CN112869930B

CN112869930B - Dustless treatment facility of orthopedics treatment gypsum

Info

Publication number: CN112869930B
Application number: CN202110052275.XA
Authority: CN
Inventors: 王书德
Original assignee: Shenzhen Chengcheng High Tech Co ltd
Current assignee: Shenzhen Chengcheng High Tech Co ltd
Priority date: 2021-01-15
Filing date: 2021-01-15
Publication date: 2022-08-02
Anticipated expiration: 2041-01-15
Also published as: CN112869930A

Abstract

The invention relates to gypsum treatment equipment, in particular to orthopedic treatment gypsum dust-free treatment equipment which comprises a tearing hopper mechanism, a water soaking mechanism and a water treatment mechanism, wherein the equipment can cut a bag dustless and complete feeding, can rotatably heat gypsum, can separate the gypsum from water, can filter wastewater and can assist in dehydration, the tearing hopper mechanism is connected with the water soaking mechanism, and the water soaking mechanism is connected with the water treatment mechanism.

Description

Dustless treatment facility of orthopedics treatment gypsum

Technical Field

The invention relates to gypsum treatment equipment, in particular to orthopedic treatment gypsum dust-free treatment equipment.

Background

In the orthopedic treatment process, plaster is often required to be applied, and the plaster is easy to cause dust in the use process and harm to respiratory tract, so the orthopedic treatment plaster dust-free treatment equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the dust-free treatment equipment for the orthopedic treatment gypsum, the equipment can cut off a bag and complete feeding in a dust-free manner, the equipment can rotate and heat the gypsum, the equipment can separate the gypsum from water, the equipment can filter wastewater, and the equipment can assist in dehydration.

In order to solve the technical problem, the invention relates to gypsum treatment equipment, in particular to orthopedic treatment gypsum dust-free treatment equipment which comprises a tearing hopper mechanism, a water soaking mechanism and a water treatment mechanism, wherein the equipment can cut off a bag dustlessly and complete feeding, can carry out rotary heating on gypsum, can separate the gypsum from water, can filter waste water and can assist in dehydration.

The tearing hopper mechanism is connected with the water soaking mechanism, and the water soaking mechanism is connected with the water treatment mechanism.

As a further optimization of the technical scheme, the tearing bucket mechanism of the orthopedic treatment gypsum dust-free treatment equipment comprises a connecting seat, a connecting plate, a sliding column, a spring, a sliding seat, a connecting platform, a sliding bucket, a placing bucket, a bearing seat, a motor, a coupling, a belt pulley, a belt, a motor belt pulley, a motor I, a threaded rod, a threaded cover with a handle, a friction disc with a shaft, a hydraulic cylinder, a hydraulic rod, a disc with a protrusion column, a friction disc I, a hollow shaft with a disc with a circular hole, a discharge hole, a cutting knife, a unthreaded hole, a limiting rod, a return spring, a cross slot, a rotating disc, a hinged arm, a sliding hinged seat, a connecting shaft with internal threads, a stepped rod, a stepped hole, an impeller and a gear with a shaft, wherein the connecting seat is connected with the connecting platform, the connecting platform is connected with the sliding column, the sliding column is connected with the connecting plate, the spring is sleeved on the sliding column, and the connecting plate is connected with the sliding column, the sliding seat is connected with the placing bucket, the connecting platform is connected with the sliding bucket, the sliding bucket is connected with the placing bucket, the placing bucket is connected with the bearing seat, the bearing seat is connected with the motor, the motor is connected with the shaft friction disk through the coupler, the shaft friction disk is rotationally connected with the bearing seat, the belt pulley is frictionally connected with the belt, the belt is frictionally connected with the motor belt pulley, the motor belt pulley is connected with the motor I, the motor I is connected with the placing bucket, the threaded rod is in threaded connection with the bearing seat, the threaded rod is connected with the friction disk I, the threaded cover with the handle is in threaded connection with the placing bucket, the shaft friction disk is connected with the hydraulic cylinder, the hydraulic cylinder is connected with the hydraulic rod, the hydraulic rod is connected with the column disk with the protrusion, the column disk with the protrusion is slidably connected with the hollow shaft of the shaft disk, the shaft disk with the shaft friction disk is slidably connected with the shaft friction disk, the discharge port is arranged on the sliding bucket, the cutting knife is provided with a unthreaded hole, the unthreaded hole is in sliding connection with the limiting rod, the limiting rod is connected with the rotating disc, the reset spring is sleeved on the limiting rod, two ends of the reset spring are respectively connected onto the cutting knife and the rotating disc, the cross groove is arranged on the rotating disc, the cutting knife is in sliding connection with the cross groove, the cutting knife is hinged with the hinged arm, the hinged arm is hinged with the sliding hinged seat, the internal thread connecting shaft is in threaded connection with the friction disc with the shaft, the stepped rod is in sliding connection with the stepped hole, the stepped hole is arranged on the internal thread connecting shaft, the impeller is connected with the internal thread connecting shaft, the shaft gear is in rotating connection with the placing bucket, the shaft gear is connected with the belt pulley, and the shaft gear is meshed with the hollow shaft of the circular hole disc.

