CN109281216B - Efficient papermaking dispersing equipment utilizing transverse and radial bidirectional rotation operation - Google Patents

Abstract

The invention discloses a high-efficiency dispersing device for papermaking, which operates by utilizing transverse and radial bidirectional rotation, and the structure of the dispersing device comprises: the controller, unable adjustment base, the output tube, activity dispersion devices, the screw thread frame, the input tube, the controller is located unable adjustment base's preceding terminal surface and with unable adjustment base fixed connection, output tube and unable adjustment base mutually perpendicular and link up mutually with unable adjustment base, thereby reach and make the electro-magnet produce magnetism through the coil circular telegram, make the flow height of paper pulp rise through the protruding piece simultaneously, the bed attenuation of flowing simultaneously, the iron wire can be inhaled during the flow that flows through when having little iron wire again, thereby prevent the contact of iron wire and dispersion equipment, and the shape displacement ability of returning of having increased the cutter through the sun gear realizes horizontal rotatory dispersion, cooperate the radial dispersion of cutting knife simultaneously, can improve the effect of dispersion, simultaneously with mutually perpendicular's barb type cutting knife on the knife rest, mixing and dispersion paper pulp block that can be better, make the achievement of dispersion improve in the short time.

Description

Efficient papermaking dispersing equipment utilizing transverse and radial bidirectional rotation operation

Technical Field

The invention relates to the field of dispersion equipment, in particular to high-efficiency dispersion equipment for papermaking, which operates by utilizing transverse and radial bidirectional rotation.

Background

The current dispersing device usually pulls out the iron wires on the waste paper, then processes the waste paper into pulp, and then stirs the pulp inside the pipe body at high speed in a combined structure of a single-pipe single shaft and a dispersing disc to complete the dispersing and mixing work of the pulp, but the following method is easy to result:

when carrying out dispersion work, disperse through the mode of unipolar unidirectional rotation, easily missed the paper pulp block when rotatory when the dispersion, need prolong the dispersion effect that the time of work improves paper pulp to with the small-size iron wire on the staff negligence time waste paper of single tube dispersion mode is easy, follow paper pulp and get into the inside of dispersion equipment, strike each other under the cutter rotation of high-speed rotation, make cutter surface damage easily, reduce the life of cutter, influence dispersion effect.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: utilize high-efficient papermaking of horizontal radial two-way rotation operation to use dispersion equipment, its structure includes: controller, unable adjustment base, output tube, activity dispersion devices, screw thread frame, input tube, the controller be located unable adjustment base's preceding terminal surface and with unable adjustment base fixed connection, output tube and unable adjustment base mutually perpendicular and link up mutually with unable adjustment base, activity dispersion devices is located the left side terminal surface of output tube and with output tube through connection, the screw thread frame is located activity dispersion devices's upside terminal surface and is connected with the cooperation of activity dispersion devices simultaneously, the left side terminal surface of activity dispersion devices is located to the input tube and with activity dispersion devices through connection, unable adjustment base's downside surface is equipped with the rubber cushion block of supporting usefulness.

As a further optimization of the invention, the movable dispersion device is provided with a cleaning iron absorption frame, a bearing seat and a matching dispersion frame, the cleaning iron absorption frame is positioned on the left end face of the bearing seat and fixedly communicated with the bearing seat, the matching dispersion frame is positioned on the right end face of the bearing seat and fixedly connected with the bearing seat, and the bearing seat is of a hollow disc-shaped metal structure.

As a further optimization of the invention, the cleaning magnet frame is provided with a sliding frame, a pulling rod, an electromagnet, an electric wire, a special-shaped rod, a pressure cylinder, a special-shaped pipe, a spring, a conveying channel, a sliding frame and a convex block, wherein the convex block is positioned inside the conveying channel and is in an integrated structure with the conveying channel, the pressure cylinder is positioned on the upper side end surface of the conveying channel and is fixedly connected with the conveying channel, the special-shaped pipe is positioned inside the pressure cylinder and is in an integrated structure, the special-shaped rod is embedded inside the special-shaped pipe and is in clearance fit, the spring is positioned at the upper end and the lower end of the special-shaped rod and is fixedly connected with the special-shaped rod, the sliding frame wraps the outer side surface of the special-shaped rod and is matched with the electromagnet, the electromagnet is positioned above the conveying channel and is movably connected with the electromagnet, the electric wire is positioned at the, the pull rod is embedded into the sliding frame, the pull rod is matched with the sliding frame, the special-shaped rod is of a rectangular structure provided with an arc-shaped notch which moves downwards in a concave mode, and the special-shaped pipe is of a reverse Z-shaped structure.

