阅读说明：本技术 一种骨科用石膏处理设备 (Gypsum treatment facility for orthopedics ) 是由 李红芹 于 2021-09-23 设计创作，主要内容包括：本发明涉及一种石膏处理设备,更具体的说是一种骨科用石膏处理设备,包括压力支撑机构、浮动加入斗机构、浸润箱机构,设备能够割开原料包,设备能够加入原料,设备能够将纱布放入并浸泡,所述的压力支撑机构与浮动加入斗机构相连,浮动加入斗机构与浸润箱机构相连,压力支撑机构与浸润箱机构相连。(The invention relates to gypsum treatment equipment, in particular to gypsum treatment equipment for orthopedics department, which comprises a pressure support mechanism, a floating adding hopper mechanism and an infiltration box mechanism, wherein the equipment can cut raw material bags, can add raw materials, can put gauze in and soak the gauze, is connected with the floating adding hopper mechanism, the floating adding hopper mechanism is connected with the infiltration box mechanism, and the pressure support mechanism is connected with the infiltration box mechanism.)

1. The utility model provides a gypsum treatment facility for orthopedics, includes pressure supporting mechanism (1), float and add fill mechanism (2), soaks case mechanism (3), its characterized in that: the pressure support mechanism (1) is connected with the floating feeding hopper mechanism (2), the floating feeding hopper mechanism (2) is connected with the infiltration box mechanism (3), and the pressure support mechanism (1) is connected with the infiltration box mechanism (3);

the pressure support mechanism (1) comprises a pressure support body (1-1), a cam motor (1-2), a cam with a shaft (1-3), a box body (1-4), a bent pipe (1-5), an air inlet pipe (1-6), an air inlet check valve (1-7), a weight reduction groove (1-8), a step sliding cavity (1-9) and an air outlet check valve (1-10), wherein the pressure support body (1-1) is connected with the cam motor (1-2), the rotating end of the cam motor (1-2) is connected with the cam with the shaft (1-3), the cam with the shaft (1-3) is rotatably connected with the pressure support body (1-1), the box body (1-4) is symmetrically connected on the pressure support body (1-1), the bent pipe (1-5) and the air inlet pipe (1-6) are symmetrically arranged on two sides of the box body (1-4), an air inlet check valve (1-7) is arranged in the air inlet pipe (1-6), a weight reduction groove (1-8) is arranged on the pressure support body (1-1), a stepped sliding cavity (1-9) is arranged in the box body (1-4), and an air outlet check valve (1-10) is arranged in the bent pipe (1-5).

2. The apparatus for treating gypsum for orthopedics of claim 1, wherein: the floating hopper adding mechanism (2) comprises a floating hopper adding body (2-1), a step slide rod (2-2), a spring (2-3), an inlet hopper (2-4), a pulley (2-5), a belt pulley (2-6), a belt (2-7), a servo motor (2-8), a chute (2-9), a sliding door (2-10), a bidirectional screw rod (2-11) and a ripping knife (2-12), wherein the floating hopper adding body (2-1) is connected with the step slide rod (2-2), the step slide rod (2-2) is sleeved with the spring (2-3), the step slide rod (2-2) is connected with the step slide cavity (1-9) in a sliding manner, and the spring (2-3) is arranged in the step slide cavity (1-9), the floating feeding hopper body (2-1) is connected with the entering hopper (2-4), the pulleys (2-5) are rotationally connected to the floating feeding hopper body (2-1), the two belt pulleys (2-6) are connected through the belts (2-7), the two-way screw rods (2-11) are connected with the belt pulleys (2-6), the rotating end of the servo motor (2-8) is connected to one of the two-way screw rods (2-11), the servo motor (2-8) is connected with the floating feeding hopper body (2-1), the sliding chutes (2-9) are arranged on the lower end face of the floating feeding hopper body (2-1), the sliding doors (2-10) are symmetrically and slidably connected in the sliding chutes (2-9), and the sliding doors (2-10) are in threaded connection with the two-way screw rods (2-11), the bidirectional screw rod (2-11) is rotationally connected to the floating feeding hopper body (2-1), the cutting knife (2-12) is connected with the sliding door (2-10), and the cam (1-3) with the shaft is in contact with the pulley (2-5).