As a further optimization of the technical scheme, the water soaking mechanism of the orthopedic treatment gypsum dust-free treatment equipment comprises a base, a discharge hopper, a water soaking machine body, a water outlet pipe, an auxiliary support, a water hopper, a transmission belt, a water pumping motor belt pulley, a water pumping motor, a first chute, a feeding chute, a connecting shaft, a cam, a coupling I, a driving motor, a heating wheel, a screw shaft, a scraping wheel, a water permeable hole, a negative pressure water cavity, a hollow pipe, an outer sleeve belt pulley, a water adsorption wheel and a partition plate with holes, wherein the base is connected with the water soaking machine body, the discharge hopper is arranged on the water soaking machine body, the water outlet pipe is connected and communicated with the water hopper, the water hopper is connected with the auxiliary support, the auxiliary support is connected with the water soaking machine body, the transmission belt is in friction connection with the water pumping motor belt pulley, the water pumping motor is connected with the water pumping motor, the water pumping motor is connected with the water soaking machine body, the first chute is arranged on the water soaking machine body, the first sliding groove is connected with the sliding seat in a sliding mode, the feeding sliding groove is arranged on the water soaking machine body, the connecting shaft is connected with the water soaking machine body in a rotating mode, the connecting shaft is connected with the cam, the cam is in contact with the connecting seat, the connecting shaft is connected with the driving motor through a coupling I, the driving motor is connected with the water soaking machine body, the heating wheel is connected with the connecting shaft, the heating wheel is connected with the screw shaft, the screw shaft is connected with the scraping wheel, the scraping wheel is in contact with the porous partition plate, the porous partition plate is connected with the water soaking machine body, the scraping wheel is provided with a water permeable hole and a negative pressure water cavity, the hollow pipe is connected with the scraping wheel in a rotating mode, the hollow pipe is connected with the outer sleeve belt wheel, the outer sleeve belt wheel is in friction connection with the driving belt, the hollow pipe is connected with the water adsorption wheel, the water adsorption wheel is connected with the water bucket in a rotating mode, and the screw shaft is connected with the porous partition plate in a rotating mode.

As a further optimization of the technical scheme, the water treatment mechanism of the dust-free treatment equipment for the orthopedic treatment gypsum comprises a base, a drying motor, an auxiliary support I, a coupling II, a vertical bearing seat, a hinged disk with a shaft, a hinged arm I, an airing box, a water collecting box, an access hole, a water tank inlet, a connecting disk, a motor with a handle, a sliding chute II, a shaft with a bulge, a limiting disk, a shaft with a groove, a bearing seat A, a filter cartridge and a drainage channel, wherein the base is connected with the auxiliary support I, the auxiliary support I is connected with the drying motor, the drying motor is connected with the hinged disk with the shaft through the coupling II, the base is connected with the vertical bearing seat, the vertical bearing seat is rotatably connected with the hinged disk with the shaft, the hinged disk with the hinged arm I with the airing box, the airing box is hinged with the base, the base is connected with the water collecting box, the water collecting box is provided with the access hole and a water tank inlet, the connection pad links to each other with taking the handle motor, take handle motor sliding connection in spout two, spout two sets up on water collecting box, the connection pad links to each other with taking the bellying, take the bellying to link to each other with spacing dish, spacing dish supports on taking the grooved roll, the grooved roll rotates with bearing frame A to be connected, bearing frame A links to each other with water collecting box, take bellying and grooved roll sliding connection, take the bellying to link to each other with the cartridge filter, cartridge filter and drainage channel sliding connection, drainage channel sets up on water collecting box, the base links to each other with the base.

As a further optimization of the technical scheme, the discharge hopper of the orthopedic treatment gypsum dust-free treatment equipment is provided with a gate.

The dustless treatment equipment for the orthopedic treatment gypsum has the beneficial effects that:

according to the equipment for dustless treatment of the orthopedic treatment gypsum, the bag can be dustless cut and feeding is completed, the gypsum can be rotatably heated by the equipment, the gypsum and water can be separated by the equipment, the waste water can be filtered by the equipment, and the equipment can assist in dehydration.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural view of a dust-free treatment device for orthopedic treatment gypsum according to the present invention.

FIG. 2 is a schematic structural view II of a dust-free treatment device for orthopedic treatment gypsum according to the present invention.

FIG. 3 is a third schematic structural view of a dust-free treatment apparatus for orthopedic treatment gypsum according to the present invention.

Fig. 4 is a first structural schematic diagram of a tearing hopper mechanism 1 of the orthopedic treatment gypsum dust-free processing equipment.

Fig. 5 is a schematic structural diagram of a tearing hopper mechanism 1 of the orthopedic treatment gypsum dust-free processing equipment.

Fig. 6 is a third structural schematic diagram of the tearing hopper mechanism 1 of the dust-free treatment equipment for the orthopedic treatment gypsum.

Fig. 7 is a first structural schematic diagram of a water soaking mechanism 2 of the orthopedic treatment gypsum dust-free treatment equipment.

Fig. 8 is a structural schematic diagram II of the water soaking mechanism 2 of the orthopedic treatment gypsum dust-free treatment equipment.

Fig. 9 is a schematic structural diagram III of the water soaking mechanism 2 of the orthopedic treatment gypsum dust-free treatment equipment.

Fig. 10 is a fourth structural schematic diagram of the water soaking mechanism 2 of the orthopedic treatment gypsum dust-free treatment equipment.

Fig. 11 is a first structural schematic diagram of a water treatment mechanism 3 of the dust-free treatment equipment for the orthopedic treatment gypsum.

Fig. 12 is a schematic structural diagram II of a water treatment mechanism 3 of the dust-free treatment equipment for the orthopedic treatment gypsum.

