JP2021030213A - Herb medicine processing device - Google Patents

Abstract

To provide a herb medicine processing device.SOLUTION: This herb medicine processing device includes a processing box, a crushing space is provided in the processing box, a crushing mechanism is installed in the crushing space, a water ejection mechanism is installed inside a left wall of the crushing space, a filtration mechanism is fixedly installed at a lower end of the crushing mechanism, a heating space is provided at a lower end of the filtration mechanism, a main line is installed at a left end of the heating space so as to communicate with the heating space, a valve is connected to a left end of the main line, and a control space is provided inside a right wall of the processing box. The present invention has simple configuration and is easy to maintain and use. The present invention automatically crushes and polishes a crude drug, and so makes the drug as to dissolve in water more efficiently.SELECTED DRAWING: Figure 1

Description

The present invention deals with the field of crude drug processing and processing, and particularly relates to a Chinese herbal medicine processing and processing apparatus.

Chinese medicine is a type of medicine that is widely used, especially in Chinese medicine. Plant roots, stems, leaves, fruits, etc. are used as raw materials for Chinese medicine, and these raw materials are also a sign that Chinese medicine is different from other medicines. However, as a method of taking Chinese herbal medicine, in general, the patient is often given a drug solution after the medicine is decocted to remove the decoction. Such a method consumes time and effort, has low efficiency and low drug utilization, and therefore designs a device that can automatically process Chinese herbs to improve processing efficiency and drug utilization. There is a need.

Chinese Patent Application Publication No. 1020799096

Generally, as a method of taking Chinese herbal medicine, the patient is often given a drug solution after decocting the medicine to remove the decoction. Such methods are time consuming and labor intensive and have low efficiency and drug utilization.

In order to solve the above problems, the present application designs a Chinese herbal medicine processing apparatus, and the Chinese herbal medicine processing apparatus described in the present application includes a processing box, and a crushing space is provided in the processing box, and the crushing space is provided. A crushing mechanism is installed inside, the crushing mechanism can crush and polish a drug, a fountain mechanism is installed inside the left wall of the crushing space, and the fountain mechanism can add fresh water to the crushing space. It can and can dissolve the polished drug powder, a filtration mechanism is fixedly installed at the lower end of the crushing mechanism, the filtration mechanism can filter the drug, and a heating space is provided at the lower end of the filtration mechanism. The heating space is installed so that the chemical solution can be stored, the main pipeline is installed at the left end of the heating space so as to communicate with the heating space, and a valve is connected to the left end of the main pipeline of the processing box. A control space is installed inside the right wall, a control mechanism is installed in the control space, the control mechanism and the filtration mechanism are connected, and the control mechanism can control the operation and stop of the filtration mechanism. A first power space is installed inside the lower wall of the control space, a first power mechanism is installed in the first power space, and the first power mechanism, the crushing mechanism, and the control mechanism are By being connected and activating the first power mechanism, the first power mechanism can provide power to the crushing mechanism and the control mechanism, and a second power space is provided inside the lower wall of the first power space. A second power mechanism is installed in the second power space, a combustion space is installed inside the left wall of the second power space, and a combustion mechanism is installed in the combustion space. The combustion mechanism can heat the chemical solution in the heating space, and the right end of the combustion mechanism is connected to the second power mechanism, and by activating the second power mechanism, the combustion mechanism is driven and operated. A pipeline control space is installed inside the left wall of the combustion space, a pipeline control mechanism is installed in the pipeline control space, and the pipeline control mechanism controls the opening and closing of the main pipeline. it can.

Among them, the fountain mechanism includes a high-pressure pump fixedly installed in the processing box, and is installed at the lower end of the high-pressure pump so as to communicate with the lower conduit, and at the lower end of the lower conduit. Is installed so that the water storage space is communicative, fresh water is stored in the water storage space, and the upper pipeline is installed at the upper end of the high-pressure pump so as to be communicative. Is installed so that the fountain valves communicate with each other, a compressible fountain valve spring is fixedly installed in the fountain valve, and a slidable fountain valve slider is fixed at the left end of the fountain valve spring. By operating the high-pressure pump, the fresh water in the water storage space can be sent to the fountain valve by the lower pipe line and the upper pipe line, where the high-pressure fresh water is sent to the fountain valve. The slider is pushed and slid to the left, and fresh water is ejected from the fountain valve to spray the inside of the crushing space.

Among them, the first power mechanism includes a first motor fixedly installed inside the right inner wall of the first power space, and a first power shaft is movably connected to the upper end of the first motor. A first captive gear is fixedly installed on the first power shaft, the first captive gear is located in the control space, the left end of the first captive gear can be connected to the control mechanism, and the first motor. By operating the first power shaft, the first power shaft can be driven and rotated, and the control mechanism can be driven through the first cap gear, and the second cap gear is fixed to the top end of the first power shaft. The left end of the second captive gear is connected to the crushing mechanism, and the first power shaft rotates to drive the crushing mechanism through the second captive gear.

