JP2021109167A - Medical waste treatment apparatus - Google Patents

Abstract

To provide a medical waste treatment apparatus.SOLUTION: A medical waste treatment apparatus includes a treatment box. A hopper is installed on an upper side wall of the treatment box. A pulverizing space is installed in the treatment box. A power space is installed on a rear side of the pulverizing space. A pulverizing mechanism for pulverizing a waste is installed in the pulverizing space. A waste feed space is installed below the pulverizing space. A waste conveyance mechanism for conveying the pulverized waste is installed in the waste feed device. The medical waste treatment apparatus treats a medical waste using a method of high pressure steam sterilization, is simple in a use procedure, can thoroughly treat bacteria and viruses, makes the generated exhaust gas harmless after treatment, and thereby can be discharged, avoids secondary contamination caused by a method of waste incineration, is reduced in the volume, is simple in operation, and is convenient for use in a small-scale medical institution such as a clinic, compared to a normal treatment apparatus.SELECTED DRAWING: Figure 1

Description

The present invention relates to the medical technology field, and specifically is a medical waste treatment device.

Due to the complexity of the composition of medical waste, incineration is currently the main treatment method to prevent secondary infection of harmful organisms such as bacteria and viruses, but medical waste only contains harmful microorganisms. It may also contain large amounts of harmful elements such as heavy metal elements, and many existing medical waste treatment equipment incinerates medical waste to treat it, and after incineration. Exhaust gas and incineration ash cause secondary pollution to the environment, and it is difficult to treat the exhaust gas and incineration ash after incineration, and if there is too much exhaust gas and incineration ash, a large amount of treatment facility is required. Not suitable for use in small medical institutions.

Chinese Patent Application Publication No. 106545861

An object of the present invention is to provide a medical waste treatment apparatus and to eliminate the above-mentioned drawbacks in the existing technology.

The medical waste treatment apparatus according to the present invention includes a treatment box, a hopper is installed on the upper side wall of the treatment box, a crushing space is installed in the treatment box, and a crushing space is provided on the rear side of the crushing space. A power space is installed, a crushing mechanism for crushing waste is installed in the crushing space, a waste feeding space is installed below the crushing space, and the waste feeding space is filled with. Is equipped with a waste transportation mechanism for transporting crushed waste, a treatment space is installed on the right side of the waste feed space, and a stirring shaft extending up and down can rotate on the upper side wall of the treatment space. The upper end of the stirring shaft extends upward to the outside of the processing space, and the first umbrella gear is fixedly connected to the upper end of the stirring shaft, and the first umbrella is contained in the power space. A power mechanism for driving the rotation of the gear is installed, the lower end of the stirring shaft extends into the processing space, and a stirring blade fixedly connected to the stirring shaft is installed in the processing space. An exhaust gas pipe is fixedly connected to the upper side wall of the treatment space, an exhaust gas valve is attached to the exhaust gas pipe, and the right end of the exhaust gas pipe is for treating the exhaust gas produced after the treatment. An exhaust gas treatment mechanism is connected, a waste feed hole is installed on the left wall of the treatment space, a first hydraulic cylinder is installed on the upper end surface of the treatment space, and a first hydraulic cylinder is installed at the lower end of the first hydraulic cylinder. Is connected to a left sealing plate extending downward, the lower end of the left sealing plate extends to the waste feeding hole, a steam pipe is fixedly installed on the left wall of the treatment space, and the left end of the steam pipe is fixedly installed. A high-pressure steam generation mechanism for generating high-pressure steam is connected, and the lower end of the treatment space and the waste delivery box installed in the treatment box communicate with each other, and waste is on the right side of the waste delivery box. A delivery hole is installed, a second hydraulic cylinder is fixedly installed on the upper end surface of the waste delivery box, a lower sealing plate is connected to the left end of the second hydraulic cylinder, and the lower sealing plate is connected. The processing space can be sealed.

The crushing mechanism includes a first shaft, and the first shaft is rotatably connected to the rear side wall of the crushing space and is installed so as to extend in the front-rear direction. A left crushing wheel fixedly connected to the outer surface is installed, a second shaft extending back and forth is rotatably connected to the rear side wall of the crushing space, and the second shaft extends to the outer surface of the second shaft in the crushing space. A fixedly connected right crushing shaft is installed.