In the figure: a tearing hopper mechanism 1; a connecting seat 1-1; a connecting plate 1-2; 1-3 of a sliding column; 1-4 of a spring; 1-5 of a sliding seat; connecting platforms 1-6; 1-7 of a sliding hopper; 1-8 of a placing bucket; 1-9 of a bearing seat; 1-10 of a motor; 1-11 of a coupler; 1-12 of belt pulleys; 1-13 of a belt; 1-14 motor belt pulleys; motor I1-15; 1-16 parts of threaded rod; 1-17 of a threaded cover with a handle; friction discs with shafts 1 to 18; hydraulic cylinders 1-19; 1-20 parts of a hydraulic rod; 1-21 of a column disc with bulges; friction discs I1-22; hollow shafts 1-23 with circular hole discs; 1-24 parts of a discharge port; 1-25 parts of a cutter; a light hole 1-26; 1-27 of a limiting rod; return springs 1-28; 1-29 parts of a cross groove; 1-30 of a rotating disc; articulated arms 1-31; sliding hinge seats 1-32; connecting shafts 1-33 with internal threads; step bars 1-34; 1-35 of a stepped hole; impellers 1-36; gears with shafts 1-37; a water soaking mechanism 2; a base 2-1; a discharge hopper 2-2; 2-3 of a water soaking machine body; 2-4 of a water outlet pipe; 2-5 of auxiliary support; 2-6 of a water bucket; 2-7 parts of a transmission belt; 2-8 belt pulleys of a water pumping motor; 2-9 parts of a water pumping motor; 2-10 of a first sliding chute; a feed chute 2-11; connecting shafts 2-12; 2-13 of a cam; a coupler I2-14; 2-15 of a driving motor; 2-16 parts of a heating wheel; 2-17 parts of a spiral shaft; 2-18 parts of a scraping wheel; 2-19 of water permeable holes; 2-20 parts of a negative pressure water cavity; hollow tubes 2-21; 2-22 parts of an outer sleeve belt pulley; 2-23 parts of water adsorption wheel; 2-24 parts of a clapboard with holes; a water treatment mechanism 3; 3-1 of a base; 3-2 of a drying motor; auxiliary support I3-3; a coupler II 3-4; 3-5 of a vertical bearing seat; hinged disks 3-6 with shafts; articulated arm I3-7; 3-8 parts of drying box; 3-9 parts of a water collecting box; 3-10 parts of an access hole; 3-11 parts of a water tank inlet; 3-12 of a connecting disc; 3-13 of a motor with a handle; 3-14 of a second chute; 3-15 parts of a shaft with a bulge; 3-16 parts of a limiting disc; grooved shafts 3-17; bearing seat A3-18; a filter cartridge 3-19; and 3-20 parts of a drainage channel.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, the invention relates to a gypsum treatment device, more specifically to a dust-free treatment device for orthopedic treatment gypsum, which comprises a tearing hopper mechanism 1, a water soaking mechanism 2, and a water treatment mechanism 3, the device can cut off a bag and complete feeding without dust, the device can perform rotary heating on the gypsum, the device can separate the gypsum from water, the device can filter wastewater, and the device can assist in dewatering.