Among them, the crushing mechanism includes a first synchronous shaft rotatably installed inside the right wall of the crushing space, and a first transmission space is installed inside the right wall of the crushing space, and the first synchronous shaft is installed. The first synchronous gear is fixedly installed at the right end of the above, the first synchronous gear is located in the first transmission space, the lower end of the first synchronous gear meshes with the second bevel gear, and the first synchronous gear is engaged. The second synchronous gear is fixedly installed at the left end of the shaft, the third synchronous gear meshes with the rear end of the second synchronous gear, and the second synchronous shaft is fixed at the axial center of the third synchronous gear. The second synchronous shaft is rotatably installed in the crushing space, the first pulley is installed on the second synchronous shaft, the first belt is connected to the first pulley, and the first The third synchronous shaft is installed symmetrically on the upper end of the pulley, the second pulley is fixedly installed on the third synchronous shaft, and the second pulley is connected to the first belt. A roller crusher is fixedly installed on the third synchronous shaft, and the first power shaft rotates to drive and rotate the first synchronous shaft through the second bevel gear and the first synchronous gear. The first synchronous gear drives and rotates the second synchronous shaft through the second synchronous gear and the third synchronous gear, and the second synchronous shaft is the first pulley, the first belt, and the said. The third synchronous shaft is driven and rotated through the second pulley, the third synchronous shaft drives and rotates the roller crusher, and the roller crusher can crush and polish the drug.

Among them, the control mechanism includes a central transmission shaft rotatably installed inside the left wall of the control space, the central transmission shaft is covered by a hollow shaft, and the hollow shaft and the central transmission shaft are splines. Connected, a sliding gear is fixedly installed on the hollow shaft, a magnetic slider is fixedly installed on the lower end of the sliding gear, and an electromagnet spring is fixedly installed on the left end of the magnetic slider. A magnet is fixedly installed at the left end of the electromagnet spring, and a first gear is fixedly installed at the right end of the hollow shaft. By energizing the electromagnet, the electromagnet dispels the magnetic slider. The sliding gear is driven by the magnetic slider to slide to the right, and the hollow shaft and the first gear are driven by the sliding gear to slide to the right, and the first gear and the first gear. By engaging with the first bevel gear and rotating the first bevel gear, the central transmission shaft can be driven and rotated through the first gear and the hollow shaft.

Among them, the filtration mechanism includes a pulley shaft rotatably installed in the filtration space, a second gear is fixedly installed on the pulley shaft, and the right end of the second gear and the third gear mesh with each other. The axial center of the third gear is fixedly installed at the left end of the central transmission shaft, the third pulley is fixedly installed on the pulley shaft, and the second belt is connected to the third pulley. ,
A localization block is fixedly installed inside the right wall of the heating space, a first rotation shaft is rotatably installed in the localization block, and a fourth pulley is fixedly installed on the first rotation shaft. The fourth pulley is connected to the left end of the second belt, the fifth pulley is fixedly installed on the first turning shaft, and the fifth pulley is located at the front end of the fourth pulley. A third belt is connected to the fifth pulley, a filtration block is arranged at the left end of the localization block, a filtration pulley is rotatably installed in the filtration block, and a filtration hole is provided in the filtration pulley. Is installed, the filtration pulley and the third belt are connected, and the central transmission shaft rotates to drive and rotate the pulley shaft through the third gear and the second gear, and the pulley. The shaft drives and rotates the first turning shaft through the third pulley, the second belt, and the fourth pulley, and the first turning shaft passes through the fifth pulley and the third belt. By driving and rotating the filtration pulley and rotating the filtration pulley, the filtration hole can communicate with the crushing space, and the chemical solution in the crushing space flows into the heating space.

Among them, the second power mechanism includes a second motor fixedly installed inside the top wall of the second power space, and a second power shaft is movably connected to the lower end of the second motor. A first transmission gear is fixedly installed at the lower end of the second power shaft, a second transmission gear meshes with the lower end of the first transmission gear, and the left end of the second transmission gear is connected to the combustion mechanism. A third transmission gear meshes with the lower end of the second transmission gear, a first transmission shaft is fixedly installed at the axial center of the third transmission gear, and the first transmission shaft is the second power space. It is rotatably installed inside the lower wall, the lower end of the first transmission shaft is connected to the pipeline control mechanism, and by starting the second motor, the second power shaft is driven and rotated. Then, the combustion mechanism can be driven through the first transmission gear and the second transmission gear, and the second transmission gear drives and rotates the first transmission shaft through the third transmission gear to rotate the first transmission shaft. Can drive the pipeline control mechanism.