The waste transport mechanism includes a waste feed shaft rotatably connected to the left wall of the waste feed space, and a punch hole is fixedly installed on the outer surface of the waste feed shaft to feed the waste. A second bevel gear is fixedly installed on the outer surface of the shaft, a third shaft extending back and forth is rotatably connected to the rear side wall of the waste feed space, and a third shaft is rotatably connected to the rear end of the third shaft. The bevel gears are fixedly connected, and the third bead gear and the second bead gear mesh with each other.

The power mechanism includes a motor fixedly installed on the rear side wall of the power space, a power shaft is connected to the front end of the motor, and a first gear is fixedly connected to the outer surface of the power shaft. The first gear and the second gear fixedly installed on the outer surface of the second shaft mesh with each other, and the third gear is fixedly installed at the rear end of the second shaft, and the third gear and the said The fourth gear fixedly installed at the rear end of the first shaft meshes with the fourth gear, and the fifth gear is fixedly installed on the outer surface of the first shaft, and the fifth gear is the outer surface of the third shaft. A first electromagnetic component fixedly connected to the outer surface of the third shaft is installed on the front side of the spline gear so as to be able to mesh with the spline gear slidably connected to the spline gear. A first spring is attached between the electromagnetic parts.

A fourth umbrella gear is fixedly installed on the outer surface of the power shaft, a support block is fixedly installed on the rear side wall of the power space, and a fourth shaft extending to the left and right can be rotated on the support block. The fifth umbrella gear is slidably connected to the left end of the fourth shaft, and a second electromagnetic component fixedly connected to the outer surface of the fourth shaft is installed on the right side of the fifth umbrella gear. A second spring is attached between the second electromagnetic component and the fifth umbrella gear, and the fifth umbrella gear can mesh with the fourth umbrella gear at the right end of the fourth shaft. The sixth umbrella gear is fixedly connected, the fifth shaft extending forward is rotatably connected to the rear side wall of the power space, and the seventh umbrella gear is fixedly installed on the outer surface of the fifth shaft. , The 7th umbrella gear and the 6th umbrella gear mesh with each other, and the 8th umbrella gear is fixedly installed at the front end of the 5th shaft, and the 8th umbrella gear and the 1st umbrella gear mesh with each other.

The exhaust gas treatment mechanism includes an exhaust gas treatment space, a liquid exchange pipe is installed on the lower side wall of the exhaust gas treatment space, a liquid exchange valve is installed on the liquid exchange pipe, and the exhaust gas treatment space is above the exhaust gas treatment space. A piston is installed on the side wall.

The high-pressure steam generation mechanism includes a heating box, a heating space is installed in the heating box, a heating plate is fixedly installed on the lower side wall of the heating box, and the steam pipe is above the heating space. The steam pipe is fixedly connected to the side wall and communicates with the heating space, a pressure pump is fixedly installed in the steam pipe, and a drain pipe is fixedly connected to the left wall of the heating space. A control valve is attached to the drain pipe, a water tank is connected to the left end of the drain pipe, a water supply pipe is fixedly installed on the left wall of the water tank, and a water supply valve is attached to the water supply pipe. Has been done.

The present invention treats medical waste using a method with high-pressure steam sterilization, the procedure for use is simple, bacteria and viruses can be thoroughly treated, and the generated exhaust gas is detoxified after treatment. Therefore, it can be discharged, and secondary contamination caused by methods such as incineration can be avoided. Compared to ordinary treatment equipment, the present invention has a smaller volume, is easier to operate, and is smaller in private clinics. Convenient for use in large-scale medical institutions.

In order to explain the present invention in detail with reference to FIGS. 1 to 3 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The direction is the direction when the present invention is viewed in the same direction as in FIG.

FIG. 1 is a schematic diagram of the overall configuration of the present invention. FIG. 2 is a schematic configuration diagram of parts AA in FIG. FIG. 3 is a schematic configuration diagram of part B in FIG.