The tearing hopper mechanism 1 is connected with the water soaking mechanism 2, and the water soaking mechanism 2 is connected with the water treatment mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and the embodiment further describes the first embodiment, where the tearing bucket mechanism 1 includes a connection seat 1-1, a connection plate 1-2, a sliding column 1-3, a spring 1-4, a sliding seat 1-5, a connection platform 1-6, a sliding bucket 1-7, a placing bucket 1-8, a bearing seat 1-9, a motor 1-10, a coupling 1-11, a belt pulley 1-12, a belt pulley 1-13, a motor pulley 1-14, a motor I1-15, a threaded rod 1-16, a threaded cover with a handle 1-17, a friction disk with a shaft 1-18, a hydraulic cylinder 1-19, a hydraulic rod 1-20, a belt pulley 1-13, a motor pulley 1-14, a motor I1-15, a threaded rod 1-16, a threaded cover with a handle, a friction disk with a shaft 1-17, a hydraulic cylinder 1-18, a hydraulic rod 1-19, a hydraulic rod 1-20, 1-21 parts of a plate with a raised column, 1-22 parts of a friction disk I1, 1-23 parts of a hollow shaft with a circular hole plate, 1-24 parts of a discharge port, 1-25 parts of a cutting knife, 1-26 parts of a unthreaded hole, 1-27 parts of a limiting rod, 1-28 parts of a return spring, 1-29 parts of a cross slot, 1-30 parts of a rotating plate, 1-31 parts of an articulated arm, 1-32 parts of a sliding hinge seat, 1-33 parts of a connecting shaft with internal threads, 1-34 parts of a stepped rod, 1-35 parts of a stepped hole, 1-36 parts of an impeller and 1-37 parts of a gear with a shaft, wherein the connecting seat 1-1 part is connected with a connecting platform 1-6, the connecting platform 1-6 is connected with a sliding column 1-3, the sliding column 1-3 is connected with a connecting plate 1-2, the spring 1-4 is sleeved on the sliding column 1-3, the connecting plate 1-2 is connected with the sliding column 1-3, the sliding seat 1-5 is connected with the placing bucket 1-8, the connecting platform 1-6 is connected with the sliding bucket 1-7, the sliding bucket 1-7 is connected with the placing bucket 1-8, the placing bucket 1-8 is connected with the bearing seat 1-9, the bearing seat 1-9 is connected with the motor 1-10, the motor 1-10 is connected with the shaft friction disc 1-18 through the shaft coupling 1-11, the shaft friction disc 1-18 is rotationally connected with the bearing seat 1-9, the belt pulley 1-12 is frictionally connected with the belt 1-13, the belt 1-13 is frictionally connected with the motor belt pulley 1-14, the motor belt pulley 1-14 is connected with the motor I1-15, the motor I1-15 is connected with the placing bucket 1-8, the threaded rod 1-16 is in threaded connection with the bearing seat 1-9, the threaded rod 1-16 is connected with the friction disk I1-22, the threaded cover with a handle 1-17 is connected with the placing bucket 1-8 by screw thread, the friction disk with a shaft 1-18 is connected with the hydraulic cylinder 1-19, the hydraulic cylinder 1-19 is connected with the hydraulic rod 1-20, the hydraulic rod 1-20 is connected with the column disk with a protrusion 1-21, the column disk with a protrusion 1-21 is connected with the hollow shaft 1-23 with the circular hole disk in a sliding way, the column disk with a protrusion 1-21 is connected with the friction disk with a shaft 1-18 in a sliding way, the hollow shaft 1-23 with the circular hole disk is connected with the friction disk with a shaft 1-18 in a rotating way, the discharge port 1-24 is arranged on the sliding bucket 1-7, the cutter 1-25 is provided with the unthreaded hole 1-26, the unthreaded hole 1-26 is connected with the limiting rod 1-27 in a sliding way, the limiting rod 1-27 is connected with the rotating disk 1-30, the reset springs 1-28 are sleeved on the limit rods 1-27, two ends of the reset springs 1-28 are respectively connected on the cutting knives 1-25 and the rotating discs 1-30, the cross grooves 1-29 are arranged on the rotating discs 1-30, the cutting knives 1-25 are connected with the cross grooves 1-29 in a sliding way, the cutting knives 1-25 are hinged with the hinged arms 1-31, the hinged arms 1-31 are hinged with the sliding hinged bases 1-32, the internal thread connecting shafts 1-33 are connected with the shaft friction discs 1-18 in a threaded way, the stepped rods 1-34 are connected with the stepped holes 1-35 in a sliding way, the stepped holes 1-35 are arranged on the connecting shafts 1-33 with internal threads, the impellers 1-36 are connected with the internal thread connecting shafts 1-33, and the shaft gears 1-37 are connected with the placing buckets 1-8 in a rotating way, the shaft-carrying gear 1-37 is connected with the belt pulley 1-12, the shaft-carrying gear 1-37 is meshed with the hollow shaft 1-23 with the circular hole disc, the screw cap 1-17 with the handle is unscrewed, then the bag filled with gypsum is pushed towards the cutting knife 1-25 until the bag is hung on the cutting knife 1-25, then hot water is added into the placing bucket 1-8, the hot water flows downwards along the sliding bucket 1-7 directly, the gate of the discharging bucket 2-2 is closed, the water cannot flow outwards, then the screw cap 1-17 with the handle is screwed, the threaded rod 1-16 is screwed to ensure that the friction disc I1-22 is pressed on the shaft-carrying friction disc 1-18, the shaft-carrying friction disc 1-18 is fixed, the hydraulic cylinder 1-19 pulls the shaft disc 1-21 with the protrusion through the hydraulic rod 1-20 to ensure that the shaft disc 1-21 with the protrusion is separated from the hollow shaft disc 1-23 with the circular hole disc, then, the motor I1-15 is operated to drive the motor belt pulley 1-14 to rotate, the motor belt pulley 1-14 drives the belt pulley 1-12 to rotate through the belt 1-13, the belt pulley 1-12 drives the belt shaft gear 1-37 to rotate, the belt shaft gear 1-37 drives the hollow shaft 1-23 with the circular hole disc to rotate, the hollow shaft 1-23 with the circular hole disc drives the step rod 1-34 to rotate, the step rod 1-34 drives the internal thread connecting shaft 1-33 to rotate, when the internal thread connecting shaft 1-33 rotates, the internal thread connecting shaft 1-33 drives the sliding hinge seat 1-32 through the thread connecting belt of the self and the belt shaft friction disc 1-18 to push the sliding hinge seat 1-32, the sliding hinge seat 1-32 pushes the cutting knife 1-25 through the hinge arm 1-31, the two cutters 1-25 can be far away from each other, so that the bag is cut, the gypsum can move downwards, the bag can still be sleeved on the two cutters 1-25 and can be conveniently taken down, then the threaded rods 1-16 are rotated reversely, the hydraulic cylinders 1-19 drive the hydraulic rods 1-20, the hydraulic rods 1-20 drive the column discs with the protrusions 1-21 to reset, the motors 1-10 rotate to drive the couplers 1-11 to rotate, the couplers 1-11 drive the friction discs 1-18 with the shafts to rotate, the friction discs 1-18 with the shafts drive the connecting shafts 1-33 with the internal threads to rotate, the connecting shafts 1-33 with the internal threads drive the impellers 1-36 to rotate to form wind power to blow towards the cutters 1-25, and then the gypsum is promoted to move downwards.