Among them, the combustion mechanism includes a rotatably installed first constant axis inside the right wall of the combustion space, and the right end of the constant position axis is fixedly connected to the second transmission gear to be fixedly connected to the second transmission gear. A first localization gear is fixedly installed at the left end of the localization shaft, a second localization gear meshes with the left end of the first localization gear, and a second localization shaft is located at the center of the second localization gear. The second localization shaft is fixedly installed, the second localization shaft is rotatably installed inside the front and rear walls of the combustion space, the third localization gear is fixedly installed on the second localization shaft, and the third localization gear is Located at the front end of the second localization gear, a connecting rod is rotatably installed in the combustion space, and the right end of the connecting rod is hinged to the third localization gear by a third localization shaft. A central slider is slidably installed at the left end of the connecting rod, the central slider is connected to the left end of the connecting rod by a hinge by a fourth localization axis, and fixed blocks are symmetrical at the upper and lower ends of the central slider. The central slider can slide left and right between the fixed blocks, an ignition switch is fixedly installed at the right end of the central slider, and an electric wire is connected to the upper end of the ignition switch. An igniter is connected to the left end of the electric wire, a combustor is installed inside the lower wall of the combustion space, and a fuel space is installed at the lower end of the combustor so as to communicate with each other. The fuel space and the combustor can be stored, and the second localization shaft is driven through the second localization gear and the second localization gear by connecting the fuel space and the combustor with oil-absorbing cotton and rotating the first localization shaft. The second localization shaft drives and rotates the third localization gear, and the third localization gear is centered through the third localization shaft, the connecting rod, and the fourth localization shaft. When the slider is driven to slide left and right, and the center slider slides to the right, the right end comes into contact with the ignition switch, and the ignition switch operates the igniter through the electric wire, and the igniter is operated. Creates a fire in the combustor by producing an electric spark, and when the central slider slides to the left, the central slider can shut off the combustor and extinguish the fire.

Among them, the pipeline control mechanism includes a second transmission shaft rotatably installed in the pipeline control space, and a first transmission pulley is fixedly installed on the second transmission shaft, and the first transmission pulley is fixedly installed. The first transmission belt is connected to the first transmission pulley, the second transmission space is installed inside the right wall of the pipeline control space, and the third transmission shaft is rotatably installed in the second transmission space. A second transmission pulley is fixedly installed on the third transmission shaft, the second transmission pulley is connected to the right end of the first transmission belt, and the first transmission bevel gear is connected to the third transmission shaft. Is fixedly installed, the second transmission cap gear meshes with the upper end of the first transmission cap gear, and the upper end of the second transmission cap gear and the first transmission shaft are fixedly connected to each other, and the second transmission cap gear is fixedly connected. A jamming plate gear is fixedly installed on the transmission shaft, and a jamming plate is connected to the left end of the jamming plate gear so as to mesh with each other. The third transmission shaft is driven and rotated through the first transmission bevel gear, and the third transmission shaft is the second transmission through the second transmission pulley, the first transmission belt, and the first transmission pulley. The shaft is driven to rotate, and the second transmission shaft drives the interference plate through the interference plate gear to slide up and down, and the main pipeline can be opened and closed by sliding the interference plate up and down.

The present invention has the following positive effects: The present invention has a simple structure, is easy to maintain and use, and the present invention automatically grinds and polishes crude drugs and dissolves the medicine in water more efficiently. This makes it convenient for patients to take, improves the absorption rate of nutritional substances, improves the therapeutic effect, and the present invention can automatically heat the drug solution, improve the decoction efficiency, and increase the drug utilization rate. Be done.

In order to explain the present invention in detail and conveniently explain the present invention together with FIGS. 1 to 5, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention and is described in the present application. Each direction is the same as the observation direction in FIG.

FIG. 1 is a schematic diagram of the overall configuration of the present invention. FIG. 2 is an enlarged schematic diagram of the configuration of A in FIG. FIG. 3 is an enlarged schematic diagram of the configuration of B in FIG. FIG. 4 is an enlarged schematic diagram of the configuration of C in FIG. FIG. 5 is an enlarged schematic diagram of the configuration of D in FIG.

The present invention takes up a Chinese herbal medicine processing apparatus, and is mainly applied to the processing of Chinese herbal medicine. The present invention will be described in detail with reference to the drawings below.

