CN112718108A - Traditional chinese medical science internal medicine pressure grinds device - Google Patents

Abstract

The invention provides a traditional Chinese medicine internal medicine pressing and grinding device, and relates to the field of traditional Chinese medicine internal medicine pressing and grinding devices. The grinding device comprises a bottom plate, wherein a mounting frame is connected to the top end of the bottom plate, a mounting plate is slidably connected in an opening of the mounting frame, an adjusting assembly used for adjusting the height of the mounting plate is arranged on the bottom plate, a connecting frame is fixed to the top end of the mounting plate, a rotating rod in the vertical direction is connected to the bottom end of the connecting frame through a bearing, a grinding disc is fixed to the bottom end of the rotating rod, a grinding dish located right below the grinding disc is clamped on the bottom plate, and a driving assembly used for driving the rotating rod to. This traditional chinese medical science internal medicine pressure grinds device can make the abrasive disc that the bull stick bottom is connected rotate grinding while pushing down to the solid medicine in the grinding ware, and grinding effect is fabulous.

Description

Traditional chinese medical science internal medicine pressure grinds device

Technical Field

The invention relates to the field of a traditional Chinese medicine internal medicine pressing and grinding device, in particular to a traditional Chinese medicine internal medicine pressing and grinding device.

Background

Traditional chinese medicine mainly comes from natural medicine and its processing product, including vegetable medicine, animal medicine, mineral medicine, especially with vegetable medicine many, these traditional chinese medicines all need grind it when carrying out treatment such as internal medicine disease, the prescription can be used, and the grinder commonly used at present is mortar and pestle mostly, and this kind of device needs the manual work to grind when using, not only wastes time and energy, and the manual work grinds also can have and can't grind meticulous problem with solid medicine, for this reason, provides a traditional chinese medical science internal medicine pressure grinding device here.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a traditional Chinese medicine internal medicine drug press grinding device, which solves the problems that the existing manual grinding device is time-consuming and labor-consuming, and the solid drugs cannot be finely ground.

In order to achieve the purpose, the invention provides the following technical scheme: a traditional Chinese medicine internal medicine drug press grinding device comprises a bottom plate, wherein a mounting frame is connected to the top end of the bottom plate, a mounting plate is slidably connected in an opening of the mounting frame, an adjusting assembly used for adjusting the height of the mounting plate is arranged on the bottom plate, a connecting frame is fixed to the top end of the mounting plate, a rotating rod in the vertical direction is connected to the bottom end of the connecting frame through a bearing, a grinding disc is fixed to the bottom end of the rotating rod, and the rotating rod and the grinding disc are connected in an overload sliding mode so that when the grinding disc is clamped and fixed in a grinding dish, the rotating rod can rotate relative to the grinding disc; the grinding dish that is located under the abrasive disc is blocked to the block on the bottom plate, be provided with on the mounting panel and be used for driving bull stick pivoted drive assembly.

Furthermore, the driving assembly comprises a motor fixed on the mounting plate, belt pulleys located on the same horizontal position are fixedly sleeved on the outer peripheral side of an output shaft of the motor and the outer peripheral side of the rotating rod, and a belt is connected between the two belt pulleys in a matched mode.

Further, the adjusting part includes the vertical lead screw that runs through the mounting panel and with mounting panel threaded connection, the top of lead screw is fixed with the hand wheel, and the bottom of lead screw is passed through the bearing and is connected with the bottom plate, be provided with the spacing subassembly that is used for prescribing a limit to the motion mode of mounting panel on the mounting bracket.

Further, spacing subassembly includes that the symmetry is seted up in mounting bracket inner wall both sides and is located the spacing groove of vertical direction, the bilateral symmetry of mounting panel is fixed with the spacing groove sliding connection's that corresponds stopper.

Furthermore, a limiting sleeve is fixedly mounted on the bottom plate, the inner diameter of the limiting sleeve is the same as the outer diameter of the grinding dish, and the grinding dish is located in the limiting sleeve.