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, and the embodiment further describes the embodiment, where the water soaking mechanism 2 includes a base 2-1, a discharge hopper 2-2, a water soaking machine body 2-3, a water outlet pipe 2-4, an auxiliary support 2-5, a water hopper 2-6, a drive belt 2-7, a water pumping motor pulley 2-8, a water pumping motor 2-9, a chute one 2-10, a feed chute 2-11, a connecting shaft 2-12, a cam 2-13, a coupling I2-14, a drive motor 2-15, a heating wheel 2-16, a spiral shaft 2-17, a scraping wheel 2-18, a water permeable hole 2-19, a negative pressure water cavity 2-20, a water cavity 2-13, a water inlet 2-15, a water outlet 2-6, a water outlet 2-7, a water outlet 2-4, a water outlet 2-8, a water outlet 2, 2-4, a water outlet 2-9, 2 auxiliary support, 2, and 14 are included in the water inlet of the water outlet of the water inlet of the water outlet of the water inlet of the water outlet of the water inlet of the water inlet water outlet water inlet water outlet water inlet water outlet water inlet water, A hollow pipe 2-21, an outer sleeve belt pulley 2-22, a water adsorption wheel 2-23 and a clapboard with holes 2-24, wherein a base 2-1 is connected with a water soaking machine body 2-3, the water soaking machine body 2-3 is provided with a discharge hopper 2-2, a discharge pipe 2-4 is connected and communicated with a water hopper 2-6, the water hopper 2-6 is connected with an auxiliary support 2-5, the auxiliary support 2-5 is connected with the water soaking machine body 2-3, a transmission belt 2-7 is connected with a water pumping motor belt pulley 2-8 in a friction way, the water pumping motor belt pulley 2-8 is connected with a water pumping motor 2-9, the water pumping motor 2-9 is connected with the water soaking machine body 2-3, a chute I2-10 is arranged on the water soaking machine body 2-3, the chute I2-10 is connected with a sliding seat 1-5 in a sliding way, the feeding chute 2-11 is arranged on the water soaking machine body 2-3, the connecting shaft 2-12 is rotationally connected with the water soaking machine body 2-3, the connecting shaft 2-12 is connected with the cam 2-13, the cam 2-13 is contacted with the connecting seat 1-1, the connecting shaft 2-12 is connected with the driving motor 2-15 through the coupling I2-14, the driving motor 2-15 is connected with the water soaking machine body 2-3, the heating wheel 2-16 is connected with the connecting shaft 2-12, the heating wheel 2-16 is connected with the screw shaft 2-17, the screw shaft 2-17 is connected with the scraping wheel 2-18, the scraping wheel 2-18 is contacted with the partition plate with holes 2-24, the partition plate with holes 2-24 is connected with the water soaking machine body 2-3, the scraping wheel 2-18 is provided with water permeable holes 2-19 and a negative pressure water cavity 2-20, the hollow pipe 2-21 is rotationally connected with the scraping wheel 2-18, the hollow pipe 2-21 is connected with the outer sleeve belt pulley 2-22, the outer sleeve belt pulley 2-22 is connected with the transmission belt 2-7 in a friction way, the hollow pipe 2-21 is connected with the water absorption wheel 2-23, the water absorption wheel 2-23 is rotationally connected with the water bucket 2-6, the screw shaft 2-17 is rotationally connected with the clapboard with holes 2-24, the motor 2-9 operates to drive the water pumping motor belt pulley 2-8 to rotate, the water pumping motor belt pulley 2-8 drives the outer sleeve belt pulley 2-22 to rotate through the transmission belt 2-7, the outer sleeve belt pulley 2-22 rotates to drive the hollow pipe 2-21 to rotate, the hollow pipe 2-21 drives the water absorption wheel 2-23 to rotate to form an absorption force, water and gypsum flow to the coupling I2-14, the spiral shaft 2-17 which is matched with the rotation can form driving force to the gypsum to help the gypsum and the water to be extruded to the clapboard 2-24 with holes, so that the water and the gypsum are transited to the side of the scraping wheel 2-18, the scraping wheel 2-18 can rotate along with the spiral shaft 2-17, the gypsum and the water are separated on the scraping wheel 2-18, the water and the water are sucked into the negative pressure water cavity 2-20 along the water permeable hole 2-19 and then are drained to the water outlet pipe 2-4 for discharging, the gypsum can flow into the discharging hopper 2-2, the gate of the discharging hopper 2-2 is opened, and the gypsum can be collected into the airing box 3-8.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present embodiment further describes the present embodiment, where the water treatment mechanism 3 includes a base 3-1, a drying motor 3-2, an auxiliary support I3-3, a coupling II3-4, a vertical bearing seat 3-5, a hinged disk with a shaft 3-6, a hinged arm I3-7, an airing box 3-8, a water collection box 3-9, an access port 3-10, a water box inlet 3-11, a connecting disk 3-12, a motor with a handle 3-13, a sliding slot two 3-14, a shaft with a protrusion 3-15, a limiting disk 3-16, a shaft with a slot 3-17, a bearing seat A3-18, and a filter cartridge 3-19, 3-20 parts of a drainage channel, 3-1 parts of a base seat is connected with an auxiliary support I3-3, 3-3 parts of an auxiliary support I3-3 is connected with a drying motor 3-2, 3-2 parts of the drying motor are connected with a belt shaft hinged disk 3-6 through a coupler II3-4, 3-1 parts of the base seat are connected with 3-5 parts of a vertical shaft bearing seat, 3-5 parts of the vertical shaft bearing seat are rotatably connected with 3-6 parts of the belt shaft hinged disk, 3-6 parts of the belt shaft hinged disk are hinged with an articulated arm I3-7, I3-7 parts of the articulated arm are hinged with 3-8 parts of an airing box, 3-8 parts of the airing box are hinged with 3-1 parts of the base seat, 3-1 parts of the base seat are connected with 3-9 parts of a water collecting box, 3-9 parts of the water collecting box are provided with an overhaul port 3-10 and a water tank inlet 3-11, and 3-12 parts of a connecting disk is connected with a motor with 3-13 part of a handle, the motor 3-13 with the handle is connected in the sliding chute 3-14 in a sliding way, the sliding chute 3-14 is arranged on the water collecting box 3-9, the connecting disc 3-12 is connected with the shaft 3-15 with the projection, the shaft 3-15 with the projection is connected with the limiting disc 3-16, the limiting disc 3-16 is pressed on the shaft 3-17 with the groove, the shaft 3-17 with the groove is rotatably connected with the bearing seat A3-18, the bearing seat A3-18 is connected with the water collecting box 3-9, the shaft 3-15 with the projection is connected with the shaft 3-17 with the groove in a sliding way, the shaft 3-15 with the projection is connected with the filter cylinder 3-19, the filter cylinder 3-19 is connected with the drainage channel 3-20 in a sliding way, the drainage channel 3-20 is arranged on the water collecting box 3-9, the base 2-1 is connected with the base 3-1, the drying motor 3-2 is operated to drive the coupler II3-4 to rotate, the coupler II3-4 is operated to drive the hinged disc with the shaft 3-6 to rotate, and the hinged disc with the shaft 3-6 is operated to drive the drying box 3-8 to swing in a small range through the hinged arm I3-7, so that water and gypsum can be conveniently separated continuously.