The Chinese herbal medicine processing apparatus described in the present application includes a processing box 11, a crushing space 100 is installed in the processing box 11, a crushing mechanism 101 is installed in the crushing space 100, and the crushing mechanism 101 is installed. Can crush and polish the drug, a fountain mechanism 201 is installed inside the left wall of the crushing space 100, the fountain mechanism 201 can add fresh water to the crushing space 100, and the polished drug. The powder can be melted, a filtration mechanism 801 is fixedly installed at the lower end of the crushing mechanism 101, the filtration mechanism 801 can filter the drug, and a heating space 88 is installed at the lower end of the filtration mechanism 801. The heating space 88 can store a chemical solution, and a main pipeline 42 is installed at the left end of the heating space 88 so as to communicate with the heating space 88, and a valve 41 is connected to the left end of the main pipeline 42. A control space 700 is installed inside the right wall of the processing box 11, a control mechanism 701 is installed in the control space 700, the control mechanism 701 and the filtration mechanism 801 are connected, and the control mechanism 701 The operation and stop of the filtration mechanism 801 can be controlled, the first power space 300 is installed inside the lower wall of the control space 700, and the first power mechanism 301 is installed in the first power space 300. The first power mechanism 301, the crushing mechanism 101, and the control mechanism 701 are connected to each other, and by activating the first power mechanism 301, the first power mechanism 301 becomes the crushing mechanism 101 and the control mechanism 701. A second power space 400 is installed inside the lower wall of the first power space 300, and a second power mechanism 401 is installed in the second power space 400. A combustion space 900 is installed inside the left wall of the space 400, a combustion mechanism 901 is installed in the combustion space 900, and the combustion mechanism 901 can heat the chemical solution in the heating space 88, and the combustion The right end of the mechanism 901 is connected to the second power mechanism 401, and by activating the second power mechanism 401, the combustion mechanism 901 is driven and operated, and a pipe is formed inside the left wall of the combustion space 900. A road control space 600 is installed, a pipeline control mechanism 601 is installed in the pipeline control space 600, and the pipeline control mechanism 601 can control the opening and closing of the main pipeline 42.

The fountain mechanism 201 includes a high-pressure pump 44 fixedly installed in the processing box 11, and a lower pipeline 91 is installed at the lower end of the high-pressure pump 44 so as to communicate with the lower pipeline 91. A water storage space 43 is installed at the lower end of the water storage space 43 so as to communicate with each other, fresh water is stored in the water storage space 43, and an upper pipeline 45 is installed at the upper end of the high pressure pump 44 so as to communicate with each other. A fountain valve 86 is installed at the right end of the upper pipeline 45 so as to communicate with each other, and a compressible fountain valve spring 89 is fixedly installed in the fountain valve 86, and a compressible fountain valve spring 89 is fixedly installed at the left end of the fountain valve spring 89. A slidable fountain valve slider 87 is fixedly installed in the fountain valve slider 87, and by operating the high-pressure pump 44, fresh water in the water storage space 43 is supplied by the lower conduit 91 and the upper conduit 45. It can be sent to the fountain valve 86, where high pressure fresh water pushes the fountain valve slider 87 and slides to the left, and the fresh water is ejected from the fountain valve 86 to spray the inside of the crushing space 100. Do.

The first power mechanism 301 includes a first motor 21 fixedly installed inside the right inner wall of the first power space 300, and a first power shaft 19 is movably connected to the upper end of the first motor 21. The first captive gear 46 is fixedly installed on the first power shaft 19, the first captive gear 46 is located in the control space 700, and the left end of the first captive gear 46 is the control mechanism 701. By operating the first motor 21, the first power shaft 19 can be driven and rotated, and the control mechanism 701 can be driven through the first bevel gear 46. A second cap gear 18 is fixedly installed at the top end of the power shaft 19, the left end of the second cap gear 18 is connected to the crushing mechanism 101, and the first power shaft 19 rotates to cause the first power shaft 19. The crushing mechanism 101 can be driven through the double gear 18.

The crushing mechanism 101 includes a first synchronous shaft 16 rotatably installed inside the right wall of the crushing space 100, and a first transmission space 200 is installed inside the right wall of the crushing space 100. The first synchronous gear 17 is fixedly installed at the right end of the synchronous shaft 16, the first synchronous gear 17 is located in the first transmission space 200, and the lower end of the first synchronous gear 17 is the second bevel gear. The second synchronous gear 15 is fixedly installed at the left end of the first synchronous shaft 16 and the third synchronous gear 92 meshes with the rear end of the second synchronous gear 15 to mesh with the third synchronous gear. A second synchronous shaft 93 is fixedly installed at the axial center of 92, the second synchronous shaft 93 is rotatably installed in the crushing space 100, and a first pulley 94 is installed on the second synchronous shaft 93. The first belt 95 is connected to the first pulley 94, and the third synchronous shaft 14 is installed at the upper end of the first pulley 94 so as to be symmetrical, and the third synchronous shaft 14 is connected to the third synchronous shaft 14. The two pulleys 13 are fixedly installed, the second pulley 13 is connected to the first belt 95, the roller crusher 12 is fixedly installed on the third synchronous shaft 14, and the first power shaft 19 is fixedly installed. Rotates to drive and rotate the first synchronous shaft 16 through the second bevel gear 18 and the first synchronous gear 17, and the first synchronous gear 17 is rotated by the second synchronous gear 15 and the first synchronous gear 17. The second synchronous shaft 93 is driven and rotated through the three synchronous gears 92, and the second synchronous shaft 93 passes through the first pulley 94, the first belt 95, and the second pulley 13 to rotate the third synchronous shaft 93. 14 is driven to rotate, the third synchronous shaft 14 drives and rotates the roller crusher 12, and the roller crusher 12 can crush and polish the drug.