Further, the grinding disc is located below the mounting plate in a relatively vertical direction.

Compared with the prior art, the invention has the following beneficial effects:

according to the invention, the adjusting assembly is arranged on the bottom plate, the height of the mounting plate can be changed under the action of the adjusting assembly, the driving assembly is arranged on the mounting plate, the rotating rod can be rotated under the action of the driving assembly, and the grinding disc connected with the bottom end of the rotating rod can rotate and grind the solid medicines in the grinding dish while downwards extruding the solid medicines.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic cross-sectional view taken along the direction A-A of the present invention;

FIG. 5 is an enlarged view taken at K in FIG. 4;

FIG. 6 is a schematic view of a first engagement between the sliding shaft and the grinding disk;

FIG. 7 is a partial schematic view of a portion of the rotating rod inserted into the grinding disk;

FIG. 8 is an enlarged view of the structure of FIG. 6 in which the cover plate overlaps the sliding tongue;

FIG. 9 is a schematic view of a second engagement between the sliding shaft and the abrasive disk;

FIG. 10 is a schematic view of a partial top view of the outlet end of the uptake groove of FIG. 9;

FIG. 11 is a schematic view of an arcuate spring with a crank portion;

FIG. 12 is a schematic view of a third engagement between the sliding shaft and the abrasive disk;

FIG. 13 is a structural view of the tie rod of FIG. 8 in the M direction;

FIG. 14 is a top view of the abrasive disk of the present invention;

FIG. 15 is a schematic longitudinal sectional view of an abrasive disk;

FIG. 16 is a partial schematic view of an abrasive disk at the end face of a slider bar;

FIG. 17 is a schematic view of the connection of two slider bars to connector tiles;

figure 18 is a top plan view of one construction of connector tiles;

element numbering in the figures: 1. a base plate; 2. a mounting frame; 3. mounting a plate; 4. an adjustment assembly; 41. a screw rod; 42. a hand wheel; 5. a connecting frame; 6. a rotating rod; 7. a grinding disk; 8. grinding a dish; 9. a drive assembly; 91. a motor; 92. a belt pulley; 93. a belt; 10. a limiting groove; 11. a limiting block; 12. a limiting sleeve; 13. a sliding shaft; 1301. rolling; 14. an arc-shaped spring; 1401. a handle part; 15. a buffer tank; 16. a rising tank; 17. a groove; 18. closing the plate; 19. a sliding tongue; 20. an annular groove; 21. a round spring; 22. hinging a shaft; 23. a pull rod; 24. an elastic cord; 25. a trench; 26. a connecting claw; 27. a heavy duty spring; 28. a disc; 29. a bolt; 30. stopping the opening; 180. an elliptical strip; 190. ejecting the elastic piece; 701. a body; 702. a slide bar; 703. a connector tile; 704. a tension spring; 705. a central column; 706. a pressure-bearing spring; 707. a cavity.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. In the idle place of the device, all the electric devices and the drivers matched with the electric devices are arranged, and all the driving parts, which refer to the power element, the electric devices and the adaptive power supply, are connected through the conducting wires by the person skilled in the art, and specific connecting means refer to the following expressions that the electric connection is completed among the electric devices in sequence, and the detailed connecting means are well known in the art.

The embodiment provides a traditional Chinese medicine internal medicine drug pressure grinding device, as shown in fig. 1, which comprises a bottom plate 1, an inverted U-shaped mounting frame 2 is connected to the top end of the bottom plate 1, a mounting plate 3 is slidably connected to the opening of the mounting frame 2, an adjusting component 4 for adjusting the height of the mounting plate 3 is arranged on the bottom plate 1, a connecting frame 5 is fixed to the top end of the mounting plate 3, the connecting frame 5 is composed of a transverse plate and a longitudinal plate, the longitudinal plate of the connecting frame 5 is fixed to the mounting plate 3, the bottom end of the transverse plate of the connecting frame 5 is connected with a vertical rotating rod 6 through a bearing, a grinding disc 7 is fixed to the bottom end of the rotating rod 6, in addition, a grinding pan 8 positioned under the grinding disc 7 is clamped on the bottom plate 1, a driving component 9 for driving the rotating rod 6 to rotate is arranged on the mounting plate 3, so that the rotating rod 6 and the grinding disc 7 can synchronously rotate under the action of the, through the cooperation of drive assembly 9 and adjusting part 4, can make abrasive disc 7 extrude solid medicine while rotating and grinding solid medicine downwards.