The fifth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the first embodiment will be further described with reference to the present embodiment, in which the discharge hopper 2-2 is provided with a gate.

The working principle of the device is as follows: the equipment can cut off a bag dustless and complete feeding, a threaded cover 1-17 with a handle is unscrewed, then the bag filled with gypsum is pushed to a cutting knife 1-25 until the bag is hung on the cutting knife 1-25, then hot water is added into a placing bucket 1-8, the hot water can directly flow downwards along a sliding bucket 1-7, a gate of a discharging bucket 2-2 is closed, the water can not flow outwards, then the threaded cover 1-17 with the handle is screwed, a threaded rod 1-16 is screwed to press a friction disc I1-22 on a friction disc 1-18 with a shaft, at the moment, the friction disc 1-18 with the shaft is fixed, a hydraulic cylinder 1-19 pulls a column disc 1-21 with a protrusion through a hydraulic rod 1-20 to separate the column disc 1-21 with the protrusion from a disc 1-23 with a circular hole, then a hollow shaft I1-15 is operated to drive a motor belt pulley 1-14 to rotate, the motor belt pulley 1-14 will drive the belt pulley 1-12 to rotate through the belt 1-13, the belt pulley 1-12 will drive the belt shaft gear 1-37 to rotate, the belt shaft gear 1-37 will drive the hollow shaft 1-23 with the circular hole disc to rotate, the hollow shaft 1-23 with the circular hole disc will drive the ladder bar 1-34 to rotate, the ladder bar 1-34 will drive the internal screw thread connecting shaft 1-33 to rotate, the Huhu will drive the internal screw thread connecting shaft 1-33 itself to push the sliding hinge seat 1-32 through the self screw thread connecting with the belt shaft friction disc 1-18 when the internal screw thread connecting shaft 1-33 rotates, the sliding hinge seat 1-32 will push the cutting knife 1-25 through the hinge arm 1-31, thus will make the two cutting knives 1-25 away from each other, the bag is cut, so that gypsum moves downwards, the bag is still sleeved on the two cutters 1-25 and is convenient to take down, then the threaded rods 1-16 are rotated reversely, the hydraulic cylinders 1-19 drive the hydraulic rods 1-20, the hydraulic rods 1-20 drive the column discs 1-21 with the protrusions to reset, the motors 1-10 are operated to drive the couplers 1-11 to rotate, the couplers 1-11 drive the friction discs 1-18 with the shafts to rotate, the friction discs 1-18 with the shafts drive the connecting shafts 1-33 with the internal threads to rotate, the connecting shafts 1-33 with the internal threads drive the impellers 1-36 to rotate to form wind power to blow towards the cutters 1-25, and then the gypsum is promoted to move downwards; the device can rotationally heat gypsum, the driving motor 2-15 runs to drive the coupler I2-14 to rotate, the coupler I2-14 can drive the connecting shaft 2-12 to rotate, the cam 2-13 of the connecting shaft 2-12 can rotate, the cam 2-13 can drive the sliding bucket 1-7 to reciprocate up and down through the cooperation with the spring 1-4, so that the gypsum moves downwards more smoothly and enters water, the connecting shaft 2-12 rotates to drive the heating wheel 2-16 to rotate, the heating wheel 2-16 rotates and heats, and the water and the gypsum can be rapidly mixed through the cooperation of the added warm water; the device can separate gypsum and water, a water pumping motor 2-9 operates to drive a water pumping motor belt pulley 2-8 to rotate, the water pumping motor belt pulley 2-8 can drive an outer sleeve belt pulley 2-22 to rotate through a transmission belt 2-7, the outer sleeve belt pulley 2-22 can rotate to drive a hollow pipe 2-21 to rotate, the hollow pipe 2-21 can drive a water adsorption wheel 2-23 to rotate to form adsorption force, the water and the gypsum flow to a coupler I2-14, the water and the gypsum form driving force by matching with a rotating spiral shaft 2-17 to help the gypsum and the water to extrude towards a partition plate with holes 2-24, so that the water and the gypsum are transited to the side of a scraping wheel 2-18, the gypsum and the water are separated on the scraping wheel 2-18 when the scraping wheel 2-18 rotates along with the spiral shaft 2-17, and the water and water permeable holes 2-19 are sucked into a negative pressure water cavity 2-20 and then are drained to a water outlet pipe 2-18 Discharging at the position of-4, wherein the gypsum flows into the discharging hopper 2-2, the gate of the discharging hopper 2-2 is opened, and the gypsum is collected into the drying box 3-8; the device can filter wastewater, the discharged wastewater can enter an inlet 3-11 of the water tank and is filtered by a filter cylinder 3-19 and then is discharged from a drainage channel 3-20, when the filter cylinder 3-19 is blocked, a motor 3-13 with a handle can be operated to drive a connecting disc 3-12 to rotate, the connecting disc 3-12 can drive a shaft 3-15 with a bulge to rotate, the shaft 3-15 with the bulge can drive the filter cylinder 3-19 to rotate to throw out the blockage, and the motor 3-13 with the handle can also be lifted upwards, so that the filter cylinder 3-19 is pulled to the height of an inspection hole 3-10 and then is cleaned; the equipment can assist in dehydration, the shaft coupling II3-4 can be driven to rotate through the operation of the drying motor 3-2, the shaft coupling II3-4 can drive the shaft-provided hinged disc 3-6 to rotate, and the shaft-provided hinged disc 3-6 can drive the drying box 3-8 to swing in a small range through the hinged arm I3-7, so that the water and the gypsum can be conveniently separated continuously.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a dustless treatment facility of orthopedics treatment gypsum, includes tears fill mechanism (1), bubble water mechanism (2), water treatment mechanism (3), its characterized in that: the tearing hopper mechanism (1) is connected with the water soaking mechanism (2), and the water soaking mechanism (2) is connected with the water treatment mechanism (3);

