17 is fixedly installed on the lower side inside the pulp compounding chamber 12, and the elastic water permeable film 17 moves the pulp compounding chamber 12 on both upper and lower sides. Five push rods 18 that can be raised and lowered are located from left to right in the lower wall of the pulp compounding chamber 12, in which the fibrous component of the pulp of the picture sen paper can be located only on the upper side of the elastic water permeable film 17. The push rod 18 is installed so as to be linearly arranged, and the upper end of the push rod 18 can push and move the elastic water permeable film 17 up and down like a wave to create a confused water flow, and further softly stir the pulp to make the pulp. A pulp compounding device 103 is installed under the compounding chamber 12, and the push rod 18 is interlocked and stirred while the pulp compounding device 103 transports diluted pulp into the pulp compounding chamber 12. A control device 104 is installed under the pulp compounding device 103, and the control device 104 can control the valve control device 102 and the pulp compounding device 103.

Advantageously, the elevating mechanism 101 includes an elevating rod 19 fixedly installed under the metering plate 14, and the elevating screw rod 20 is connected by a screw thread in the elevating rod 19 to obtain the quantification. A metering motor 54 is fixedly installed in the lower wall of the chamber 13, and the elevating screw rod 20 is connected to the upper end of the metering motor 54 so as to be transmitted.

Beneficially, the valve control device 102 includes a pulling groove 23 installed on the rear end surface of the valve plate 16 and is installed in the pulling groove 23 so that the pulling rod 24 can slide up and down. A swing chamber 25 is installed on the rear side of the metering chamber 13, the rear end of the pulling rod 24 extends into the swing chamber 25, and is interlocked with the rear end of the pulling rod 24. The rods 26 are fixedly connected, and the swing rods 27 are installed on the lower side of the swing chamber 25 so that they can rotate, and the lower ends of the interlocking rods 26 on both the left and right sides rotate to the left and right ends of the swing rod 27. A driven spur gear 28 is fixedly installed on the rear side of the swing rod 27 by the same rotating shaft, and a driven spur gear meshing with the driven spur gear 28 is on the right side of the driven spur gear 28. The 29 is installed so that it can rotate.

Beneficially, the lower wall of the withdrawal hole 15 is installed so that the blocking plate chamber 21 communicates with the valve plate 16 so that the valve plate 16 can slide up and down in the blocking plate chamber 21. A pressing spring 22 is fixedly connected between the lower end of the plate 16 and the lower wall of the blocking plate chamber 21.

Advantageously, the pulp blending device 103 includes a push-moving chamber 30 installed below the pulp-blending chamber 12, with the lower end of the push rod 18 extending into the push-moving chamber 30 and A thrust plate 31 is fixedly installed at the lower end of the push rod 18, and a return spring 32 is fixedly installed between the upper end of the thrust plate 31 and the upper wall of the push chamber 30 to drive the thrust. The cam 33 is installed so as to abut on the lower end of the plate 31, the cam 33 is connected to the rear wall of the push-moving chamber 30 so as to be rotatable, and a rotation shaft 34 is located at the rotation center of the cam 33. A synchronous chamber 35 is installed on the rear side of the push-moving chamber 30 which is fixedly installed, and the rear ends of the three intermediate rotating shafts 34 extend into the synchronous chamber 35, and three in the middle. A double pulley 36 is fixedly installed at the rear end of the rotating shaft 34, the rear ends of the rotating shaft 34 on both the left and right sides extend into the synchronous chamber 35, and the rotating shaft 34 on both the left and right sides. A synchronous pulley 37 is fixedly installed at the rear end, and a synchronous belt 38 is installed so as to wrap between the adjacent double pulley 36 and between the adjacent synchronous chamber 35 and the double pulley 36. ing.

Advantageously, a pump 39 is fixedly installed in the right wall of the push-moving chamber 30, and an inlet 40 opened to the right is installed on the right side of the pump 39 so as to communicate with each other. A transport pipe 41 is installed above the pump 39 so as to communicate with each other, and the upper end of the transport pipe 41 communicates with the upper end of the right wall of the pulp compounding chamber 12, and the synchronous chamber 35 and the pump 39 communicate with each other. A pulley chamber 42 is installed on the right side of the pulley chamber 42, a first transmission pulley 43 is installed in the pulley chamber 42 so as to be rotatable, and the first transmission pulley 43 is connected so as to be transmitted to the pump 39. The second transmission pulley 44 is installed on the left side of the first transmission pulley 43 so as to be rotatable, and the second transmission pulley 44 is connected to the rear end of the double pulley 36 in the middle so as to be able to transmit. A driving pulley 45 is installed under the second transmission pulley 44 so as to be rotatable, and the driving pulley 45 is connected so as to be transmitted to the control device 104, and the first transmission pulley 43 and the second transmission are connected. A transmission belt 46 is installed so as to wind between the pulley 44 and the main pulley 45.

Advantageously, the control device 104 includes a control chamber 47 installed below the push-moving chamber 30, and a control motor 48 is fixedly installed in the left wall of the control chamber 47. A control screw rod 49 is connected to the right end of the control motor 48 so that it can be transmitted, and a control block 50 connected to the control screw rod 49 by a thread is installed in the control chamber 47 so as to be slid left and right. A switching chamber 51 is installed under the control chamber 47 so as to communicate with the switching chamber 51, and a switching rod 52 fixedly connected to the lower end of the control block 50 is installed in the switching chamber 51 so as to slide. A power supply motor 53 is fixedly installed in the right end surface of the switching rod 52, and a power cap gear 59 is connected to the right end of the power supply motor 53 so as to be transmitted, and after the switching chamber 51. The transmission cap gear 55 is installed at the right end of the wall so as to be rotatable so that the transmission cap gear 55 can mesh with the power cap gear 59 on the right side and the transmission cap gear 55 can be transmitted to the main pulley 45. It is connected.

Advantageously, a gear chamber 56 is installed on the upper wall of the switching chamber 51 and on the left side of the control chamber 47 so as to communicate with the gear chamber 56 so that the rack spur gear 57 can rotate in the gear chamber 56. The rack spur gear 57 is connected to the main driving spur gear 29 so as to be transmitted to the drive spur gear 29, and a rack 58 capable of meshing with the rack spur gear 57 is fixedly provided in the upper end surface of the switching rod 52. is set up.

The steps of using the automatic blending system for Xuan paper pulp in the main text will be described in detail below with reference to FIGS. 1 to 5.

In the initial state, the metering plate 14 is in the upper limit position, the valve plate 16 closes the extraction hole 15, the swing rod 27 is in the horizontal state, the switching rod 52 is in the intermediate position, and the power bevel gear 59 and the transmission. The bevel gear 55 is not engaged.