Specifically, as shown in fig. 4, the driving assembly 9 includes a motor 91 fixed on the mounting plate 3, belt pulleys 92 are respectively fixedly sleeved on an outer peripheral side of an output shaft of the motor 91 and an outer peripheral side of the rotating rod 6, the two belt pulleys 92 are located on the same horizontal plane (it is noted that the output shaft of the motor 91 is connected with the belt pulleys 92 through a coupling), and a tensioned belt 93 is connected between the two belt pulleys 92 in a matching manner, so that the two belt pulleys 92 and the rotating rod 6 can rotate simultaneously under the driving of the motor 91.

The specific operation mode of the adjusting assembly 4 is as shown in fig. 3, the adjusting assembly 4 includes a screw rod 41 vertically penetrating through the mounting plate 3 and in threaded connection with the mounting plate 3, a hand wheel 42 convenient for rotating the screw rod 41 is fixed at the top end of the screw rod 41, the bottom end of the screw rod 41 is connected with the bottom plate 1 through a bearing, an outer ring of the bearing is fixed with the bottom plate 1, an inner ring of the bearing is inserted into the screw rod 41, so that the screw rod 41 can only rotate and cannot move, in addition, because the screw rod 41 is in threaded connection with the mounting plate 3, when the screw rod 41 rotates, the mounting plate 3 also rotates, therefore, in order to avoid the rotation of the mounting plate 3, a limiting assembly used for limiting the motion mode of the mounting plate 3 is arranged on the.

As specific implementation details, the specific operation manner of the limiting assembly is as shown in fig. 1 and fig. 4-5, the limiting assembly includes limiting grooves 10 symmetrically formed on both sides of the inner wall of the mounting frame 2 and located in the vertical direction, limiting blocks 11 slidably connected with the corresponding limiting grooves 10 are symmetrically fixed on both sides of the mounting plate 3, and the mounting plate 3 can only move up and down along the limiting grooves 10 by the cooperation of the limiting blocks 11 and the limiting grooves 10.

The specific way of clamping and connecting the grinding dish 8 and the bottom plate 1 is as shown in fig. 1, a limit sleeve 12 is fixedly installed on the bottom plate 1, the inner diameter of the limit sleeve 12 is the same as the outer diameter of the grinding dish 8, and the grinding dish 8 is positioned in the limit sleeve 12.

Further, in order to allow the grinding disk 7 to contact the inner bottom end of the grinding pan 8, as shown in fig. 3, the grinding disk 7 is located below the mounting plate 3 in a relatively vertical direction, and if the mounting plate 3 is located below the grinding disk 7, when the mounting plate 3 is moved to the top end of the base plate 1, the grinding disk 7 does not contact the inner bottom end of the grinding pan 8, so that some small amount of solid medicine cannot be ground.

On the other hand, since the grinding disk 7 is likely to be not aligned with the grinding pan 8 during grinding, or the grinding disk 7 is too hard due to too high pressure, or meets the dregs such as stones, and the like, and the grinding disk 7 cannot rotate, the rotating rod 6 and the grinding disk 7 must be in overload slip connection, so that the rotating rod 6 can rotate relative to the grinding disk 7 when the grinding disk 7 is stuck and fixed in the grinding pan 8. Regarding such an overload slip connection, the present embodiment provides the following three configurations:

firstly, the central part of the grinding disc 7 is connected with a rotating rod 6, the rotating rod 6 is coaxially inserted into the central part of the grinding disc 7 through an insertion hole, as shown in fig. 6-7, an arc-shaped sliding groove is formed in the rod section of the rotating rod 6 inserted into the grinding disc 7, the top end of the sliding groove is connected with one end of an arc-shaped pressure spring, the other end of the arc-shaped pressure spring extends downwards along the sliding groove and is connected with a sliding shaft 13, the side wall of one end of the sliding shaft 13 is connected to the other end of the arc-shaped pressure spring, the other end of the sliding shaft extends out of the sliding groove along the radial direction of the rotating rod 6 and extends into a guide groove on the inner wall of the insertion hole, and. The guide groove comprises a buffer groove 15 and an ascending groove 16 which are connected with each other, an obtuse angle is formed between the buffer groove 15 and the ascending groove 16, a groove 17 is formed in the intersection between the buffer groove 15 and the ascending groove 16, the end portion of the sliding shaft 13 is placed in the groove 17 and is kept attached to the cylindrical surface of the sliding shaft 13, the sliding shaft 13 is always kept in contact fit with the groove 17 when the rotating rod 6 normally rotates, and when the grinding disc 7 is clamped and cannot normally rotate, the sliding shaft 13 slides upwards out of the groove 17 due to the rotation trend of the rotating rod 6 and slides upwards in the ascending groove 16. A ring of annular grooves 20 are arranged on the inner wall of the jack above the guide groove, and the annular grooves 20 are communicated with the outlet of the ascending groove 16 so that the sliding shaft 13 can slide into the annular grooves 20 through the ascending groove 16 and can freely rotate in the annular grooves 20. As shown in fig. 8, a blind hole cavity is opened in the inner wall of one side of the outlet end of the ascending groove 16, a sliding tongue 19 capable of horizontally extending and contracting is installed in the blind hole cavity, one end of the sliding tongue 19 is connected with one end of a round spring 21, the other end of the round spring 21 is installed at the bottom of the blind hole cavity, only the end part of the sliding tongue 19 is exposed out of the blind hole cavity, one side of a sealing plate 18 is hinged on the inner wall of the outlet end of the ascending groove 16 opposite to the sliding tongue 19 in a damping manner, and the edge of the other side of the sealing plate 18 is provided with a depressed. When the sliding shaft device works, the sealing plate 18 is lapped on the sliding tongue 19 in a downward rotating trend under the action of the damping hinge, the end face of the sliding tongue 19 is attached to the concave part, and the sealing plate 18 can be pushed open to enable the sliding shaft 13 to enter the annular groove 20 when the sliding shaft 13 slides upwards in the ascending groove 16. Meanwhile, an accommodating cavity is formed in the surface of one side, close to the hinged position of the sealing plate 18, of the annular groove 20, the sealing plate 18 is pressed to the accommodating cavity after the sliding shaft 13 jacks the sealing plate 18, when the sliding shaft 13 enters the annular groove 20, the sliding shaft continues to rotate under the action of torque, the jacked sealing plate 18 is pressed to the accommodating cavity in a favorable mode, and the accommodating cavity is just filled up so as to maintain the stable road environment for the sliding shaft 13 to slide in the annular groove 20. In order to facilitate the movement of the sliding shaft 13, a roller 1301 can be installed outside the sliding shaft 13 to realize rolling fit, and the whole movement process is smoother and unimpeded.

As a specific implementation detail, the end surface of the end of the sliding tongue 19 extending out of the blind hole cavity is of a hemispherical structure, and the concave surface of the lower side of the concave part is in contact fit with the hemispherical end surface of the sliding tongue 19, so that the sealing plate 18 can enter the ascending groove 16 when being pressed down. The damping hinge, which is the most common form of construction and is available directly, uses the torsion opening of a torsion spring to control the position of the hinge axis 22 to ensure that the closure plate 18 rides on the sliding tongue 19. Furthermore, the damping hinge can also be designed as follows: the grinding disc comprises a hinge sleeve and a hinge shaft 22, the hinge shaft 22 is rotatably installed in the hinge sleeve, the hinge sleeve is fixedly connected with a sealing plate 18, one end of the hinge shaft 22, which extends out of the end face of the hinge sleeve, is connected with a pull rod 23 in a [ -shape as shown in fig. 13, the pull rod 23 can rotate along with the hinge shaft 22 in a cavity inside the grinding disc 7, the cavity inside the grinding disc 7 comprises an arc-shaped groove 25 which is not coplanar with the guide groove, one end of the pull rod 23 is positioned in the groove 25 and is in sliding fit with the groove 25, one end of the pull rod 23, which extends into the groove 25, is connected with an elastic pull rope fixedly connected in the groove 25, so that the sealing plate 18 can be pulled back to a position overlapped with the sliding tongue 19 after being pushed open, the structure is simple, easy to manufacture and maintain, and is suitable for the.