3. The apparatus for treating gypsum for orthopedics of claim 1, wherein: the infiltration tank mechanism (3) comprises an infiltration tank body (3-1), a water filling port (3-2), a hose (3-3), a pressure inlet (3-4), a release port (3-5), a sliding hopper (3-6), a slide rail (3-7), a water outlet (3-8), a threaded plug (3-9), a placing cavity (3-10), an opening (3-11), a piston (3-12) with an inclined surface and a support bracket (3-13), the infiltration tank body (3-1) is provided with the water filling port (3-2), the upper end of the infiltration tank body (3-1) is connected with the hose (3-3), the hose (3-3) is connected with the floating addition hopper body (2-1), the pressure inlet (3-4) is arranged on the infiltration tank body (3-1), the pressure inlet (3-4) is communicated with the elbow (1-5), the release port (3-5) is arranged on the floating adding hopper body (2-1), the sliding hopper (3-6) is connected with the sliding rail (3-7) in a sliding manner, the sliding rail (3-7) is arranged on the soaking tank body (3-1), the water outlet (3-8) is connected with the threaded plug (3-9) in a rotating manner, the sliding hopper (3-6) is provided with the placing cavity (3-10) and the opening (3-11), the piston (3-12) with the inclined surface is connected in the soaking tank body (3-1) in a sliding manner, the piston (3-12) with the inclined surface is abutted to the support (3-13), and the support (3-13) is arranged on the inner wall of the soaking tank body (3-1).

4. The apparatus for treating gypsum for orthopedics of claim 2, wherein: the material of the cutting knife (2-12) is stainless steel.

5. An orthopedic gypsum processing apparatus according to claim 3, wherein: the height of the release port (3-5) is the same as that of the piston (3-12) with the inclined surface.

Technical Field

The invention relates to gypsum treatment equipment, in particular to gypsum treatment equipment for orthopedics.

Background

In the process of diagnosis and treatment of orthopedic medical treatment, plaster is required to be applied to the wounded part of a patient in some cases, and the traditional treatment mode is that a doctor carries out treatment in a manual mode, so that certain damage is caused to the hand, and the orthopedic plaster treatment equipment is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the equipment for treating the gypsum for the orthopedics department, the equipment can cut the raw material bag, the equipment can add the raw material, and the equipment can put and soak the gauze.

In order to solve the technical problem, the invention relates to gypsum treatment equipment, in particular to gypsum treatment equipment for orthopedics department, which comprises a pressure supporting mechanism, a floating adding hopper mechanism and an infiltration box mechanism, wherein the equipment can cut raw material bags, can add raw materials, and can put gauze into the gauze and soak the gauze.

The pressure support mechanism is connected with the floating feeding hopper mechanism, the floating feeding hopper mechanism is connected with the infiltration box mechanism, and the pressure support mechanism is connected with the infiltration box mechanism;

pressure supporting mechanism include the pressure support body, the cam motor, the tape spool cam, the box, the return bend, the intake pipe, the check valve admits air, subtract heavy groove, the ladder slides the chamber, the check valve of giving vent to anger, the pressure support body links to each other with the cam motor, the rotation end of cam motor links to each other with the tape spool cam, the tape spool cam rotates with the pressure support body to be connected, box symmetric connection is on the pressure support body, box bilateral symmetry is equipped with return bend and intake pipe, be equipped with the check valve that admits air in the intake pipe, subtract heavy groove setting on the pressure support body, the ladder slides the chamber and sets up in the box, the check valve of giving vent to anger sets up in the return bend.