When quantifying virgin pulp, the control motor 48 operates, the control screw rod 49 is rotationally interlocked, the control block 50 is interlocked by the thread connection to move it to the left, and the switching rod 52 is interlocked to move the left side. The power supply motor 53 and the metering motor 54 are moved to the left until they mesh with each other. At this time, the rack 58 moves to the left, and the rack spur gear 57 is rotationally interlocked by the meshing, and the main spur gear 29 is further rotationally interlocked. , The driven spur gear 28 is rotationally interlocked by meshing, and the swaying rod 27 is further rotated and interlocked counterclockwise, the left end of the swaying rod 27 is pulled by the interlocking rod 26 and the left end valve plate 16 is pulled downward by the interlocking rod 24. Further, a punching hole 15 on the left side is opened, and at this time, virgin pulp of painting paper is sent from the punching hole 15 on the left side. At this time, the metering motor 54 operates to rotate and interlock the lifting screw rod 20, and the lifting rod 19 is connected by a screw thread. And the metering plate 14 descending to a required altitude, the virgin pulp is stored in the metering chamber 13 above the metering plate 14.

When blending pulp, the control motor 48 rotates in the reverse direction, and the switching rod 52 is interlocked to move the power cap gear 59 and the transmission cap gear 55 to the right until they mesh with each other. At this time, the right end of the swing rod 27 moves downward. It rotates clockwise until it faces, further lowers the right valve plate 16 and interlocks it downward, and the left valve plate 16 returns. At this time, the metering motor 54 rotates in the reverse direction to move the metering plate 14 upward and interlocks, and further quantification is completed. The virgin pulp is sent into the pulp compounding chamber 12, and at this time, the power supply motor 53 operates to rotate and interlock the power cap gear 59, the transmission cap gear 55 is rotationally interlocked by meshing, and the main pulley 45 is rotationally interlocked. The second transmission pulley 44 and the first transmission pulley 43 are rotationally interlocked by the transmission belt 46, and the first transmission pulley 43 is rotationally interlocked with the pump 39 to transfer diluted pulp from the transport pipe 41 to the pulp compounding chamber 12. The second transmission pulley 44 rotates and interlocks the intermediate double pulley 36, the synchronous belt 38 interlocks all the double pulleys 36 and the synchronous pulley 37 to rotate synchronously, and the rotating shaft 34 causes the cam 33 to rotate. The thrust plate 31 is reciprocated up and down by rotating and interlocking and applying the elasticity of the return spring 32, and further reciprocating up and down by interlocking the push rod 18, and further pushing and moving the elastic water permeable film 17 to disturb the water flow. , Mix.

The beneficial effect of the present invention is: The present invention employs a method of quantifying high-concentration xuan paper virgin pulp, then diluting it, blending xuan paper pulp at the required concentration, and mixing disturbing the water flow. Better protection of the ingredients in the pulp and avoiding waste.

According to the above method, an engineer in this field can make various changes depending on the operation mode within the scope of the present invention.

The present invention takes up the field of papermaking technology, and specifically, is an automatic blending system for xuan paper pulp.

Xuan paper is a national treasure, and it is a good quality paper that is not eaten by insects or rots, and has good properties. When manufacturing Xuan paper, different pulps are used to make different types of Xuan paper, so different demands can be met. Conventional pulp is produced manually, employees judge the concentration of pulp by experience, and then manually stir and mix the pulp, not only there is a deviation in the concentration of pulp, but also it takes time and energy. If you just pump the pulp and mix it with a stir bar, the ingredients in the pulp will be severely destroyed and may stick to the instrument. The present invention discloses a device capable of solving the above problems.

Chinese Patent Application Publication No. 108671799

Technical problem: The production of conventional Xuan paper relies on experience, and it is done by manually adding raw materials and stirring, making it difficult to control the concentration of pulp, and it takes time and energy.

In order to solve the above problem, this example designs an automatic blending system for picture-sen paper pulp, and the automatic blending system for picture-sen paper pulp described in the present invention includes a pulp compounding pond, and the pulp compounding pond contains pulp. A compounding chamber is installed, a metering chamber is installed on the left side of the pulp compounding chamber, a metering plate is installed in the metering chamber so that the metering plate can slide up and down, and an elevating mechanism is installed under the metering plate. It is installed, the altitude of the metering plate is controlled by the elevating mechanism, and the pulp of the painting paper is quantified, and the left and right sides of the metering chamber are installed so that the holes are symmetrically communicated with each other. The punch hole communicates with the external space, pulp is sent into the metering chamber, the punch hole on the right side communicates with the pulp compounding chamber, and a valve plate is installed in the punch hole. When the metering plate is lowered, the valve plate on the left side is opened, and when the metering plate is raised, the valve plate on the right side is opened, and the opening and closing of the valve plate can be controlled on the rear side of the valve plate. A valve control device is installed, and an elastic water permeable film is fixedly installed on the lower side inside the pulp compounding chamber, and the elastic water permeable film divides the pulp compounding chamber into upper and lower sides, and a fibrous component of pulp of painting paper. Is located only above the elastic water permeable membrane, and five push rods that can be raised and lowered are installed in the lower wall of the pulp compounding chamber so as to be linearly arranged from left to right. The upper end can push and move the elastic water permeable film up and down like a wave, creating a confused flow of diluent , further softly stirring the pulp, and a pulp compounding device installed under the pulp compounding chamber. Then, while the pulp compounding device transports the diluent into the pulp compounding chamber, the push rod can be interlocked and stirred, and a control device is installed under the pulp compounding device. The control device can control the valve control device and the pulp compounding device.

Preferably, the elevating mechanism includes an elevating rod fixedly installed under the metering plate, into which the elevating screw rod is threaded and into the lower wall of the metering chamber. The metering motor is fixedly installed, and the lifting screw rod is connected so as to be transmitted to the upper end of the metering motor.

Preferably, the valve control device includes a pulling groove installed on the rear end surface of the valve plate, in which the pulling rod is installed so that the pulling rod can slide up and down, after the metering chamber. A swing chamber is installed on the side, the rear end of the pulling rod extends into the swing chamber, and the interlocking rod is fixedly connected to the rear end of the pulling rod to form the swing chamber. The swing rod is installed on the lower side of the inside so that the swing rod can rotate, the lower ends of the interlocking rods on both the left and right sides are connected to the left and right ends of the swing rod so as to rotate, and the same rotation shaft is on the rear side of the swing rod. The driven spur gear is fixedly installed, and the driven spur gear that meshes with the driven spur gear is installed on the right side of the driven spur gear so that it can rotate.