The medical waste treatment apparatus according to the present invention with reference to FIGS. 1 to 3 includes a treatment box 10, a hopper 40 is installed on the upper side wall of the treatment box 10, and the treatment box 10 is crushed. A space 13 is installed, a power space 75 is installed behind the crushing space 13, a crushing mechanism 101 for crushing waste is installed in the crushing space 13, and a crushing mechanism 101 is installed below the crushing space 13. A waste feeding space 44 is installed in the waste feeding space 44, a waste transportation mechanism 102 for transporting crushed waste is installed in the waste feeding space 44, and a waste feeding space 44 is installed on the right side of the waste feeding space 44. A processing space 28 is installed, and a stirring shaft 29 extending vertically is rotatably connected to the upper side wall of the processing space 28, the upper end of the stirring shaft 29 extends upward to the outside of the processing space 28, and the stirring is performed. The first umbrella gear 38 is fixedly connected to the upper end of the shaft 29, and a power mechanism 103 for driving the rotation of the first umbrella gear 38 is installed in the power space 75, and the stirring shaft 29 A stirring blade 49 fixedly connected to the stirring shaft 29 is installed in the processing space 28, and an exhaust gas pipe 33 is provided on the upper side wall of the processing space 28. It is fixedly connected, an exhaust gas valve 35 is attached to the exhaust gas pipe 33, and an exhaust gas treatment mechanism 104 for treating the exhaust gas produced after the treatment is connected to the right end of the exhaust gas pipe 33. A waste feeding hole 76 is installed on the left side wall of the treatment space 28, a first hydraulic cylinder 42 is installed on the upper end surface of the treatment space 28, and a lower portion is below the lower end of the first hydraulic cylinder 42. The left sealing plate 48 extending to the left sealing plate 48 is connected, the lower end of the left sealing plate 48 extends to the waste feeding hole 76, and a steam pipe 47 is fixedly installed on the left wall of the processing space 28, and the steam pipe 47 is installed. A high-pressure steam generation mechanism 105 for generating high-pressure steam is connected to the left end of the space 28, and the lower end of the processing space 28 and the waste delivery box 24 installed in the processing box 10 communicate with each other to generate the waste. A waste delivery hole 27 is installed on the right side of the delivery box 24, a second hydraulic cylinder 26 is fixedly installed on the upper end surface of the waste delivery box 24, and a second hydraulic cylinder 26 is fixedly installed on the left end of the second hydraulic cylinder 26. The lower sealing plate 25 is connected to the lower sealing plate 25, and the lower sealing plate 25 can seal the processing space 28.

The crushing mechanism 101 includes a first shaft 12, and the first shaft 12 is rotatably connected to the rear side wall of the crushing space 13 and installed so as to extend in the front-rear direction. A left crushing wheel 11 fixedly connected to the outer surface of the first shaft 12 is installed, and a second shaft 41 extending back and forth is rotatably connected to the rear side wall of the crushing space 13, and the crushing space 13 is connected. A right crushing shaft 39 fixedly connected to the outer surface of the second shaft 41 is installed inside.
When the waste is fed, the left crushing wheel 11 and the right crushing shaft 39 crush the waste, and the crushed waste is temporarily stored in the crushing space 13.

The waste transport mechanism 102 includes a waste feed shaft 43 rotatably connected to the left wall of the waste feed space 44, and a punch hole 90 is fixedly installed on the outer surface of the waste feed shaft 43. A second umbrella gear 15 is fixedly installed on the outer surface of the waste feed shaft 43, and a third shaft 61 extending back and forth is rotatably connected to the rear side wall of the waste feed space 44. A third umbrella gear 45 is fixedly connected to the rear end of the three shafts 61, and the third axle gear 45 and the second umbrella gear 15 mesh with each other, and the third shaft 61 is used to send waste. The third umbrella gear 45 is rotated, the third umbrella gear 45 rotates the second umbrella gear 15, the second umbrella gear 15 rotates the waste feed shaft 43, and the waste feed shaft 43. Rotates the punching hole 90, and the punching hole 90 feeds the crushed waste into the processing space 28.