As a further optimization of the technical scheme, the floating feeding hopper mechanism of the gypsum treatment equipment for the orthopedics department comprises a floating feeding hopper body, a step slide rod, a spring, a feeding hopper, pulleys, belt pulleys, belts, a servo motor, a chute, a sliding door, a bidirectional screw rod and a cutting knife, wherein the floating feeding hopper body is connected with the step slide rod, the step slide rod is sleeved with the spring, the step slide rod is connected with a step slide cavity in a sliding way, the spring is arranged in the step slide cavity, the floating feeding hopper body is connected with the feeding hopper, the pulleys are rotationally connected on the floating feeding hopper body, the two belt pulleys are connected through the belts, the bidirectional screw rod is connected with the belt pulleys, the rotating end of the servo motor is connected with one bidirectional screw rod, the servo motor is connected with the floating feeding hopper body, the chute is arranged on the lower end face of the floating feeding hopper body, the sliding door is symmetrically connected in the chute in a sliding way, the sliding door is in threaded connection with the bidirectional screw rod, the bidirectional screw rod is rotatably connected to the floating hopper body, the dividing knife is connected with the sliding door, and the cam with the shaft is in contact with the pulley.

As a further optimization of the technical scheme, the infiltration tank mechanism of the orthopedic gypsum treatment equipment comprises an infiltration tank body, a water feeding port, a hose, a pressure inlet, a release port, a sliding hopper, a slide rail, a water outlet, a threaded plug, a placing cavity, an opening, a piston with an inclined surface and a support bracket, wherein the infiltration tank body is provided with the water feeding port, the upper end of the infiltration tank body is connected with the hose, the hose is connected with the floating addition hopper body, the pressure inlet is arranged on the infiltration tank body, the pressure inlet is communicated with the bent pipe, the release port is arranged on the floating addition hopper body, the sliding hopper is in sliding connection with the slide rail, the slide rail is arranged on the infiltration tank body, the water outlet is arranged on the infiltration tank body, the threaded plug is rotatably connected with the water outlet, the placing cavity and the opening are arranged on the sliding hopper, the piston with the inclined surface is in the infiltration tank body in a sliding manner, the piston with the inclined surface is abutted to the support bracket, the supporting bracket is arranged on the inner wall of the infiltration box body.

As a further optimization of the technical scheme, the material of the scribing knife of the gypsum processing equipment for orthopedics is stainless steel.

As a further optimization of the technical proposal, the height of the release port of the plaster processing device for orthopedics department is the same as that of the piston with the inclined surface.

The gypsum treatment equipment for the orthopedics department has the beneficial effects that:

according to the gypsum treatment equipment for orthopedics, the raw material bag can be cut, raw materials can be added into the equipment, and gauze can be placed and soaked by the equipment.

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 an apparatus for treating gypsum for orthopedics according to the present invention.

FIG. 2 is a schematic structural view of a second orthopedic gypsum treatment apparatus according to the present invention.

Fig. 3 is a schematic structural view three of the gypsum treatment equipment for orthopedics of the invention.

Fig. 4 is a fourth schematic structural view of the orthopedic gypsum treatment apparatus of the present invention.

Fig. 5 is a first structural schematic diagram of the pressure support mechanism 1 of the gypsum treatment apparatus for orthopedics of the present invention.

Fig. 6 is a second structural schematic view of the pressure support mechanism 1 of the gypsum processing apparatus for orthopedics of the present invention.

Fig. 7 is a third schematic structural view of the pressure support mechanism 1 of the gypsum treatment apparatus for orthopedics of the present invention.

Fig. 8 is a first schematic structural view of a floating hopper mechanism 2 of the gypsum processing apparatus for orthopedics of the present invention.

FIG. 9 is a second schematic structural view of a floating hopper mechanism 2 of the apparatus for treating gypsum for orthopedic use according to the present invention.

Fig. 10 is a third schematic structural view of a floating hopper mechanism 2 of the gypsum processing apparatus for orthopedics of the present invention.

Fig. 11 is a fourth schematic structural view of a floating hopper mechanism 2 of the gypsum processing apparatus for orthopedics of the present invention.

Fig. 12 is a first structural schematic diagram of an infiltration tank mechanism 3 of the orthopedic gypsum treatment device of the invention.

Fig. 13 is a second structural schematic diagram of an infiltration tank mechanism 3 of the orthopedic gypsum treatment device of the invention.

Fig. 14 is a third schematic structural view of an infiltration tank mechanism 3 of the gypsum treatment equipment for orthopedics of the invention.