Preferably, a blocking plate chamber is installed on the lower wall of the punch hole so as to communicate with the blocking plate chamber, and the valve plate is installed so as to be slid up and down in the blocking plate chamber, and the lower end of the valve plate and the blocking plate are installed. A pressing spring is fixedly connected to the lower wall of the plate chamber.

Preferably, the pulp blending apparatus comprises a push-moving chamber installed below the pulp blending chamber, the lower end of the push rod extending into the push-moving chamber, and at the lower end of the push rod. The thrust plate is fixedly installed, a return spring is fixedly installed between the upper end of the thrust plate and the upper wall of the push-moving chamber, and the cam is installed so as to come into contact with the lower end of the thrust plate. The cam is connected to the rear wall of the push-moving chamber so as to be rotatable, a rotation shaft is fixedly installed at the center of rotation of the cam, and a synchronous chamber is located behind the push-moving chamber. The rear ends of the three intermediate rotating shafts extend into the synchronous chamber, and the double pulleys are fixedly installed at the rear ends of the three intermediate rotating shafts, and the left and right sides of the rotating shaft are fixed. The rear end of the rotating shaft extends into the synchronous chamber, and synchronous pulleys are fixedly installed at the rear ends of the rotating shafts on both the left and right sides, and the synchronous pulley is fixedly installed between the adjacent double pulleys and the adjacent synchronous chamber. A synchronous belt is installed so as to wrap between the double pulley and the double pulley.

Preferably, a pump is fixedly installed in the right wall of the push-moving chamber, and is installed on the right side of the pump so that an inlet opened to the right communicates with the right side of the pump. Is installed so that the transport pipe communicates with each other, the upper end of the transport pipe communicates with the upper end of the right wall of the pulp compounding chamber, and the pulley chamber is installed on the right side of the synchronous chamber and the pump. The first transmission pulley is installed in the pulley chamber so that it can rotate, the first transmission pulley is connected so that it can be transmitted to the pump, and the second transmission pulley rotates on the left side of the first transmission pulley. The second transmission pulley is connected so as to be able to transmit to the rear end of the double pulley in the middle, and the main drive pulley is installed under the second transmission pulley so as to be able to rotate. The pulleys are connected so as to be able to transmit to the control device, and the transmission belt is installed so as to be wound between the first transmission pulley, the second transmission pulley, and the main drive pulley.

Preferably, the control device includes a control chamber installed below the push-moving chamber, a control motor fixedly installed in the left wall of the control chamber, and a control at the right end of the control motor. The screw rods are connected so as to be transmitted, and a control block connected to the control screw rods by threads is installed in the control chamber so as to slide left and right, and a switching chamber communicates under the control chamber. In the switching chamber, a switching rod fixedly connected to the lower end of the control block can be slid, and a power supply motor is fixed in the right end surface of the switching rod. The power cap gear is connected to the right end of the power supply motor so that the power cap gear can be transmitted, and the power cap gear is installed to the right end of the rear wall of the switching chamber so that the power cap gear can rotate. It can mesh with the power cap gear and is connected so that the transmission cap gear can be transmitted to the main pulley.

Preferably, the gear chamber is installed on the upper wall of the switching chamber and on the left side of the control chamber so as to communicate with the gear chamber, and the rack spur gear is installed in the gear chamber so as to be able to rotate. The gears are connected so as to be transmitted to the driving spur gear, and a rack capable of meshing with the rack spur gear is fixedly installed in the upper end surface of the switching rod.

The beneficial effect of the present invention is: The present invention employs a method of quantifying high-concentration xuan paper pulp , then diluting it, blending xuan paper pulp at the required concentration, and mixing disturbing the water flow. Better protection of the ingredients inside and avoiding waste.

In order to explain the present invention in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic diagram of the overall configuration of the automatic blending system for xuan paper pulp of the present invention. FIG. 2 is a schematic configuration diagram from the direction AA of FIG. FIG. 3 is a schematic configuration diagram from the BB direction of FIG. FIG. 4 is a schematic configuration diagram from the CC direction of FIG. FIG. 5 is a schematic configuration diagram from the DD direction of FIG.

The present invention takes up an automatic blending system for xuan paper pulp, and is mainly used for the work of blending pulp when producing xuan paper. The present invention will be further described below with reference to the drawings of the present invention.

The automatic pulp compounding system for picture sen paper pulp according to the present invention includes a pulp compounding pond 11, a pulp compounding valve 12 is installed in the pulp compounding pond 11, and a metering chamber 13 is provided on the left side of the pulp compounding valve 12. It is installed so that the metering plate 14 can slide up and down in the metering chamber 13, and an elevating mechanism 101 is installed under the metering plate 14, and the elevating mechanism 101 causes the metering plate 14 to slide up and down. The altitude is controlled, and the pulp of the painting paper is quantified. The punch holes 15 are symmetrically installed on the left and right sides of the metering chamber 13 so as to communicate with each other, and the punch holes 15 on the left side communicate with the external space. Pulp is sent into the metering chamber 13, the punch hole 15 on the right side communicates with the pulp compounding chamber 12, and a valve plate 16 is installed in the punch hole 15. When the metering plate 14 is lowered, the valve plate 16 on the left side is opened, and when the metering plate 14 is raised, the valve plate 16 on the right side is opened, and the valve plate 16 is opened and closed behind the valve plate 16. A valve control device 102 capable of controlling the above is installed, an elastic water permeable film 17 is fixedly installed on the lower side of the pulp compounding chamber 12, and the elastic water permeable film 17 divides the pulp compounding chamber 12 into upper and lower sides. , The fibrous component of the pulp of Gakusen Paper can be located only on the upper side of the elastic water permeable film 17, and five push rods 18 that can be raised and lowered are straight from left to right in the lower wall of the pulp compounding chamber 12. Installed in an array, the upper end of the push rod 18 can push and move the elastic water permeable film 17 up and down like a wave, creating a confusing flow of diluent , further softly stirring the pulp, said. A pulp compounding device 103 is installed under the pulp compounding chamber 12, and the push rod 18 is interlocked and stirred while the pulp compounding device 103 transports a diluent into the pulp compounding chamber 12. A control device 104 is installed under the pulp compounding device 103, and the control device 104 can control the valve control device 102 and the pulp compounding device 103.

Advantageously, the elevating mechanism 101 includes an elevating rod 19 fixedly installed under the metering plate 14, and the elevating screw rod 20 is connected by a screw thread in the elevating rod 19 to obtain the quantification. A metering motor 54 is fixedly installed in the lower wall of the chamber 13, and the elevating screw rod 20 is connected to the upper end of the metering motor 54 so as to be transmitted.