the tearing bucket mechanism (1) comprises a connecting seat (1-1), a connecting plate (1-2), a sliding column (1-3), a spring (1-4), a sliding seat (1-5), a connecting platform (1-6), a sliding bucket (1-7), a placing bucket (1-8), a bearing seat (1-9), a motor (1-10), a coupler (1-11), a belt pulley (1-12), a belt (1-13), a motor belt pulley (1-14), a motor I (1-15), a threaded rod (1-16), a threaded cover with a handle (1-17), a friction disc with a shaft (1-18), a hydraulic cylinder (1-19), a hydraulic rod (1-20), a column disc with a protrusion (1-21), a friction disc I (1-22), Hollow shafts (1-23) with circular hole discs, discharge holes (1-24), cutters (1-25), unthreaded holes (1-26), limiting rods (1-27), reset springs (1-28), cross slots (1-29), rotating discs (1-30), articulated arms (1-31), sliding hinge seats (1-32), connecting shafts (1-33) with internal threads, stepped rods (1-34), stepped holes (1-35), impellers (1-36) and gears (1-37) with shafts, a connecting seat (1-1) is connected with a connecting platform (1-6), the connecting platform (1-6) is connected with sliding columns (1-3), the sliding columns (1-3) are connected with connecting plates (1-2), springs (1-4) are sleeved on the sliding columns (1-3), the connecting plate (1-2) is connected with a sliding column (1-3), a sliding seat (1-5) is connected with a placing hopper (1-8), a connecting platform (1-6) is connected with the sliding hopper (1-7), the sliding hopper (1-7) is connected with the placing hopper (1-8), the placing hopper (1-8) is connected with a bearing seat (1-9), the bearing seat (1-9) is connected with a motor (1-10), the motor (1-10) is connected with a shaft friction disc (1-18) through a coupler (1-11), the shaft friction disc (1-18) is rotationally connected with the bearing seat (1-9), a belt pulley (1-12) is frictionally connected with a belt (1-13), and the belt (1-13) is frictionally connected with a motor belt pulley (1-14), the motor belt pulleys (1-14) are connected with the motors I (1-15), the motors I (1-15) are connected with the placing buckets (1-8), the threaded rods (1-16) are in threaded connection with the bearing blocks (1-9), the threaded rods (1-16) are connected with the friction disks I (1-22), the threaded covers (1-17) with handles are in threaded connection with the placing buckets (1-8), the friction disks (1-18) with shafts are connected with the hydraulic cylinders (1-19), the hydraulic cylinders (1-19) are connected with the hydraulic rods (1-20), the hydraulic rods (1-20) are connected with the column disks (1-21) with protrusions, the column disks (1-21) with protrusions are in sliding connection with the hollow shafts (1-23) with the circular hole disks, the column disks (1-21) with protrusions are in sliding connection with the friction disks (1-18) with shafts, a hollow shaft (1-23) with a circular hole disc is rotatably connected with a friction disc (1-18) with a shaft, a discharge port (1-24) is arranged on a sliding bucket (1-7), a cutting knife (1-25) is provided with a unthreaded hole (1-26), the unthreaded hole (1-26) is slidably connected with a limiting rod (1-27), the limiting rod (1-27) is connected with a rotating disc (1-30), a reset spring (1-28) is sleeved on the limiting rod (1-27), two ends of the reset spring (1-28) are respectively connected with the cutting knife (1-25) and the rotating disc (1-30), a cross groove (1-29) is arranged on the rotating disc (1-30), the cutting knife (1-25) is slidably connected with the cross groove (1-29), the cutting knife (1-25) is hinged with a hinged arm (1-31), the articulated arm (1-31) is articulated with a sliding articulated seat (1-32), an internal thread connecting shaft (1-33) is in threaded connection with a shaft friction disc (1-18), a step rod (1-34) is in sliding connection with a step hole (1-35), the step hole (1-35) is arranged on the internal thread connecting shaft (1-33), an impeller (1-36) is connected with the internal thread connecting shaft (1-33), a shaft gear (1-37) is in rotating connection with a placing bucket (1-8), the shaft gear (1-37) is connected with a belt pulley (1-12), and the shaft gear (1-37) is meshed with a hollow shaft (1-23) with a circular hole disc;