When the grinding disc type polishing machine works, the arc-shaped spring 14 in a compressed state realizes the stable installation of the sliding shaft 13 under the normal state, the sliding shaft 13 is arranged on the sliding shaft 13, one end of the sliding shaft 13 extends into the guide groove and is tightly attached and matched with the groove 17 in the guide groove, the downward pushing pressing force of the arc-shaped pressure spring is assisted, so that the connection transmission of the sliding shaft 13 and the grinding disc 7 is realized, the pressure of the grinding disc 7 extruded in the grinding disc 8 is overlarge, or when the coaxial alignment between the grinding disc 7 and the grinding disc 8 has errors, once the grinding disc 7 is clamped, the rotating rod 6 overcomes the elasticity of the arc-shaped pressure spring and the limiting resistance of the groove 17 to the rotating shaft under the huge input torque, so that the rotating shaft crosses the groove 17 and slides into the lifting groove 16, the sealing plate 18 is pushed open and overturned into the accommodating cavity of the annular groove 20, and smoothly goes into the annular groove 20 and continues to rotate along the annular groove 20, the sealing plate 18 automatically rebounds and is overlapped on the sliding tongue 19 due to the damping hinge effect to seal the outlet end of the ascending groove 16, therefore, the sliding shaft 13 can freely rotate in the annular groove 20, so that the rotating rod 6 can relatively rotate in the grinding disc 7, the rotating rod 6 is prevented from being blocked and damaged, after the driving device of the rotating rod 6 is stopped, the grinding disc 7 can be manually rotated, when the rotating rod 13 is rotated to the position where the sliding shaft 13 is communicated with the annular groove 20 and the ascending groove 16, the sliding shaft 13 pushes the sealing plate 18 downwards under the thrust of the arc-shaped spring 14, so that the sliding shaft slides into the ascending groove 16 and finally enters the concave groove 17 of the guiding groove to restore to the initial installation transmission position.

Secondly, the central authorities of the grinding discs 7 are connected with a rotating rod 6, the rotating rod 6 is coaxially inserted into the central authorities of the grinding discs 7 through an insertion hole, as shown in fig. 7, a curved chute is formed in the rod section of the rotating rod 6 inserted into the grinding discs 7, the top end of the chute is connected with one end of a curved pressure spring, the other end of the curved pressure spring extends downwards along the chute and is connected with a sliding shaft 13, the side wall of one end of the sliding shaft 13 is connected to the other end of the curved pressure spring, the other end of the sliding shaft extends out of the chute along the radial direction of the rotating rod 6 and extends into a guide groove on the inner wall of the insertion hole, and the sliding shaft 13 is always extruded downwards by the curved pressure. As shown in fig. 9, the guiding groove includes a buffer groove 15 and a lifting groove 16 connected with each other, the buffer groove 15 and the lifting groove 16 are arranged at an obtuse angle, and a groove 17 is arranged at the intersection between the buffer groove 15 and the lifting groove 16, the groove 17 is used for placing the end of the sliding shaft 13 and is kept in contact with the cylindrical surface of the sliding shaft 13, the sliding shaft 13 is always kept in contact fit with the groove 17 when the rotating rod 6 rotates normally, and when the grinding disc 7 is clamped and cannot rotate normally, the sliding shaft 13 slides upwards out of the groove 17 and slides upwards in the lifting groove 16 due to the rotation tendency of the rotating rod 6. A ring of annular grooves 20 are arranged on the inner wall of the jack above the guide groove, and the annular grooves 20 are communicated with the outlet of the ascending groove 16 so that the sliding shaft 13 can slide into the annular grooves 20 through the ascending groove 16 and can freely rotate in the annular grooves 20. As shown in fig. 10, a blind hole cavity is formed in an inner wall of one side at the outlet end of the rising groove 16, an ejection elastic member 190 capable of horizontally extending and retracting is installed in the blind hole cavity, the ejection elastic member 190 may be a spring, meanwhile, one end of the ejection elastic member 190 is connected with an elliptical strip 180 with an elliptical cross section, the length direction of the elliptical strip 180 is parallel to the axis of the sliding shaft 13, the length of the elliptical strip 180 is just suitable for the elliptical strip 180 to be located in the length direction in the outlet of the rising groove 16, one side of the elliptical strip 180 extends into the rising groove 16 under the action of the ejection elastic member 190, and can be extruded into the blind hole cavity to allow the sliding shaft 13 to normally pass when the sliding shaft 13 slides upwards. In order to facilitate the movement of the sliding shaft 13, a roller 1301 can be installed outside the sliding shaft 13 to realize rolling fit, and the whole movement process is smoother and unimpeded.