Beneficially, the valve control device 102 includes a pulling groove 23 installed on the rear end surface of the valve plate 16 and is installed in the pulling groove 23 so that the pulling rod 24 can slide up and down. A swing chamber 25 is installed on the rear side of the metering chamber 13, the rear end of the pulling rod 24 extends into the swing chamber 25, and is interlocked with the rear end of the pulling rod 24. The rods 26 are fixedly connected, and the swing rods 27 are installed on the lower side of the swing chamber 25 so that they can rotate, and the lower ends of the interlocking rods 26 on both the left and right sides rotate to the left and right ends of the swing rod 27. A driven spur gear 28 is fixedly installed on the rear side of the swing rod 27 by the same rotating shaft, and a driven spur gear meshing with the driven spur gear 28 is on the right side of the driven spur gear 28. The 29 is installed so that it can rotate.

Beneficially, the lower wall of the withdrawal hole 15 is installed so that the blocking plate chamber 21 communicates with the valve plate 16 so that the valve plate 16 can slide up and down in the blocking plate chamber 21. A pressing spring 22 is fixedly connected between the lower end of the plate 16 and the lower wall of the blocking plate chamber 21.

Advantageously, the pulp blending device 103 includes a push-moving chamber 30 installed below the pulp-blending chamber 12, with the lower end of the push rod 18 extending into the push-moving chamber 30 and A thrust plate 31 is fixedly installed at the lower end of the push rod 18, and a return spring 32 is fixedly installed between the upper end of the thrust plate 31 and the upper wall of the push chamber 30 to drive the thrust. The cam 33 is installed so as to abut on the lower end of the plate 31, the cam 33 is connected to the rear wall of the push-moving chamber 30 so as to be rotatable, and a rotation shaft 34 is located at the rotation center of the cam 33. A synchronous chamber 35 is installed on the rear side of the push-moving chamber 30 which is fixedly installed, and the rear ends of the three intermediate rotating shafts 34 extend into the synchronous chamber 35, and three in the middle. A double pulley 36 is fixedly installed at the rear end of the rotating shaft 34, the rear ends of the rotating shaft 34 on both the left and right sides extend into the synchronous chamber 35, and the rotating shaft 34 on both the left and right sides. A synchronous pulley 37 is fixedly installed at the rear end, and a synchronous belt 38 is installed so as to wrap between the adjacent double pulley 36 and between the adjacent synchronous chamber 35 and the double pulley 36. ing.

Advantageously, a pump 39 is fixedly installed in the right wall of the push-moving chamber 30, and an inlet 40 opened to the right is installed on the right side of the pump 39 so as to communicate with each other. A transport pipe 41 is installed above the pump 39 so as to communicate with each other, and the upper end of the transport pipe 41 communicates with the upper end of the right wall of the pulp compounding chamber 12, and the synchronous chamber 35 and the pump 39 communicate with each other. A pulley chamber 42 is installed on the right side of the pulley chamber 42, a first transmission pulley 43 is installed in the pulley chamber 42 so as to be rotatable, and the first transmission pulley 43 is connected so as to be transmitted to the pump 39. The second transmission pulley 44 is installed on the left side of the first transmission pulley 43 so as to be rotatable, and the second transmission pulley 44 is connected to the rear end of the double pulley 36 in the middle so as to be able to transmit. A driving pulley 45 is installed under the second transmission pulley 44 so as to be rotatable, and the driving pulley 45 is connected so as to be transmitted to the control device 104, and the first transmission pulley 43 and the second transmission are connected. A transmission belt 46 is installed so as to wind between the pulley 44 and the main pulley 45.

Advantageously, the control device 104 includes a control chamber 47 installed below the push-moving chamber 30, and a control motor 48 is fixedly installed in the left wall of the control chamber 47. A control screw rod 49 is connected to the right end of the control motor 48 so that it can be transmitted, and a control block 50 connected to the control screw rod 49 by a thread is installed in the control chamber 47 so as to be slid left and right. A switching chamber 51 is installed under the control chamber 47 so as to communicate with the switching chamber 51, and a switching rod 52 fixedly connected to the lower end of the control block 50 is installed in the switching chamber 51 so as to slide. A power supply motor 53 is fixedly installed in the right end surface of the switching rod 52, and a power cap gear 59 is connected to the right end of the power supply motor 53 so as to be transmitted, and after the switching chamber 51. The transmission cap gear 55 is installed at the right end of the wall so as to be rotatable so that the transmission cap gear 55 can mesh with the power cap gear 59 on the right side and the transmission cap gear 55 can be transmitted to the main pulley 45. It is connected.

Advantageously, a gear chamber 56 is installed on the upper wall of the switching chamber 51 and on the left side of the control chamber 47 so as to communicate with the gear chamber 56 so that the rack spur gear 57 can rotate in the gear chamber 56. The rack spur gear 57 is connected to the main driving spur gear 29 so as to be transmitted to the drive spur gear 29, and a rack 58 capable of meshing with the rack spur gear 57 is fixedly provided in the upper end surface of the switching rod 52. is set up.

The steps of using the automatic blending system for Xuan paper pulp in the main text will be described in detail below with reference to FIGS. 1 to 5.

In the initial state, the metering plate 14 is in the upper limit position, the valve plate 16 closes the extraction hole 15, the swing rod 27 is in the horizontal state, the switching rod 52 is in the intermediate position, and the power bevel gear 59 and the transmission. The bevel gear 55 is not engaged.

When quantifying pulp , the control motor 48 operates, the control screw rod 49 is rotated and interlocked, and the control block 50 is interlocked by the thread connection and moved to the left to move the switching rod 52 to the left side. is, the rack 58 is moved leftward when this, the rack spur gear 57 is rotated interlocked by engagement and, further the driving spur gear 29 is rotated interlocked, the driven spur gear 28 is rotated interlocked by engagement, further shaking rod 27 is rotated interlocked counterclockwise, pull the left of the valve plate 16 by a rod 24 to move left pulls the interlocking rod 26 of the swing rod 27 downwards, further opening the left vent hole 15, the pulp drawing paper when the It is fed from the punch hole 15 on the left side, and at this time, the metering motor 54 operates to rotate and interlock the elevating screw rod 20, and the elevating rod 19 is descended and interlocked by the connection by the screw thread, and the metering plate 14 is descended to the required altitude. , Pulp is stored in the metering chamber 13 above the metering plate 14.