The control mechanism 701 includes a central transmission shaft 54 rotatably installed inside the left wall of the control space 700, the central transmission shaft 54 is covered by a hollow shaft 48, and the hollow shaft 48 and the central transmission shaft 54 A sliding gear 49 is fixedly installed on the hollow shaft 48, a magnetic slider 51 is fixedly installed on the lower end of the sliding gear 49, and a magnetic slider 51 is fixedly installed on the left end of the magnetic slider 51. The electromagnet spring 52 is fixedly installed, the electromagnet 53 is fixedly installed at the left end of the electromagnet spring 52, and the first gear 47 is fixedly installed at the right end of the hollow shaft 48. The electric magnet 53 dispels the magnetic slider 51 and drives the sliding gear 49 on the magnetic slider 51 to slide it to the right, and the hollow shaft 48 and the first gear 47 Is driven by the sliding gear 49 and slides to the right, the first gear 47 and the first cap gear 46 mesh with each other, and the first cap gear 46 rotates, so that the first gear 47 And the hollow shaft 48 can drive and rotate the central transmission shaft 54.

The filtration mechanism 801 includes a pulley shaft 58 rotatably installed in the filtration space 800, and a second gear 56 is fixedly installed on the pulley shaft 58, and the right end of the second gear 56 and the third gear In mesh with 55, the axial center portion of the third gear 55 is fixedly installed at the left end of the central transmission shaft 54, and the third pulley 57 is fixedly installed on the pulley shaft 58, and the third pulley is fixedly installed. A second belt 59 is connected to 57, and a second belt 59 is connected to the 57.
A localization block 77 is fixedly installed inside the right wall of the heating space 88, a first rotation shaft 81 is rotatably installed in the localization block 77, and a fourth rotation shaft 81 is rotatably installed. The pulley 76 is fixedly installed, the fourth pulley 76 and the left end of the second belt 59 are connected, and the fifth pulley 79 is fixedly installed on the first turning shaft 81, and the fifth pulley is fixedly installed. 79 is located at the front end of the fourth pulley 76, the third belt 82 is connected to the fifth pulley 79, the filtration block 84 is arranged at the left end of the localization block 77, and the filtration block 84 is filtered. The pulley 83 is rotatably installed, a filtration hole 85 is installed in the filtration pulley 83, the filtration pulley 83 and the third belt 82 are connected, and the central transmission shaft 54 rotates. The pulley shaft 58 is driven and rotated through the third gear 55 and the second gear 56, and the pulley shaft 58 is passed through the third pulley 57, the second belt 59, and the fourth pulley 76. The first turning shaft 81 is driven to rotate, and the first turning shaft 81 drives and rotates the filtering pulley 83 through the fifth pulley 79 and the third belt 82, and the filtering pulley 83 rotates. By doing so, the filtration hole 85 can communicate with the crushing space 100, and the chemical solution in the crushing space 100 flows into the heating space 88.

The second power mechanism 401 includes a second motor 22 fixedly installed inside the top wall of the second power space 400, and a second power shaft 23 is movably connected to the lower end of the second motor 22. The first transmission gear 24 is fixedly installed at the lower end of the second power shaft 23, the second transmission gear 25 meshes with the lower end of the first transmission gear 24, and the left end of the second transmission gear 25 is engaged. Is connected to the combustion mechanism 901, the third transmission gear 26 meshes with the lower end of the second transmission gear 25, and the first transmission shaft 27 is fixedly installed at the axial center of the third transmission gear 26. The first transmission shaft 27 is rotatably installed inside the lower wall of the second power space 400, and the lower end of the first transmission shaft 27 is connected to the pipeline control mechanism 601 to connect the second motor 22. Upon activation, the second power shaft 23 is driven and rotated, and the combustion mechanism 901 can be driven through the first transmission gear 24 and the second transmission gear 25, and the second transmission gear 25 is said to be said. The first transmission shaft 27 can be driven and rotated through the third transmission gear 26, and the first transmission shaft 27 can drive the pipeline control mechanism 601.