As a further optimization of the invention, the matching dispersion frame is provided with a sun gear, a shaft lever, a central shaft, an electric power frame, a cutting knife, an arc frame, a disc frame, a dispersion cabin and a sealing frame, the arc-shaped frame is positioned inside the dispersion cabin and fixedly connected with the dispersion cabin, the sun wheel is positioned on the inner end surface of the dispersion cabin and fixedly connected with the dispersion cabin, the sealing frame is fixedly connected with the dispersion cabin, the central shaft is positioned in the center of the sun wheel and penetrates through the dispersion cabin, the shaft lever is arranged in the arc-shaped frame and is fixedly connected with the central shaft, the disc frame is movably arranged at the upper end and the lower end of the surface of the shaft lever, the sealing frame is fixedly connected with the disc frame, the electric power frame is fixedly connected with the right side end face of the arc frame, the cutting knife is embedded into the electric rack, the cutting knife and the electric rack are matched, and the cutting channel is of a special-shaped structure which is vertically staggered and divided with the edge of the cell panel in front and back.

As a further optimization of the invention, the disc frame is provided with a disc body, a mounting plate, a fixing ring and a tool rest, the fixing ring is positioned in the center of the disc body and is movably connected with the disc body, the tool rest is fixedly connected with the outer side end face of the disc body in an annular structure, the mounting plate is positioned on the rear side surface of the disc body and is integrated with the disc body, and the tool rest is in a right-angle structure, one end of the tool rest is provided with a triangular barb blade, and the other end of the tool rest is provided with an arc.

Advantageous effects

The invention is applied to a high-efficiency paper making dispersion device which operates by utilizing transverse and radial bidirectional rotation, when dispersion work is carried out, paper pulp is conveyed into the interior of the device through a conveying channel, then the paper pulp is displaced forwards under pressure, then when the paper pulp passes through a convex block, fluid rises, a fluid layer of the fluid is thinned, impurities in the fluid are easy to leak out, when small iron wires are mixed, an electromagnet is electrified through an upper electric wire to generate magnetism when the small iron wires pass through the convex block, then small iron wires are attracted upwards, high-pressure gas is fed through an air pumping device after the attraction, a special-shaped rod is forced to displace forwards, the iron wires are shoveled from the electromagnet through a front rectangular block and are fed into the interior of a pulling rod, then the iron wires are pulled out by the limit of a sliding frame, then the paper pulp continues to advance and flows into the interior of an arc-shaped frame by the descending potential energy generated by the convex block, make the center pin rotatory through the motor, thereby it is inboard rotatory at the sun gear to drive the disc frame on the axostylus axostyle, and small motor on the mounting panel makes the knife rest rotatory, can stir like this, and the inside paper pulp of dispersion arc frame carries out the work of dispersion, and the dispersion can be assisted to the inside cutting knife of arc frame, then radially cutting apart with the cutting knife, can make the device have multidirectional dispersion point, improve the achievement of inside dispersion, and the seal frame can make the inside of the sun gear embedding arc frame in the outside not make paper pulp reveal, thereby accomplish work.

The invention mainly cleans the iron attracting frame, enables the electromagnet to generate magnetism through the energization of the coil, enables the flowing height of paper pulp to rise through the convex block, thins the flowing layer, and attracts iron wires when the flowing flow is small, thereby preventing the iron wires from contacting with dispersing equipment.

The invention mainly matches the dispersing frame and the disc frame, increases the circle displacement capability of the cutter through the sun gear to realize transverse rotation dispersion, matches the radial dispersion of the cutter to improve the dispersion effect, and uses the mutually vertical barb type cutters on the cutter frame to better mix and disperse the paper pulp blocks, thereby improving the dispersion result in a short time.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic cross-sectional view of a high-efficiency dispersing apparatus for papermaking according to the present invention operating by bidirectional rotation in the transverse radial direction.

FIG. 2 is a schematic diagram of the mechanism of the sweeping and grinding device of the dispersing apparatus for high-efficiency papermaking according to the present invention, which operates by bidirectional rotation in the transverse and radial directions.

FIG. 3 is a schematic view of a pressed deformation structure of a movable cleaning frame of a dispersion apparatus for high-efficiency papermaking according to the present invention, which operates by bidirectional rotation in a transverse and radial direction.

Fig. 4 is a schematic view showing the structure of a doctor blade holder of a high-efficiency dispersing apparatus for papermaking according to the present invention operating by means of a transverse radial direction bidirectional rotation.