the water soaking mechanism (2) comprises a base (2-1), a discharge hopper (2-2), a water soaking machine body (2-3), a water outlet pipe (2-4), an auxiliary support (2-5), a water hopper (2-6), a transmission belt (2-7), a water pumping motor belt pulley (2-8), a water pumping motor (2-9), a first chute (2-10), a feeding chute (2-11), a connecting shaft (2-12), a cam (2-13), a coupling I (2-14), a driving motor (2-15), a heating wheel (2-16), a screw shaft (2-17), a scraping wheel (2-18), a water permeable hole (2-19), a negative pressure water cavity (2-20), a hollow pipe (2-21), an outer sleeve belt pulley (2-22), Water adsorption wheels (2-23) and a clapboard (2-24) with holes, a base (2-1) is connected with a water soaking machine body (2-3), a discharge hopper (2-2) is arranged on the water soaking machine body (2-3), a discharge pipe (2-4) is connected and communicated with a water hopper (2-6), the water hopper (2-6) is connected with an auxiliary support (2-5), the auxiliary support (2-5) is connected with the water soaking machine body (2-3), a transmission belt (2-7) is in friction connection with a water pumping motor belt pulley (2-8), the water pumping motor belt pulley (2-8) is connected with a water pumping motor (2-9), the water pumping motor (2-9) is connected with the water soaking machine body (2-3), a chute I (2-10) is arranged on the water soaking machine body (2-3), the first chute (2-10) is connected with the sliding seat (1-5) in a sliding way, the feeding chute (2-11) is arranged on the water soaking machine body (2-3), the connecting shaft (2-12) is rotationally connected with the water soaking machine body (2-3), the connecting shaft (2-12) is connected with the cam (2-13), the cam (2-13) is contacted with the connecting seat (1-1), the connecting shaft (2-12) is connected with the driving motor (2-15) through the coupling I (2-14), the driving motor (2-15) is connected with the water soaking machine body (2-3), the heating wheel (2-16) is connected with the connecting shaft (2-12), the heating wheel (2-16) is connected with the spiral shaft (2-17), the spiral shaft (2-17) is connected with the scraping wheel (2-18), the scraping wheel (2-18) is in contact with the perforated partition board (2-24), the perforated partition board (2-24) is connected with the water soaking machine body (2-3), the scraping wheel (2-18) is provided with water permeable holes (2-19) and a negative pressure water cavity (2-20), the hollow pipe (2-21) is rotationally connected with the scraping wheel (2-18), the hollow pipe (2-21) is connected with the outer sleeve belt pulley (2-22), the outer sleeve belt pulley (2-22) is in friction connection with the transmission belt (2-7), the hollow pipe (2-21) is connected with the water adsorption wheel (2-23), the water adsorption wheel (2-23) is rotationally connected with the water bucket (2-6), and the screw shaft (2-17) is rotationally connected with the perforated partition board (2-24);

the water treatment mechanism (3) comprises a base (3-1), a drying motor (3-2), an auxiliary support I (3-3), a coupler II (3-4), a vertical bearing seat (3-5), a hinged disc with a shaft (3-6), a hinged arm I (3-7), an airing box (3-8), a water collecting box (3-9), an inspection hole (3-10), a water tank inlet (3-11), a connecting disc (3-12), a motor with a handle (3-13), a sliding groove II (3-14), a shaft with a bulge (3-15), a limiting disc (3-16), a grooved shaft (3-17), a bearing seat A (3-18), a filter cartridge (3-19) and a drainage channel (3-20), wherein the base (3-1) is connected with the auxiliary support I (3-3), the auxiliary support I (3-3) is connected with the drying motor (3-2), the drying motor (3-2) is connected with a hinged disk (3-6) with a shaft through a coupler II (3-4), the base (3-1) is connected with a vertical bearing seat (3-5), the vertical bearing seat (3-5) is rotatably connected with the hinged disk (3-6) with the shaft, the hinged disk (3-6) with the shaft is hinged with a hinged arm I (3-7), the hinged arm I (3-7) is hinged with a drying box (3-8), the drying box (3-8) is hinged with the base (3-1), the base (3-1) is connected with a water collecting box (3-9), the water collecting box (3-9) is provided with an access hole (3-10) and a water tank inlet (3-11), the connecting disc (3-12) is connected with the motor (3-13) with the handle, the motor (3-13) with the handle is connected in the second sliding chute (3-14) in a sliding way, the second sliding chute (3-14) is arranged on the water collecting box (3-9), the connecting disc (3-12) is connected with the shaft (3-15) with the boss, the shaft (3-15) with the boss is connected with the limiting disc (3-16), the limiting disc (3-16) is pressed against the shaft (3-17) with the groove, the shaft (3-17) with the groove is rotationally connected with the bearing seat A (3-18), the bearing seat A (3-18) is connected with the water collecting box (3-9), the shaft (3-15) with the groove is connected with the shaft (3-17) in a sliding way, the shaft (3-15) with the boss is connected with the filter cartridge (3-19), the filter cartridge (3-19) is connected with the drainage channel (3-20) in a sliding way, the drainage channel (3-20) is arranged on the water collecting box (3-9), and the base (2-1) is connected with the base (3-1).

2. The orthopedic treatment gypsum dust-free treatment equipment according to claim 1, wherein: and a gate is arranged on the discharge hopper (2-2).