The combustion mechanism 901 includes a rotatably installed first constant shaft 61 inside the right wall of the combustion space 900, and the right end of the first constant shaft 61 is fixedly connected to the second transmission gear 25. A second localization gear 62 is fixedly installed at the left end of the first localization shaft 61, a second localization gear 63 meshes with the left end of the first localization gear 62, and an axial center portion of the second localization gear 63. The second localization shaft 65 is fixedly installed in the second localization shaft 65, the second localization shaft 65 is rotatably installed inside the front and rear walls of the combustion space 900, and the third localization gear 64 is mounted on the second localization shaft 65. Fixedly installed, the third localization gear 64 is located at the front end of the second localization gear 63, a connecting rod 67 is rotatably installed in the combustion space 900, and the right end of the connecting rod 67 is rotatably installed. The third localization shaft 66 is connected to the third localization gear 64 by a hinge, a central slider 73 is slidably installed at the left end of the connecting rod 67, and the center slider 73 is connected by the fourth localization shaft 72. It is connected to the left end of the rod 67 by a hinge, and the fixed blocks 71 are installed symmetrically at the upper and lower ends of the central slider 73, and the central slider 73 can slide left and right between the fixed blocks 71. An ignition switch 68 is fixedly installed at the right end of the central slider 73, an electric wire 69 is connected to the upper end of the ignition switch 68, and an igniter 74 is connected to the left end of the electric wire 69. A combustor 75 is installed inside the lower wall, and a fuel space 35 is installed at the lower end of the combustor 75 so as to communicate with each other. The fuel space 35 can store fuel, and the fuel space 35 and the combustor can be stored. The 75 is connected by an oil absorbing cotton 34, and the rotation of the first localization shaft 61 drives and rotates the second localization shaft 65 through the first localization gear 62 and the second localization gear 63. The second localization shaft 65 drives and rotates the third localization gear 64, and the third localization gear 64 passes through the third localization shaft 66, the connecting rod 67, and the fourth localization shaft 72. When the central slider 73 is driven to slide left and right, and the central slider 73 slides to the right, the right end abuts on the ignition switch 68, and the ignition switch 68 passes through the electric wire 69 to the igniter. Activating the 74, the igniter 74 creates an electric spark in the combustor 75, and when the central slider 73 slides to the left, the central slider 73 shuts off the combustor 75. You can put out the fire.

The pipeline control mechanism 601 includes a second transmission shaft 38 rotatably installed in the pipeline control space 600, and a first transmission pulley 37 is fixedly installed on the second transmission shaft 38. A first transmission belt 33 is connected to the first transmission pulley 37, a second transmission space 500 is installed inside the right wall of the pipeline control space 600, and a third transmission space 500 is included in the second transmission space 500. The transmission shaft 32 is rotatably installed, the second transmission pulley 31 is fixedly installed on the third transmission shaft 32, and the second transmission pulley 31 and the right end of the first transmission belt 33 are connected to each other. The first transmission cap gear 29 is fixedly installed on the third transmission shaft 32, the second transmission cap gear 28 meshes with the upper end of the first transmission cap gear 29, and the upper end of the second transmission cap gear 28 is engaged. And the first transmission shaft 27 are fixedly connected, the interference plate gear 36 is fixedly installed on the second transmission shaft 38, and the interference plate 39 meshes with the left end of the interference plate gear 36. By being connected and rotating the first transmission shaft 27, the third transmission shaft 32 is driven and rotated through the second transmission umbrella gear 28 and the first transmission umbrella gear 29, and the third transmission shaft 32 is rotated. 32 drives and rotates the second transmission shaft 38 through the second transmission pulley 31, the first transmission belt 33, and the first transmission pulley 37, and the second transmission shaft 38 is the interference plate gear. The interference plate 39 is driven through the 36 to slide up and down, and the main pipeline 42 can be opened and closed by sliding the interference plate 39 up and down.

The operating procedure of the present invention is as follows.

When trying to process a drug, the drug is put into the crushing space 100, the high pressure pump 44 and the first motor 21 are started, and the first motor 21 drives and rotates the first power shaft 19 to rotate the first power shaft. 19 drives and rotates the first synchronous shaft 16 through the second bevel gear 18 and the first synchronous gear 17, and the first synchronous gear 17 is the second synchronous shaft through the second synchronous gear 15 and the third synchronous gear 92. 93 is driven and rotated, the second synchronous shaft 93 is driven and rotated through the first pulley 94, the first belt 95, and the second pulley 13, and the third synchronous shaft 14 is driven and rotated. The roller crusher 12 is driven to rotate, the roller crusher 12 crushes and polishes the drug, and the high-pressure pump 44 pumps the fresh water in the water storage space 43 by the lower pipe 91 and the upper pipe 45. High-pressure fresh water pushes the fountain valve slider 87 and slides to the left, and the fresh water is ejected from the fountain valve 86 and sprayed inside the crushing space 100 to dissolve the drug powder. The second motor 22 is started by, the second motor 22 drives and rotates the second power shaft 23, and the second power shaft 23 is a constant position shaft through the first transmission gear 24 and the second transmission gear 25. 61 is driven and rotated, the first localization shaft 61 drives and rotates the second localization shaft 65 through the second localization gear 62 and the second localization gear 63, and the second localization shaft 65 is the third localization gear 64. The third localization gear 64 drives and slides the center slider 73 to the right through the third localization shaft 66, the connecting rod 67, and the fourth localization shaft 72, and slides the center slider 73 to the right. When the right end abuts on the ignition switch 68, the ignition switch 68 activates the igniter 74 through the wire 69, the igniter 74 creates an electric spark to produce fire in the combustor 75, and the second transmission gear 25 The first transmission shaft 27 is driven and rotated through the third transmission gear 26, and the first transmission shaft 27 drives and rotates the third transmission shaft 32 through the second transmission umbrella gear 28 and the first transmission umbrella gear 29. The third transmission shaft 32 drives and rotates the second transmission shaft 38 through the second transmission pulley 31, the first transmission belt 33, and the first transmission pulley 37, and the second transmission shaft 38 is the interfering plate gear 36. The interfering plate 39 is driven and slid upward, and the main pipeline 42 is closed, where the second motor 22 is stopped, and at the same time, the electric magnet 53 is energized. The sliding gear 49 is driven by 51 and slid to the right, and the hollow shaft 48 and the first gear 47 are driven by the sliding gear 49. Then, it slides to the right, the first gear 47 and the first pulley gear 46 mesh with each other, and the first pulley gear 46 drives and rotates the central transmission shaft 54 through the first gear 47 and the hollow shaft 48. By rotating the central transmission shaft 54, the pulley shaft 58 is driven and rotated through the third gear 55 and the second gear 56, and the pulley shaft 58 is the third pulley 57, the second belt 59, and the fourth pulley. The first turning shaft 81 is driven and rotated through the 76, and the first turning shaft 81 drives and rotates the filtering pulley 83 through the fifth pulley 79 and the third belt 82, and the filtering pulley 83 is rotated. , The filter hole 85 can communicate with the crushing space 100, and the chemical solution in the crushing space 100 flows into the heating space 88 to be heated, and after the filtration hole 85 and the crushing space 100 communicate with each other, the electric magnet 53 is cut off. Then, the filtration pulley 83 stops rotating, and after the heating is completed, the second motor 22 is rotated in the reverse direction, and the central slider 73 is slid to the left, so that the central slider 73 shuts off the combustor 75 and ignites the fire. The interference plate 39 slides downward to open the main conduit 42, and then the valve 41 is opened to take out the chemical solution in the heating space 88.