FIG. 5 is a schematic view showing the structure of an optical reflection frame of a dispersion apparatus for high-efficiency papermaking according to the present invention, which operates by bidirectional rotation in the transverse radial direction.

In the figure: a controller-1, a fixed base-2, an output pipe-3, a movable dispersion device-4, a thread frame-5, an input pipe-6, a cleaning iron sucking frame-41, a bearing seat-42, a matching dispersion frame-43, a sliding frame-411, a pulling rod-412, an electromagnet-413, an electric wire-414, a special-shaped rod-415, a pressure cylinder-416, a special-shaped pipe-417, a spring-418, a conveying passage-419, a sliding frame-4110, a bump-4111, a sun wheel-431, a shaft rod-432, a central shaft-433, an electric power frame-434, a cutting knife-435, an arc-shaped frame-436, a disc frame-437, a dispersion cabin-438, a seal frame-439, a disc-4371, a mounting plate-4372, a fixed ring-4373, a fixed ring-437, a, Knife holder-4374.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1, the present invention provides a dispersion apparatus for high-efficiency paper making using a bidirectional rotation operation in a transverse and radial direction, which comprises: controller 1, unable adjustment base 2, output tube 3, activity dispersion devices 4, screw thread frame 5, input tube 6, controller 1 be located unable adjustment base 2 preceding terminal surface and with unable adjustment base 2 fixed connection, output tube 3 and unable adjustment base 2 mutually perpendicular and link up mutually with unable adjustment base 2, activity dispersion devices 4 are located the left side terminal surface of output tube 3 and link up with output tube 3, screw thread frame 5 is located the upside terminal surface of activity dispersion devices 4 and is connected with the cooperation of activity dispersion devices 4 simultaneously, input tube 6 locates the left side terminal surface of activity dispersion devices 4 and link up with activity dispersion devices 4, the downside surface of unable adjustment base 2 is equipped with the rubber cushion block of supporting usefulness.

Referring to fig. 2, the present invention provides a dispersion apparatus for high efficiency paper making using a bidirectional rotation operation in a transverse and radial direction, which comprises: the movable dispersion device 4 is provided with a cleaning iron absorbing frame 41, a bearing seat 42 and a matching dispersion frame 43, the cleaning iron absorbing frame 41 is located on the left end face of the bearing seat 42, the cleaning iron absorbing frame and the bearing seat are fixedly communicated, the matching dispersion frame 43 is arranged on the right end face of the bearing seat 42 and is fixedly connected with the bearing seat 42, and the bearing seat 42 is of a hollow disc type metal structure.

Referring to fig. 3, the present invention provides a dispersion apparatus for high efficiency paper making using a bidirectional rotation in a transverse and radial direction, which comprises: the cleaning iron sucking frame 41 is provided with a sliding frame 411, a pulling rod 412, an electromagnet 413, an electric wire 414, a special-shaped rod 415, a pressure cylinder 416, a special-shaped pipe 417, a spring 418, a conveying passage 419, a sliding frame 4110 and a convex block 4111, wherein the convex block 4111 is positioned inside the conveying passage 419 and is in an integrated structure with the conveying passage 419, the pressure cylinder 416 is positioned on the upper side end face of the conveying passage 419 and is fixedly connected with the conveying passage 419, the special-shaped pipe 417 is positioned inside the pressure cylinder 416 and is in an integrated structure, the special-shaped rod 415 is embedded inside the special-shaped pipe 417 and adopts clearance fit, the spring 418 is positioned on the upper end face and the lower end face of the special-shaped rod 415, the sliding frame 4110 is wrapped on two outer side surfaces of the special-shaped rod 415, the electromagnet 413 is positioned above the conveying passage 419 and is movably connected with the electromagnet 413, the electric wire 414 is positioned on the left side of the electromagnet 413, the sliding frame 411 and the conveying passage, the pull rod 412 is embedded into the sliding frame 411, the pull rod is matched with the sliding frame, the special-shaped rod 415 is of a rectangular structure provided with an arc notch which moves downwards in a concave mode, the special-shaped pipe 417 is of a reverse Z-shaped structure, and the special-shaped pipe 417 is connected with an external air pumping device.