When blending pulp, the control motor 48 rotates in the reverse direction, and the switching rod 52 is interlocked to move the power cap gear 59 and the transmission cap gear 55 to the right until they mesh with each other. At this time, the right end of the swing rod 27 moves downward. It rotates clockwise until it faces, further lowers the right valve plate 16 and interlocks it downward, and the left valve plate 16 returns. At this time, the metering motor 54 rotates in the reverse direction to move the metering plate 14 upward and interlocks, and further quantification is completed. The pulp is sent into the pulp compounding chamber 12, and at this time, the power supply motor 53 operates to rotate and interlock the power cap gear 59, and the transmission cap gear 55 is rotationally interlocked by meshing, and the main pulley 45 is rotationally interlocked. , The second transmission pulley 44 and the first transmission pulley 43 are rotationally interlocked by the transmission belt 46, the first transmission pulley 43 is rotationally interlocked with the pump 39, and the diluent is transferred from the transport pipe 41 into the pulp compounding chamber 12. The second transmission pulley 44 rotates and interlocks the intermediate double pulley 36, the synchronous belt 38 interlocks all the double pulleys 36 and the synchronous pulley 37 to rotate synchronously, and the rotating shaft 34 rotates and interlocks the cam 33. By applying the elasticity of the return spring 32, the thrust plate 31 is reciprocated up and down, and the push rod 18 is interlocked to reciprocate up and down, and the elastic water permeable film 17 is further pushed and moved to disturb the water flow and mix. I do.

The beneficial effect of the present invention is: The present invention employs a method of quantifying high-concentration xuan paper pulp , then diluting it, blending xuan paper pulp at the required concentration, and mixing disturbing the water flow. Better protection of the ingredients inside and avoiding waste.

According to the above method, an engineer in this field can make various changes depending on the operation mode within the scope of the present invention.

The present invention takes up the field of papermaking technology, and specifically, is an automatic blending system for xuan paper pulp.

Xuan paper is a national treasure, and it is a good quality paper that is not eaten by insects or rots, and has good properties. When manufacturing Xuan paper, different pulps are used to make different types of Xuan paper, so different demands can be met. Conventional pulp is produced manually, employees judge the concentration of pulp by experience, and then manually stir and mix the pulp, not only there is a deviation in the concentration of pulp, but also it takes time and energy. If you just pump the pulp and mix it with a stir bar, the ingredients in the pulp will be severely destroyed and may stick to the instrument. The present invention discloses a device capable of solving the above problems.

Chinese Patent Application Publication No. 108671799

Technical problem: The production of conventional Xuan paper relies on experience, and it is done by manually adding raw materials and stirring, making it difficult to control the concentration of pulp, and it takes time and energy.

In order to solve the above problem, this example designs an automatic blending system for pulp and paper pulp, and the automatic blending system for pulp and paper described in the present invention includes a pulp blending pond, and pulp in the pulp blending pond. A compounding chamber is installed, a metering chamber is installed on the left side of the pulp compounding chamber, a metering plate is installed in the metering chamber so that the metering plate can slide up and down, and an elevating mechanism is provided below the metering plate. It is installed, the altitude of the metering plate is controlled by the elevating mechanism, and the high-concentration virgin pulp of the painting paper is quantified, and the holes are symmetrically and communicated on the left and right sides of the metering chamber. The punch hole on the left side communicates with the external space, high-concentration virgin pulp is sent into the metering chamber, and the punch hole on the right side communicates with the pulp compounding chamber. A valve plate is installed inside, and when the metering plate is lowered, the valve plate on the left side is opened, and when the metering plate is raised, the valve plate on the right side is opened, and on the rear side of the valve plate. A valve control device capable of controlling the opening and closing of the valve plate is installed, an elastic water permeable film is fixedly installed on the lower side in the pulp compounding chamber, and the elastic water permeable film divides the pulp compounding chamber into upper and lower sides. , The fibrous component of the pulp of Gakusen Paper can be located only on the upper side of the elastic water permeable film, and five push rods that can be raised and lowered are linearly arranged from left to right in the lower wall of the pulp compounding chamber. Installed in, the upper end of the push rod can push and move the elastic water permeable film up and down like a wave, creating a confusing flow of diluent and further softly stirring the pulp under the pulp compounding chamber. A pulp blending device is installed on the side, and while the pulp blending device transports a diluent into the pulp blending chamber, the push rod can be interlocked and stirred, and is located below the pulp blending device. A control device is installed, and the control device can control the valve control device and the pulp compounding device.

Preferably, the elevating mechanism includes an elevating rod fixedly installed under the metering plate, into which the elevating screw rod is threaded and into the lower wall of the metering chamber. The metering motor is fixedly installed, and the lifting screw rod is connected so as to be transmitted to the upper end of the metering motor.

Preferably, the valve control device includes a pulling groove installed on the rear end surface of the valve plate, in which the pulling rod is installed so that the pulling rod can slide up and down, after the metering chamber. A swing chamber is installed on the side, the rear end of the pulling rod extends into the swing chamber, and the interlocking rod is fixedly connected to the rear end of the pulling rod to form the swing chamber. The swing rod is installed on the lower side of the inside so that the swing rod can rotate, the lower ends of the interlocking rods on both the left and right sides are connected to the left and right ends of the swing rod so as to rotate, and the same rotation shaft is on the rear side of the swing rod. The driven spur gear is fixedly installed, and the driven spur gear that meshes with the driven spur gear is installed on the right side of the driven spur gear so that it can rotate.

Preferably, a blocking plate chamber is installed on the lower wall of the punch hole so as to communicate with the blocking plate chamber, and the valve plate is installed so as to be slid up and down in the blocking plate chamber, and the lower end of the valve plate and the blocking plate are installed. A pressing spring is fixedly connected to the lower wall of the plate chamber.

Preferably, the pulp blending apparatus comprises a push-moving chamber installed below the pulp blending chamber, the lower end of the push rod extending into the push-moving chamber, and at the lower end of the push rod. The thrust plate is fixedly installed, a return spring is fixedly installed between the upper end of the thrust plate and the upper wall of the push-moving chamber, and the cam is installed so as to come into contact with the lower end of the thrust plate. The cam is connected to the rear wall of the push-moving chamber so as to be rotatable, a rotation shaft is fixedly installed at the center of rotation of the cam, and a synchronous chamber is located behind the push-moving chamber. The rear ends of the three intermediate rotating shafts extend into the synchronous chamber, and the double pulleys are fixedly installed at the rear ends of the three intermediate rotating shafts, and the left and right sides of the rotating shaft are fixed. The rear end of the rotating shaft extends into the synchronous chamber, and synchronous pulleys are fixedly installed at the rear ends of the rotating shafts on both the left and right sides, and the synchronous pulley is fixedly installed between the adjacent double pulleys and the adjacent synchronous chamber. A synchronous belt is installed so as to wrap between the double pulley and the double pulley.