The above is the specific implementation method of the present invention, the scope of protection of the present invention is not limited to the above contents, and the modification and replacement of ideas through all creative labor is the scope of protection of the present invention. Should be covered by. Therefore, the scope of protection of the present invention should be standardized to the scope of protection in which the request for rights is limited.

Claims (9)

A crushing space is installed in the processing box, a crushing mechanism is installed in the crushing space, and a fountain mechanism is installed inside the left wall of the crushing space, including the processing box. A filtration mechanism is fixedly installed at the lower end, a heating space is installed at the lower end of the filtration mechanism, and a main pipeline is installed at the left end of the heating space so as to communicate with the heating space. A valve is connected to the left end of the processing box, a control space is installed inside the right wall of the processing box, a control mechanism is installed in the control space, and the control mechanism and the filtration mechanism are connected to each other. A first power space is installed inside the lower wall of the control space, a first power mechanism is installed in the first power space, and the first power mechanism, the crushing mechanism, and the control mechanism are connected to each other. A second power space is installed inside the lower wall of the first power space, a second power mechanism is installed in the second power space, and a combustion space is installed inside the left wall of the second power space. Is installed, a combustion mechanism is installed in the combustion space, the right end of the combustion mechanism is connected to the second power mechanism, and a pipeline control space is installed inside the left wall of the combustion space. A Chinese herbal medicine processing device characterized in that a pipeline control mechanism is installed in the pipeline control space. The fountain mechanism includes a high-pressure pump fixedly installed in the processing box, is installed so that a lower pipeline communicates with the lower end of the high-pressure pump, and a water storage space is provided at the lower end of the lower conduit. Is installed so as to communicate, fresh water is stored in the water storage space, an upper pipeline is installed at the upper end of the high-pressure pump so as to communicate, and a fountain valve is installed at the right end of the upper pipeline. A compressible fountain valve spring is fixedly installed in the fountain valve, and a slidable fountain valve slider is fixedly installed at the left end of the fountain valve spring. The Chinese herbal medicine processing apparatus according to claim 1, wherein the Chinese herbal medicine processing apparatus is characterized. The first power mechanism includes a first motor fixedly installed inside the right inner wall of the first power space, and a first power shaft is movably connected to the upper end of the first motor, and the first power mechanism is transmitted. The first captive gear is fixedly installed on the power shaft, the first captive gear is located in the control space, the left end of the first captive gear can be connected to the control mechanism, and the top end of the first power shaft. The Chinese herbal medicine processing apparatus according to claim 1, wherein a second bevel gear is fixedly installed in the vehicle, and the left end of the second bevel gear is connected to the crushing mechanism. The crushing mechanism includes a first synchronous shaft rotatably installed inside the right wall of the crushing space, a first transmission space is installed inside the right wall of the crushing space, and is located at the right end of the first synchronous shaft. The first synchronous gear is fixedly installed, the first synchronous gear is located in the first transmission space, the lower end of the first synchronous gear meshes with the second cap gear, and the left end of the first synchronous shaft. The second synchronous gear is fixedly installed in the vehicle, the third synchronous gear meshes with the rear end of the second synchronous gear, and the second synchronous shaft is fixedly installed at the axial center of the third synchronous gear. The second synchronous shaft is rotatably installed in the crushing space, the first pulley is installed on the second synchronous shaft, the first belt is connected to the first pulley, and the upper end of the first pulley is connected. The third synchronous axis is installed so as to be symmetrical, the second pulley is fixedly installed on the third synchronous axis, the second pulley is connected to the first belt, and the third synchronous axis is connected. The Chinese herbal medicine processing apparatus according to claim 3, wherein a roller crusher is fixedly installed on the shaft. The control mechanism includes a central transmission shaft rotatably installed inside the left wall of the control space, the central transmission shaft is covered by a hollow shaft, and the hollow shaft and the central transmission shaft are connected by a spline. A sliding gear is fixedly installed on the hollow shaft, a magnetic slider is fixedly installed on the lower end of the sliding gear, and an electromagnet spring is fixedly installed on the left end of the magnetic slider. The Chinese herbal medicine processing apparatus according to claim 3, wherein an electromagnet is fixedly installed at the left end of the spring, and a first gear is fixedly installed at the right end of the hollow shaft. The filtration mechanism includes a pulley shaft rotatably installed in the filtration space, and a second gear is fixedly installed on the pulley shaft, and the right end of the second gear and the third gear mesh with each other to form the first gear. The shaft center of the three gears is fixedly installed at the left end of the central transmission shaft, a third pulley is fixedly installed on the pulley shaft, and a second belt is connected to the third pulley.