Fig. 15 is a fourth schematic structural view of an infiltration tank mechanism 3 of the gypsum treatment equipment for orthopedics of the invention.

In the figure: a pressure support mechanism 1; a pressure support body 1-1; a cam motor 1-2; 1-3 of cam with shaft; 1-4 of a box body; 1-5 of a bent pipe; 1-6 parts of an air inlet pipe; 1-7 of an air inlet check valve; weight reduction grooves 1-8; 1-9 of a stepped sliding cavity; 1-10 parts of an air outlet one-way valve; a floating hopper adding mechanism 2; 2-1 of a floating adding hopper body; 2-2 of a stepped slide bar; 2-3 of a spring; entering a hopper 2-4; 2-5 of a pulley; 2-6 of belt pulleys; 2-7 of a belt; 2-8 of a servo motor; 2-9 of a chute; 2-10 of a sliding door; 2-11 parts of a bidirectional screw; 2-12 parts of a scribing knife; a soaking box mechanism 3; 3-1 parts of a soaking box body; 3-2 of a water filling port; 3-3 of a hose; 3-4 of a pressure inlet; 3-5 of a release port; 3-6 of a sliding hopper; 3-7 of a slide rail; 3-8 parts of a water outlet; 3-9 parts of a threaded plug; putting into a cavity 3-10; opening 3-11; 3-12 parts of pistons with inclined surfaces; and 3-13 of a support bracket.

Detailed Description

The first embodiment is as follows:

referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, the embodiment is described, a gypsum raw material bag is put into an inlet hopper 2-4 and then pressed downwards, so that a dividing knife 2-12 is inserted into the lower part of the bag, a servo motor 2-8 is operated to drive a bidirectional screw 2-11 connected with the servo motor to rotate, the bidirectional screw 2-11 drives a bidirectional screw 2-11 on the other side to synchronously rotate through the transmission of a belt pulley 2-6 and a belt 2-7, so that sliding doors 2-10 on the two sides are far away from each other, the dividing knife 2-12 is moved to divide the bottom of the bag, a cam motor 1-2 is operated to drive a cam 1-3 with a shaft to rotate, the cam 1-3 with the shaft is driven by the cooperation with the spring 2-3 to enter the hopper 2-4 to do up-and-down reciprocating motion, the raw material is enabled to fall onto the piston 3-12 with the inclined surface by shaking when the cam enters the hopper 2-4 to do up-and-down reciprocating motion, then water is added from the water filling port 3-2, so that the water and the gypsum raw material are mixed, meanwhile, the step slide rod 2-2 does up-and-down reciprocating motion in the step slide cavity 1-9 to cause the pressure difference change in the step slide cavity 1-9, so that the outside air is sucked into the step slide cavity 1-9 from the air inlet one-way valve 1-7 and then is pressurized and ejected from the air outlet one-way valve 1-10, the ejected air enters the infiltration box body 3-1 from the pressure inlet 3-4 along the elbow pipe 1-5 and then jacks up the piston 3-12 with the inclined surface, when the piston 3-12 with the inclined surface moves upwards to exceed the height of the release port 3-5, gas can be released from the release port 3-5, so that the piston 3-12 with the inclined surface resets downwards, and gypsum raw materials and water are fully mixed in the fluctuation process of the piston 3-12 with the inclined surface.

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, fig. 13, fig. 14, and fig. 15. the embodiment further describes the embodiment by pulling out the sliding bucket 3-6, placing the stacked gauze into the placing cavity 3-10, then inserting the sliding bucket 3-6 into the sliding rail 3-7, and completely inserting the sliding bucket so that the fluctuated liquid level enters the placing cavity 3-10 through the opening 3-11 to moisten the gauze, and pulling out the sliding bucket 3-6 after the moistening is finished to take out the gauze.

The third 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, 12, 13, 14, and 15, and the first embodiment will be further described with reference to the embodiment in which the material of the slitting knives 2 to 12 is stainless steel.

The fourth 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, 12, 13, 14 and 15, and the present embodiment further describes the present embodiment in which the height of the release port 3-5 is the same as that of the piston 3-12 with a slope.

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.