Preferably, a pump is fixedly installed in the right wall of the push-moving chamber, and is installed on the right side of the pump so that an inlet opened to the right communicates with the right side of the pump. Is installed so that the transport pipe communicates with each other, the upper end of the transport pipe communicates with the upper end of the right wall of the pulp compounding chamber, and the pulley chamber is installed on the right side of the synchronous chamber and the pump. The first transmission pulley is installed in the pulley chamber so that it can rotate, the first transmission pulley is connected so that it can be transmitted to the pump, and the second transmission pulley rotates on the left side of the first transmission pulley. The second transmission pulley is connected so as to be able to transmit to the rear end of the double pulley in the middle, and the main drive pulley is installed under the second transmission pulley so as to be able to rotate. The pulleys are connected so as to be able to transmit to the control device, and the transmission belt is installed so as to be wound between the first transmission pulley, the second transmission pulley, and the main drive pulley.

Preferably, the control device includes a control chamber installed below the push-moving chamber, a control motor fixedly installed in the left wall of the control chamber, and a control at the right end of the control motor. The screw rods are connected so as to be transmitted, and a control block connected to the control screw rods by threads is installed in the control chamber so as to slide left and right, and a switching chamber communicates under the control chamber. In the switching chamber, a switching rod fixedly connected to the lower end of the control block can be slid, and a power supply motor is fixed in the right end surface of the switching rod. The power cap gear is connected to the right end of the power supply motor so that the power cap gear can be transmitted, and the power cap gear is installed to the right end of the rear wall of the switching chamber so that the power cap gear can rotate. It can mesh with the power cap gear and is connected so that the transmission cap gear can be transmitted to the main pulley.

Preferably, the gear chamber is installed on the upper wall of the switching chamber and on the left side of the control chamber so as to communicate with the gear chamber, and the rack spur gear is installed in the gear chamber so as to be able to rotate. The gears are connected so as to be transmitted to the driving spur gear, and a rack capable of meshing with the rack spur gear is fixedly installed in the upper end surface of the switching rod.

The beneficial effect of the present invention is: The present invention employs a method in which a high concentration of virgin pulp of high concentration xuan paper is quantified, then diluted, and the pulp of xuan paper is blended at a required concentration, and the mixing disturbs the water flow. , Better protection of ingredients in Xuan paper pulp and avoiding waste.

In order to explain the present invention in detail with reference to FIGS. 1 to 5 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic diagram of the overall configuration of the automatic blending system for xuan paper pulp of the present invention. FIG. 2 is a schematic configuration diagram from the direction AA of FIG. FIG. 3 is a schematic configuration diagram from the BB direction of FIG. FIG. 4 is a schematic configuration diagram from the CC direction of FIG. FIG. 5 is a schematic configuration diagram from the DD direction of FIG.

The present invention takes up an automatic blending system for xuan paper pulp, and is mainly used for the work of blending pulp when producing xuan paper. The present invention will be further described below with reference to the drawings of the present invention.

The automatic pulp compounding system for picture sen paper pulp according to the present invention includes a pulp compounding pond 11, a pulp compounding chamber 12 is installed in the pulp compounding pond 11, and a metering chamber 13 is provided on the left side of the pulp compounding chamber 12. It is installed so that the metering plate 14 can slide up and down in the metering chamber 13, and an elevating mechanism 101 is installed under the metering plate 14, and the elevating mechanism 101 causes the metering plate 14 to slide up and down. The altitude is controlled, and quantification is performed on the high-concentration virgin pulp of the painting paper. The punch holes 15 are symmetrically and communicatively installed on the left and right sides of the metering chamber 13, and the punch holes 15 on the left side are provided. It communicates with the external space, high-concentration virgin pulp is sent into the metering chamber 13, and the punch hole 15 on the right side communicates with the pulp compounding chamber 12, and the punch hole 15 is inside. When the valve plate 16 is installed and the metering plate 14 descends, the left valve plate 16 is opened, and when the metering plate 14 rises, the right valve plate 16 is opened and the rear side of the valve plate 16. A valve control device 102 capable of controlling the opening and closing of the valve plate 16 is installed in the pulp compounding chamber 12, an elastic water permeable film 17 is fixedly installed on the lower side of the pulp compounding chamber 12, and the elastic water permeable film 17 is the pulp. The compounding chamber 12 is divided into upper and lower sides, and the fibrous component of the pulp of the painting paper can be located only on the upper side of the elastic water permeable film 17, and five push rods 18 that can be raised and lowered in the lower wall of the pulp compounding chamber 12 Are installed in a linear arrangement from left to right, and the upper end of the push rod 18 can push and move the elastic water permeable film 17 to rock it up and down like a wave, creating a confusing flow of diluent. Further, the pulp is gently stirred, and a pulp blending device 103 is installed under the pulp blending chamber 12, and the push rod 18 is installed while the pulp blending device 103 transports a diluent into the pulp blending chamber 12. A control device 104 is installed under the pulp blending device 103, and the control device 104 can control the valve control device 102 and the pulp blending device 103.

Advantageously, the elevating mechanism 101 includes an elevating rod 19 fixedly installed under the metering plate 14, and the elevating screw rod 20 is connected by a screw thread in the elevating rod 19 to obtain the quantification. A metering motor 54 is fixedly installed in the lower wall of the chamber 13, and the elevating screw rod 20 is connected to the upper end of the metering motor 54 so as to be transmitted.

Beneficially, the valve control device 102 includes a pulling groove 23 installed on the rear end surface of the valve plate 16 and is installed in the pulling groove 23 so that the pulling rod 24 can slide up and down. A swing chamber 25 is installed on the rear side of the metering chamber 13, the rear end of the pulling rod 24 extends into the swing chamber 25, and is interlocked with the rear end of the pulling rod 24. The rods 26 are fixedly connected, and the swing rods 27 are installed on the lower side of the swing chamber 25 so that they can rotate, and the lower ends of the interlocking rods 26 on both the left and right sides rotate to the left and right ends of the swing rod 27. A driven spur gear 28 is fixedly installed on the rear side of the swing rod 27 by the same rotating shaft, and a driven spur gear meshing with the driven spur gear 28 is on the right side of the driven spur gear 28. The 29 is installed so that it can rotate.

Beneficially, the lower wall of the withdrawal hole 15 is installed so that the blocking plate chamber 21 communicates with the valve plate 16 so that the valve plate 16 can slide up and down in the blocking plate chamber 21. A pressing spring 22 is fixedly connected between the lower end of the plate 16 and the lower wall of the blocking plate chamber 21.