Referring to fig. 4, the present invention provides a dispersion apparatus for high efficiency paper making using a bidirectional rotation in a transverse and radial direction, which comprises: the matching and dispersing frame 43 is provided with a sun wheel 431, a shaft rod 432, a central shaft 433, an electric power frame 434, a cutting knife 435, an arc-shaped frame 436, a disc frame 437, a dispersing cabin 438 and a sealing frame 439, the arc-shaped frame 436 is positioned inside the dispersing cabin 438 and fixedly connected with the two, the sun wheel 431 is positioned on the inner end surface of the dispersing cabin 438 and fixedly connected with the dispersing cabin 438, the sealing frame 439 is fixedly connected with the dispersing cabin 438, the central shaft 433 is positioned in the center of the sun wheel 431 and penetrates through the dispersing cabin 438, the shaft rod 432 is arranged inside the arc-shaped frame 436 and fixedly connected with the central shaft 433, the disc frame 437 is movably arranged at the upper end and the lower end of the surface of the shaft rod 432, the sealing frame 439 is fixedly connected with the disc frame 437, the electric power frame 434 is fixedly connected with the two on the right side end surface of the arc-shaped frame 436, the cutting knife 435 is embedded inside the electric power frame 434 and matched with the two, the, the central shaft 433 is fixedly connected with a motor, a cutting knife is arranged inside the arc-shaped frame 436, and the sealing frame 439 is a through hole disc structure provided with a convex baffle inside a clamping groove and is connected into a whole in a fitting mode.

Referring to fig. 5, the present invention provides a dispersion apparatus for high efficiency paper making using a bidirectional rotation operation in a transverse and radial direction, which comprises: the disc frame 437 is equipped with disk body 4371, mounting panel 4372, retainer plate 4373, knife rest 4374, the retainer plate 4373 is located disk body 4371's central authorities and with disk body 4371 swing joint, knife rest 4374 is both fixed connection of the outside terminal surface that the annular structure installed at disk body 4371, mounting panel 4372 is located disk body 4371's rear side surface and is the integrated structure with disk body 4371 simultaneously, knife rest 4374 is the structure that the one end of right angle formula is equipped with triangle barb blade and the other end is equipped with the arc blade, be equipped with small motor on the mounting panel 4372.

When dispersion work is carried out, pulp is conveyed into the interior of the equipment through a conveying passage 419, then the pulp is displaced forwards under pressure, then when the pulp passes through a convex block 4111, fluid rises, a flowing layer of the fluid is thinned, impurities in the pulp are easy to leak out, when small iron wires are mixed, when the pulp passes through the convex block 4111, an electromagnet 413 is electrified through an upper electric wire 414 to generate magnetism, then the small iron wires are attracted upwards, and after attraction, high-pressure gas is sent through an air pumping device, so that a special-shaped rod 415 is forced to displace forwards, the iron wires are shoveled from the electromagnet 413 through a front rectangular block and sent into the interior of a pulling rod 412, then the iron wires are pulled out through limiting of a sliding frame 4110, the iron wires are sent out, then the pulp continues to advance, the pulp flows into the arc-shaped frame 436 and a central shaft 433 is rotated through a motor by the descending potential energy generated by the convex block 4111, thereby driving the disc frame 437 on the shaft 432 to rotate inside the sun gear 431, and the small motor on the mounting plate 4372 makes the tool holder 4374 rotate, so that stirring can be performed, and the pulp inside the arc frame 436 is dispersed, and the cutter inside the arc frame 436 can assist in dispersion, and then the device can be provided with multi-directional dispersion points after being divided in the radial direction of the cutter 435, the dispersion result inside is improved, and the sealing frame 439 can make the sun gear 431 outside embedded inside the arc frame 436 not to leak the pulp, thereby completing the work,

the invention solves the problems that paper pulp blocks are easy to miss during rotation during dispersion by adopting a single-shaft unidirectional rotation mode for dispersion, the dispersion effect of the paper pulp is improved by prolonging the working time, and small iron wires on waste paper easily enter the dispersion equipment along with the paper pulp in a single-pipe dispersion mode when workers neglect, the small iron wires collide with each other under the rotation of a cutter rotating at high speed, the surface of the cutter is easy to damage, the service life of the cutter is reduced, and the dispersion effect is influenced, the invention mainly realizes that an electromagnet generates magnetism by electrifying a coil through matching a cleaning iron absorption frame 41 and a matching dispersion frame 43, simultaneously the flowing height of the paper pulp is increased through a convex block, simultaneously a flowing layer is thinned, and the iron wires are sucked up when the flowing flow rate of small iron wires is changed, thereby preventing the iron wires from contacting the dispersion equipment, and increased the shape displacement ability of returning of cutter through the sun gear and realized horizontal rotatory dispersion, the radial dispersion of cooperation cutting knife simultaneously can improve the effect of dispersion, simultaneously with mutually perpendicular's barb type cutting knife on the knife rest, the result that makes the dispersion in the short time improves with dispersion paper pulp block that can be better.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (3)