The power mechanism 103 includes a motor 72 fixedly installed on the rear side wall of the power space 75, a power shaft 67 is connected to the front end of the motor 72, and a first gear 68 is connected to the outer surface of the power shaft 67. The first gear 68 and the second gear 66 fixedly installed on the outer surface of the second shaft 41 mesh with each other, and the third gear 73 is attached to the rear end of the second shaft 41. The third gear 73 fixedly installed and the fourth gear 74 fixedly installed at the rear end of the first shaft 12 mesh with each other, and a fifth gear 65 is further mounted on the outer surface of the first shaft 12. The fifth gear 65 is fixedly installed and can mesh with the spline gear 62 slidably connected to the outer surface of the third shaft 61, and the outer surface of the third shaft 61 is on the front side of the spline gear 62. A first electromagnetic component 64 fixedly connected to the spline gear 62 is installed, and a first spring 63 is attached between the spline gear 62 and the first electromagnetic component 64.
When the motor 72 operates, the power shaft 67 is driven and rotated, the power shaft 67 rotates the first gear 68, the first gear 68 rotates the second gear 66, and the second gear 66 is rotated. The gear 66 rotates the third gear 73, the third gear 73 rotates the fourth gear 74, the fourth gear 74 rotates the first shaft 12, and the first shaft 12 rotates the first shaft 12. The five gears 65 are rotated, and the fifth gear 65 rotates the spline gear 62, thereby providing power to the crushing mechanism 101 and the waste transportation mechanism 102.

A fourth umbrella gear 69 is fixedly installed on the outer surface of the power shaft 67, a support block 56 is fixedly installed on the rear side wall of the power space 75, and a fourth support block 56 extends to the left and right. The shaft 58 is rotatably connected, the fifth umbrella gear 71 is slidably connected to the left end of the fourth shaft 58, and the right side of the fifth umbrella gear 71 is fixed to the outer surface of the fourth shaft 58. A second electromagnetic component 57 is installed, a second spring 59 is attached between the second electromagnetic component 57 and the fifth umbrella gear 71, and the fifth umbrella gear 71 is the fourth umbrella. It can mesh with the gear 69, the sixth umbrella gear 55 is fixedly connected to the right end of the fourth shaft 58, and the fifth shaft 37 extending forward is rotatably connected to the rear side wall of the power space 75. A seventh umbrella gear 54 is fixedly installed on the outer surface of the fifth shaft 37, the seventh umbrella gear 54 and the sixth umbrella gear 55 mesh with each other, and the fifth shaft 37 is at the front end of the fifth shaft 37. The eight umbrella gear 36 is fixedly installed, and the eighth umbrella gear 36 and the first umbrella gear 38 mesh with each other.
When the motor 72 operates, the power shaft 67 is driven and rotated, the power shaft 67 rotates the fourth umbrella gear 69, and the fourth umbrella gear 69 rotates the fifth umbrella gear 71. The fifth umbrella gear 71 rotates the fourth shaft 58, the fourth shaft 58 rotates the sixth umbrella gear 55, and the sixth umbrella gear 55 rotates the seventh umbrella gear 54. The seventh umbrella gear 54 rotates the fifth shaft 37, the fifth shaft 37 rotates the eighth umbrella gear 36, the eighth umbrella gear 36 rotates the first umbrella gear 38, and the fifth The single gear 38 rotates the stirring shaft 29.

The exhaust gas treatment mechanism 104 includes an exhaust gas treatment space 32, a liquid exchange pipe 31 is installed on the lower side wall of the exhaust gas treatment space 32, and a liquid exchange valve 30 is installed in the liquid exchange pipe 31. A piston 34 is installed on the upper side wall of the exhaust gas treatment space 32, and the piston 34 is installed.
There is an exhaust gas treatment agent in the exhaust gas treatment space 32, and the exhaust gas is treated by passing the exhaust gas through the exhaust gas treatment space 32 where the exhaust gas treatment agent is located.