Advantageously, the pulp blending device 103 includes a push-moving chamber 30 installed below the pulp-blending chamber 12, with the lower end of the push rod 18 extending into the push-moving chamber 30 and A thrust plate 31 is fixedly installed at the lower end of the push rod 18, and a return spring 32 is fixedly installed between the upper end of the thrust plate 31 and the upper wall of the push chamber 30 to drive the thrust. The cam 33 is installed so as to abut on the lower end of the plate 31, the cam 33 is connected to the rear wall of the push-moving chamber 30 so as to be rotatable, and a rotation shaft 34 is located at the rotation center of the cam 33. A synchronous chamber 35 is installed on the rear side of the push-moving chamber 30 which is fixedly installed, and the rear ends of the three intermediate rotating shafts 34 extend into the synchronous chamber 35, and three in the middle. A double pulley 36 is fixedly installed at the rear end of the rotating shaft 34, the rear ends of the rotating shaft 34 on both the left and right sides extend into the synchronous chamber 35, and the rotating shaft 34 on both the left and right sides. A synchronous pulley 37 is fixedly installed at the rear end, and a synchronous belt 38 is installed so as to wrap between the adjacent double pulley 36 and between the adjacent synchronous chamber 35 and the double pulley 36. ing.

Advantageously, a pump 39 is fixedly installed in the right wall of the push-moving chamber 30, and an inlet 40 opened to the right is installed on the right side of the pump 39 so as to communicate with each other. A transport pipe 41 is installed above the pump 39 so as to communicate with each other, and the upper end of the transport pipe 41 communicates with the upper end of the right wall of the pulp compounding chamber 12, and the synchronous chamber 35 and the pump 39 communicate with each other. A pulley chamber 42 is installed on the right side of the pulley chamber 42, a first transmission pulley 43 is installed in the pulley chamber 42 so as to be rotatable, and the first transmission pulley 43 is connected so as to be transmitted to the pump 39. The second transmission pulley 44 is installed on the left side of the first transmission pulley 43 so as to be rotatable, and the second transmission pulley 44 is connected to the rear end of the double pulley 36 in the middle so as to be able to transmit. A driving pulley 45 is installed under the second transmission pulley 44 so as to be rotatable, and the driving pulley 45 is connected so as to be transmitted to the control device 104, and the first transmission pulley 43 and the second transmission are connected. A transmission belt 46 is installed so as to wind between the pulley 44 and the main pulley 45.

Advantageously, the control device 104 includes a control chamber 47 installed below the push-moving chamber 30, and a control motor 48 is fixedly installed in the left wall of the control chamber 47. A control screw rod 49 is connected to the right end of the control motor 48 so that it can be transmitted, and a control block 50 connected to the control screw rod 49 by a thread is installed in the control chamber 47 so as to be slid left and right. A switching chamber 51 is installed under the control chamber 47 so as to communicate with the switching chamber 51, and a switching rod 52 fixedly connected to the lower end of the control block 50 is installed in the switching chamber 51 so as to slide. A power supply motor 53 is fixedly installed in the right end surface of the switching rod 52, and a power cap gear 59 is connected to the right end of the power supply motor 53 so as to be transmitted, and after the switching chamber 51. The transmission cap gear 55 is installed at the right end of the wall so as to be rotatable so that the transmission cap gear 55 can mesh with the power cap gear 59 on the right side and the transmission cap gear 55 can be transmitted to the main pulley 45. It is connected.

Advantageously, a gear chamber 56 is installed on the upper wall of the switching chamber 51 and on the left side of the control chamber 47 so as to communicate with the gear chamber 56 so that the rack spur gear 57 can rotate in the gear chamber 56. The rack spur gear 57 is connected to the main driving spur gear 29 so as to be transmitted to the drive spur gear 29, and a rack 58 capable of meshing with the rack spur gear 57 is fixedly provided in the upper end surface of the switching rod 52. is set up.

The steps of using the automatic blending system for Xuan paper pulp in the main text will be described in detail below with reference to FIGS. 1 to 5.

In the initial state, the metering plate 14 is in the upper limit position, the valve plate 16 closes the extraction hole 15, the swing rod 27 is in the horizontal state, the switching rod 52 is in the intermediate position, and the power bevel gear 59 and the transmission. The bevel gear 55 is not engaged.

When quantifying high-concentration virgin pulp , the control motor 48 operates, the control screw rod 49 is rotated and interlocked, and the control block 50 is interlocked by the connection by the screw thread and moved to the left to interlock the switching rod 52. At this time, the rack 58 moves to the left, and the rack spur gear 57 is rotationally interlocked by meshing, the main spur gear 29 is rotationally interlocked, and the driven spur gear 28 is rotationally interlocked by meshing. Further, the swaying rod 27 is rotationally interlocked in a counterclockwise direction, the left end of the swaying rod 27 is pulled by the interlocking rod 26 and the interlocking rod 24, the left valve plate 16 is pulled downward, and the left side punching hole 15 is opened. The high-concentration virgin pulp of Gakusen paper is sent from the punch hole 15 on the left side, and at this time, the metering motor 54 operates to rotate and interlock the elevating screw rod 20, and the elevating rod 19 is descended and interlocked by connecting with the screw thread, and the metering plate 14 Is lowered to the required altitude, and a high concentration of virgin pulp is stored in the metering chamber 13 above the metering plate 14.

When blending pulp, the control motor 48 rotates in the reverse direction, and the switching rod 52 is interlocked to move the power cap gear 59 and the transmission cap gear 55 to the right until they mesh with each other. At this time, the right end of the swing rod 27 moves downward. It rotates clockwise until it faces, further lowers the right valve plate 16 and interlocks it downward, and the left valve plate 16 returns. At this time, the metering motor 54 rotates in the reverse direction to move the metering plate 14 upward and interlocks, and further quantification is completed. High-concentration virgin pulp is sent into the pulp compounding chamber 12, and at this time, the power supply motor 53 operates to rotate and interlock the power cap gear 59, and the transmission cap gear 55 is rotationally interlocked by meshing, and the main pulley 45 The second transmission pulley 44 and the first transmission pulley 43 are rotationally interlocked by the transmission belt 46, the first transmission pulley 43 rotates the pump 39, and the diluent is mixed with pulp from the transport pipe 41. Feeding into the chamber 12, the second transmission pulley 44 rotates and interlocks the intermediate double pulley 36, and the synchronous belt 38 interlocks all the double pulleys 36 and the synchronous pulley 37 to rotate synchronously, and the rotating shaft 34 cams. By rotating 33 and applying the elasticity of the return spring 32, the thrust plate 31 is reciprocated up and down, and the push rod 18 is interlocked and reciprocated up and down, and the elastic water permeable film 17 is pushed and moved to make the water flow. Disturb and mix.

The beneficial effect of the present invention is: The present invention employs a method in which a high concentration of virgin pulp of high concentration xuan paper is quantified, then diluted, and the pulp of xuan paper is blended at a required concentration, and the mixing disturbs the water flow. , Better protection of ingredients in Xuan paper pulp and avoiding waste.