A localization block is fixedly installed inside the right wall of the heating space, a first rotation shaft is rotatably installed in the localization block, and a fourth pulley is fixedly installed on the first rotation shaft. The fourth pulley is connected to the left end of the second belt, the fifth pulley is fixedly installed on the first turning shaft, and the fifth pulley is located at the front end of the fourth pulley. A third belt is connected to the fifth pulley, a filtration block is arranged at the left end of the localization block, a filtration pulley is rotatably installed in the filtration block, and a filtration hole is provided in the filtration pulley. The Chinese herbal medicine processing apparatus according to claim 4, wherein the filtration pulley is connected to the third belt. The second power mechanism includes a second motor fixedly installed inside the top wall of the second power space, and a second power shaft is movably connected to the lower end of the second motor so that the second power shaft can be transmitted. A first transmission gear is fixedly installed at the lower end of the power shaft, a second transmission gear meshes with the lower end of the first transmission gear, and the left end of the second transmission gear is connected to the combustion mechanism. The third transmission gear meshes with the lower end of the second transmission gear, the first transmission shaft is fixedly installed at the axial center of the third transmission gear, and the first transmission shaft is the lower wall of the second power space. The Chinese herbal medicine processing apparatus according to claim 1, wherein the lower end of the first transmission shaft is rotatably installed inside and is connected to the pipeline control mechanism. The combustion mechanism includes a rotatably installed first position axis inside the right wall of the combustion space, and the right end of the first position axis is fixedly connected to the second transmission gear and the first position axis is fixedly connected to the second transmission gear. A second localization gear is fixedly installed at the left end of the second localization gear, a second localization gear meshes with the left end of the first localization gear, and a second localization shaft is fixedly installed at the axial center of the second localization gear. The second localization shaft is rotatably installed inside the front and rear walls of the combustion space, the third localization gear is fixedly installed on the second localization shaft, and the third localization gear is the second. Located at the front end of the localization gear, a connecting rod is rotatably installed in the combustion space, and the right end of the connecting rod is connected to the third localization gear by a third localization shaft with a hinge, and the connecting rod A center slider is slidably installed at the left end, the center slider is connected to the left end of the connecting rod by a hinge by a fourth localization axis, and fixed blocks are installed symmetrically at the upper and lower ends of the center slider. An ignition switch is fixedly installed at the right end of the central slider, an electric wire is connected to the upper end of the ignition switch, and an igniter is connected to the left end of the electric wire, inside the lower wall of the combustion space. A combustor is installed, and a fuel space is installed at the lower end of the combustor so as to communicate with each other. The fuel space can store fuel, and the fuel space and the combustor are connected by oil absorbing cotton. The Chinese herbal medicine processing apparatus according to claim 7, wherein the device is provided. The pipeline control mechanism includes a second transmission shaft rotatably installed in the pipeline control space, and a first transmission pulley is fixedly installed on the second transmission shaft, and the first transmission pulley is fixedly installed. A first transmission belt is connected to the gear, a second transmission space is installed inside the right wall of the pipeline control space, and a third transmission shaft is rotatably installed in the second transmission space. A second transmission pulley is fixedly installed on the third transmission shaft, the second transmission pulley is connected to the right end of the first transmission belt, and the first transmission cap gear is fixed to the third transmission shaft. A second transmission gear is engaged with the upper end of the first transmission gear, and the upper end of the second transmission gear and the first transmission shaft are fixedly connected to the second transmission shaft. The Chinese herbal medicine processing apparatus according to claim 7, wherein the interfering plate gear is fixedly installed, and the interfering plate is connected to the left end of the interfering plate gear so as to mesh with the interfering plate gear.

Images