1. Utilize high-efficient papermaking of horizontal radial two-way rotation operation to use dispersion equipment, its structure includes: controller (1), unable adjustment base (2), output tube (3), activity dispersion devices (4), screw thread frame (5), input tube (6), controller (1) be located the preceding terminal surface of unable adjustment base (2) and with unable adjustment base (2) fixed connection, output tube (3) and unable adjustment base (2) mutually perpendicular and link up mutually with unable adjustment base (2), activity dispersion devices (4) are located the left side terminal surface of output tube (3) and link up its characterized in that with output tube (3): the threaded rack (5) is positioned on the upper side end face of the movable dispersing device (4) and is matched and connected with the movable dispersing device (4), and the input pipe (6) is arranged on the left side end face of the movable dispersing device (4) and is communicated with the movable dispersing device (4);

the movable dispersion device (4) is provided with a cleaning iron sucking frame (41), a bearing seat (42) and a matching dispersion frame (43), the cleaning iron sucking frame (41) is positioned on the left end face of the bearing seat (42) and fixedly communicated with the bearing seat (42), and the matching dispersion frame (43) is arranged on the right end face of the bearing seat (42) and fixedly connected with the bearing seat (42);

the cleaning iron sucking frame (41) is provided with a sliding frame (411), a pulling rod (412), an electromagnet (413), an electric wire (414), a special-shaped rod (415), a pressure cylinder (416), a special-shaped pipe (417), a spring (418), a conveying passage (419), a sliding frame (4110) and a protruding block (4111), wherein the protruding block (4111) is positioned inside the conveying passage (419) and is in an integrated structure with the conveying passage (419), the pressure cylinder (416) is positioned on the upper side end face of the conveying passage (419) and is fixedly connected with the conveying passage (419), the special-shaped pipe (417) is arranged inside the pressure cylinder (416) and is in an integrated structure, the special-shaped rod (415) is embedded into the inside of the special-shaped pipe (417) and is in clearance fit, the spring (418) is positioned on the upper end face and the lower end face of the special-shaped rod (415) and is fixedly connected with the upper end face and the lower end face of the special-shaped rod, the electromagnet (413) is located above the conveying channel (419) and movably connected with the electromagnet, the electric wire (414) is located on the left side of the electromagnet (413) and electrically connected with the electromagnet, the sliding frame (411) is perpendicular to the conveying channel (419) and fixedly installed on the upper end face of the right side of the conveying channel (419), and the pulling rod (412) is embedded into the sliding frame (411) and is matched with the sliding frame.

2. The dispersing apparatus for high-efficiency papermaking operating by bidirectional rotation in the transverse radial direction according to claim 1, wherein: the matching and dispersing frame (43) is provided with a sun wheel (431), a shaft rod (432), a central shaft (433), an electric power frame (434), a cutting knife (435), an arc-shaped frame (436), a disc frame (437), a dispersing cabin (438) and a sealing frame (439), the arc-shaped frame (436) is positioned in the dispersing cabin (438) and fixedly connected with the same, the sun wheel (431) is positioned on the inner end face of the dispersing cabin (438) and fixedly connected with the dispersing cabin (438), the sealing frame (439) is fixedly connected with the dispersing cabin (438), the central shaft (433) is positioned in the center of the sun wheel (431) and penetrates through the dispersing cabin (438), the shaft rod (432) is positioned in the arc-shaped frame (436) and fixedly connected with the central shaft (433), the disc frame (437) is movably mounted at the upper end and the lower end of the surface of the shaft rod (432), and the sealing frame (439) is fixedly connected with the disc frame (, the electric power frame (434) is arranged on the right end face of the arc-shaped frame (436), and the electric power frame is fixedly connected with the right end face of the arc-shaped frame, and the cutting knife (435) is embedded into the electric power frame (434) and matched with the electric power frame.

3. The dispersing apparatus for high-efficiency papermaking operating by bidirectional rotation in the transverse and radial directions according to claim 2, wherein: the disc rack (437) is provided with a disc body (4371), a mounting plate (4372), a fixing ring (4373) and a tool rest (4374), wherein the fixing ring (4373) is positioned at the center of the disc body (4371) and movably connected with the disc body (4371), the tool rest (4374) is arranged on the outer side end face of the disc body (4371) in a ring structure and fixedly connected with the outer side end face, and the mounting plate (4374) is positioned on the rear side surface of the disc body (4371) and is integrated with the disc body (4371).

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