According to the above method, an engineer in this field can make various changes depending on the operation mode within the scope of the present invention.

Claims (8)

When viewed from the front, it includes a pulp compounding pond, a pulp compounding chamber is installed in the pulp compounding pond, a metering chamber is installed on the left side of the pulp compounding chamber, and a metering plate is up and down in the metering chamber. An elevating mechanism is installed under the metering plate, and the elevating mechanism controls the altitude of the metering plate, further quantifies the virgin pulp of the painting paper, and left and right of the metering chamber. The holes on both sides are installed symmetrically and communicate with each other, the holes on the left side communicate with the external space, virgin pulp is sent into the metering chamber, and the holes on the right side are It communicates with the pulp compounding chamber, and a valve plate is installed in the punched hole. When the metering plate is lowered, the valve plate on the left side is opened, and when the metering plate is raised, the metering plate on the right side is said. A valve control device capable of opening and closing the valve plate is installed on the rear side of the valve plate, and an elastic water permeable film is fixedly installed on the lower side in the pulp compounding chamber. The elastic water permeable film divides the pulp compounding chamber into upper and lower sides, and the fibrous component of the pulp of the painting paper can be located only on the upper side of the elastic water permeable film, and five movable structures can be raised and lowered in the lower wall of the pulp compounding chamber. The push rods are installed so that they are arranged in a straight line from left to right, and the upper end of the push rod can push and move the elastic water permeable film up and down like a wave, creating a confused water flow and further pulp. The pulp is mixed softly, and a pulp compounding device is installed under the pulp compounding chamber, and the push rod is interlocked and stirred while the pulp compounding device transports diluted pulp into the pulp compounding chamber. An automatic pulp blending system for pulp and paper, characterized in that a control device is installed below the pulp blending device, and the control device can control the valve control device and the pulp blending device. The elevating mechanism includes an elevating rod fixedly installed under the metering plate, an elevating screw rod is connected by a screw thread in the elevating rod, and a metering motor is contained in the lower wall of the metering chamber. The automatic blending system for xuan paper pulp according to claim 1, wherein the lifting screw rod is fixedly installed and connected to the upper end of the metering motor so as to be transmitted. The valve control device includes a pulling groove installed on the rear end surface of the valve plate, and the pulling rod is installed in the pulling groove so as to slide up and down, and on the rear side of the metering chamber. A swing chamber is installed, the rear end of the pulling rod extends into the swing chamber, and an interlocking rod is fixedly connected to the rear end of the pulling rod, below the inside of the swing chamber. The swing rod is installed on the side so that it can rotate, the lower ends of the interlocking rods on both the left and right sides are connected to the left and right ends of the swing rod so that they can rotate, and the rear side of the swing rod is driven by the same rotation axis. The automatic painting paper pulp according to claim 1, wherein the gear is fixedly installed, and the driven spur gear meshing with the driven spur gear is installed on the right side of the driven spur gear so as to be able to rotate. Blending system. A blocking plate chamber is installed on the lower wall of the punch hole so as to communicate with the blocking plate chamber, and the valve plate is installed so as to be slid up and down in the blocking plate chamber, and the lower end of the valve plate and the blocking plate chamber. The automatic blending system for xuan paper pulp according to claim 1, wherein a pressing spring is fixedly connected to the lower wall. The pulp blending device includes a push-moving chamber installed below the pulp-blending chamber, the lower end of the push rod extends into the push-moving chamber, and a thrust plate is located at the lower end of the push rod. It is fixedly installed, a return spring is fixedly installed between the upper end of the thrust plate and the upper wall of the push-moving chamber, and a cam is installed so as to abut on the lower end of the thrust plate. A cam is rotatably connected to the rear wall of the push-moving chamber, a rotating shaft is fixedly installed at the center of rotation of the cam, and a synchronous chamber is installed behind the push-moving chamber. The rear ends of the three intermediate rotating shafts extend into the synchronous chamber, and double pulleys are fixedly installed at the rear ends of the three intermediate rotating shafts of the rotating shafts on both the left and right sides. The rear end extends into the synchronous chamber, and synchronous pulleys are fixedly installed at the rear ends of the rotating shafts on both the left and right sides, and between the adjacent double pulleys and between the adjacent synchronous chamber and the double. The automatic blending system for painting paper pulp according to claim 1, wherein a synchronous belt is installed so as to wrap around the pulley. A pumping pump is fixedly installed in the right wall of the push-moving chamber, and an inlet opened to the right is installed on the right side of the pumping pump so as to communicate with the right side of the pumping pump. Is installed so that the upper end of the transport pipe communicates with the upper end of the right wall of the pulp compounding chamber, and a pulley chamber is installed on the right side of the synchronous chamber and the pump. The first transmission pulley is installed so that it can rotate inside, the first transmission pulley is connected so that it can be transmitted to the pump, and the second transmission pulley can rotate on the left side of the first transmission pulley. The second transmission pulley is installed and connected so as to be transmitted to the rear end of the double pulley in the middle, and the main drive pulley is installed under the second transmission pulley so as to be rotatable, and the main drive pulley is installed. The claim is characterized in that the transmission belt is connected so as to be transmitted to a control device, and the transmission belt is installed so as to be wound between the first transmission pulley, the second transmission pulley, and the main drive pulley. The automatic blending system for the picture-sen paper pulp according to 1. The control device includes a control chamber installed below the push-moving chamber, a control motor is fixedly installed in the left wall of the control chamber, and a control screw rod is transmitted to the right end of the control motor. A control block connected to the control screw rod by a thread is installed so as to be slid left and right in the control chamber, and a switching chamber is installed under the control chamber so as to communicate with the control chamber. A switching rod fixedly connected to the lower end of the control block is slidably installed in the switching chamber, and a power supply motor is fixedly installed in the right end surface of the switching rod. , The power cap gear is connected to the right end of the power supply motor so that the power cap gear can be transmitted, and the power cap gear is installed at the right end of the rear wall of the switching chamber so that the power cap gear can rotate. The automatic blending system for painting paper pulp according to claim 1, wherein the transmission cap gear can be meshed with the gear and is connected so as to be transmitted to the main pulley. A gear chamber is installed on the upper wall of the switching chamber and on the left side of the control chamber so as to communicate with each other, and a rack spur gear is installed in the gear chamber so that the rack spur gear can rotate. The first aspect of claim 1, wherein a rack that is connected to the main driving spur gear so as to be transmitted and that can mesh with the rack spur gear is fixedly installed in the upper end surface of the switching rod. Automatic compounding system for Xuan paper pulp.

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