The high-pressure steam generation mechanism 105 includes a heating box 21, a heating space 23 is installed in the heating box 21, a heating plate 22 is fixedly installed on the lower side wall of the heating box 21, and the steam pipe is installed. 47 is fixedly connected to the upper side wall of the heating space 23, the steam pipe 47 communicates with the heating space 23, and a pressurizing pump 46 is fixedly installed in the steam pipe 47. A drain pipe 20 is fixedly connected to the left wall of the 23, a control valve 19 is attached to the drain pipe 20, a water tank 18 is connected to the left end of the drain pipe 20, and the left wall of the water tank 18 is connected. The water supply pipe 16 is fixedly installed, and the water supply valve 17 is attached to the water supply pipe 16.
To generate high-pressure steam, the control valve 19 is opened, water enters the heating space 23 from the water tank 18, is heated by the heating plate 22, and the produced gas is pressurized by the pressurizing pump 46. After that, it enters the processing space 28 via the steam pipe 47.

In the initial state, the first spring 63 and the second spring 59 are in a natural state, and the exhaust gas valve 35, the water supply valve 17, the control valve 19, and the liquid exchange valve 30 are all closed. Yes, the first electromagnetic component 64 and the second electromagnetic component 57 are in a state of power failure.

In order to send the waste, the left crushing wheel 11 and the right crushing shaft 39 are rotated by the operation of the motor 72 to crush the waste, and after the crushed waste reaches a certain amount, the waste is sent. When the first electromagnetic component 64 is energized, the spline gear 62 and the fifth gear 65 mesh with each other, and when the waste feed shaft 43 rotates, the punch hole 90 rotates, and the waste after crushing is further rotated. Is sent to the processing space 28.

To treat the waste, the high-pressure steam enters the processing space 28 through the steam pipe 47, energizes the second electromagnetic component 57, the motor 72 rotates the stirring shaft 29, and the stirring shaft 29 drives the stirring blade 49 to perform stirring, the exhaust gas valve 35 is opened, the exhaust gas generated during the treatment enters the exhaust gas treatment space 32, and after the treatment is completed, the second hydraulic pressure When the cylinder 26 operates, the lower sealing plate 25 moves to the left, and the treated residue enters the waste delivery box 24 and is discharged through the waste delivery hole 27.

The above is merely a preferred embodiment of the invention, the scope of protection of the invention is not limited to this, and any changes or replacements that can be conceived without creative labor are within the scope of protection of the invention of the present application. Included in. Therefore, the scope of protection of the invention should be based on the scope of protection limited to the claims.

Claims (7)

A hopper is installed on the upper side wall of the processing box including the processing box, a crushing space is installed in the processing box, a power space is installed on the rear side of the crushing space, and the inside of the crushing space is installed. A crushing mechanism for crushing waste is installed in the space, a waste feeding space is installed below the crushing space, and waste for transporting crushed waste is installed in the waste feeding space. A material transportation mechanism is installed, a processing space is installed on the right side of the waste feeding space, a stirring shaft extending vertically is rotatably connected to the upper side wall of the processing space, and the upper end of the stirring shaft moves upward. A first umbrella gear is fixedly connected to the upper end of the stirring shaft and extends to the outside of the processing space, and a power mechanism for driving the rotation of the first umbrella gear is installed in the power space. The lower end of the stirring shaft extends into the processing space, a stirring blade fixedly connected to the stirring shaft is installed in the processing space, and an exhaust gas pipe is fixed to the upper side wall of the processing space. An exhaust gas valve is attached to the exhaust gas pipe, and an exhaust gas treatment mechanism for treating the exhaust gas produced after the treatment is connected to the right end of the exhaust gas pipe. A waste feeding hole is installed on the left side wall, a first hydraulic cylinder is installed on the upper end surface of the processing space, and a left sealing plate extending downward is connected to the lower end of the first hydraulic cylinder. The lower end of the left sealing plate extends to the waste feeding hole, a steam pipe is fixedly installed on the left wall of the treatment space, and a high pressure steam generation mechanism for generating high pressure steam is provided at the left end of the steam pipe. The lower end of the treatment space is connected to the waste delivery box installed in the treatment box, and a waste delivery hole is provided on the right side of the waste delivery box to form the waste delivery box. A second hydraulic cylinder is fixedly installed on the upper end surface, a lower sealing plate is connected to the left end of the second hydraulic cylinder, and the lower sealing plate can seal the processing space for medical disposal. Material processing equipment. The crushing mechanism includes a first shaft, and the first shaft is rotatably connected to the rear side wall of the crushing space and is installed so as to extend in the front-rear direction. A left crushing wheel fixedly connected to the outer surface is installed, a second shaft extending back and forth is rotatably connected to the rear side wall of the crushing space, and the second shaft extends to the outer surface of the second shaft in the crushing space. The medical waste treatment apparatus according to claim 1, wherein a fixedly connected right crushing shaft is installed. The waste transport mechanism includes a waste feed shaft rotatably connected to the left wall of the waste feed space, and a punch hole is fixedly installed on the outer surface of the waste feed shaft to feed the waste. A second umbrella gear is fixedly installed on the outer surface of the shaft, a third shaft extending back and forth is rotatably connected to the rear side wall of the waste feed space, and a third shaft is rotatably connected to the rear end of the third shaft. The medical waste treatment apparatus according to claim 1, wherein the bevel gears are fixedly connected and the third bead gear and the second bead gear are engaged with each other. The power mechanism includes a motor fixedly installed on the rear side wall of the power space, a power shaft is connected to the front end of the motor, and a first gear is fixedly connected to the outer surface of the power shaft. The first gear and the second gear fixedly installed on the outer surface of the second shaft mesh with each other, and the third gear is fixedly installed at the rear end of the second shaft, and the third gear and the said The fourth gear fixedly installed at the rear end of the first shaft meshes with the fourth gear, and the fifth gear is fixedly installed on the outer surface of the first shaft, and the fifth gear is the outer surface of the third shaft. A first electromagnetic component fixedly connected to the outer surface of the third shaft is installed on the front side of the spline gear so as to be able to mesh with the spline gear slidably connected to the spline gear. The medical waste treatment apparatus according to claim 1, wherein a first spring is attached between the electromagnetic component and the electromagnetic component. A fourth umbrella gear is fixedly installed on the outer surface of the power shaft, a support block is fixedly installed on the rear side wall of the power space, and a fourth shaft extending to the left and right can be rotated on the support block. The fifth umbrella gear is slidably connected to the left end of the fourth shaft, and a second electromagnetic component fixedly connected to the outer surface of the fourth shaft is installed on the right side of the fifth umbrella gear. A second spring is attached between the second electromagnetic component and the fifth umbrella gear, and the fifth umbrella gear can mesh with the fourth umbrella gear at the right end of the fourth shaft. The sixth umbrella gear is fixedly connected, the fifth shaft extending forward is rotatably connected to the rear side wall of the power space, and the seventh umbrella gear is fixedly installed on the outer surface of the fifth shaft. , The 7th umbrella gear and the 6th umbrella gear mesh with each other, the 8th umbrella gear is fixedly installed at the front end of the 5th shaft, and the 8th umbrella gear and the 1st umbrella gear mesh with each other. The medical waste treatment apparatus according to claim 1. The exhaust gas treatment mechanism includes an exhaust gas treatment space, a liquid exchange pipe is installed on the lower side wall of the exhaust gas treatment space, a liquid exchange valve is installed on the liquid exchange pipe, and the exhaust gas treatment space is above the exhaust gas treatment space. The medical waste treatment apparatus according to claim 1, wherein a piston is installed on the side wall. The high-pressure steam generation mechanism includes a heating box, a heating space is installed in the heating box, a heating plate is fixedly installed on the lower side wall of the heating box, and the steam pipe is above the heating space. The steam pipe is fixedly connected to the side wall and communicates with the heating space, a pressure pump is fixedly installed in the steam pipe, and a drain pipe is fixedly connected to the left wall of the heating space. A control valve is attached to the drain pipe, a water tank is connected to the left end of the drain pipe, a water supply pipe is fixedly installed on the left wall of the water tank, and a water supply valve is attached to the water supply pipe. The medical waste treatment apparatus according to claim 1, wherein the medical waste treatment apparatus is provided.

Images