When the device works, the arc-shaped spring 14 in a compressed state realizes the stable installation of the sliding shaft 13 under the normal state, the sliding shaft 13 is arranged on the sliding shaft 13, one end of the sliding shaft 13 extends into the guide groove and is tightly matched with the groove 17 in the guide groove, the downward pushing pressing force of the arc-shaped pressure spring is assisted, the connection and transmission of the sliding shaft 13 and the grinding disc 7 are realized, the pressure of the grinding disc 7 extruded in the grinding dish 8 is overlarge, or when the coaxial alignment between the grinding disc 7 and the grinding dish 8 has errors, once the grinding disc 7 is blocked, the rotating rod 6 overcomes the elasticity of the arc-shaped pressure spring and the limiting resistance of the groove 17 to the rotating shaft under the huge input torque, so that the rotating shaft crosses the groove 17 and slides into the ascending groove 16, the oval strip 180 is extruded into the blind hole cavity, and smoothly crosses the annular groove 20, and the sliding shaft 13 can freely rotate in the annular groove 20, therefore, the rotating rod 6 can relatively rotate in the grinding disc 7, the rotating rod 6 is prevented from being blocked and damaged, the grinding disc 7 can be manually rotated after the driving device of the rotating rod 6 is stopped, when the rotating rod rotates to the position where the sliding shaft 13 is communicated with the annular groove 20 and the ascending groove 16, the sliding shaft 13 smoothly extrudes the oval piece under the thrust of the arc-shaped spring 14 and slides down to the ascending groove 16, and finally enters the concave groove 17 of the guide groove to recover to the initial installation transmission position.

For the above two structures, simultaneously, the present embodiment can also be designed as follows: as shown in fig. 11, the end of the arc spring 14 connected to the sliding shaft 13 is a crank portion 1401 which is bent and inclined toward one side of the buffer slot 15, and this crank portion 1401 makes the sliding shaft 13 not enter into the groove 17 when the sliding shaft is in a non-working state, i.e. not really reaching a stable contact transmission position with the grinding disc 7, at the beginning of starting the anti-twist Chinese herbal medicine grinding apparatus of this embodiment, the sliding shaft 13 first presses the crank portion 1401 of the arc spring 14, and then gradually pushes the sliding shaft 13 into the groove 17 to realize stable and reliable contact transmission, so that another buffer function of the buffer slot 15 is revealed, especially suitable for the case of telling grinding, and it is very good to avoid the rigid collision between the sliding shaft 13 and the grinding disc 7 at the moment of starting.

Thirdly, the rotating rod 6 is divided into an upper section and a lower section, as shown in fig. 12, a connecting claw 26 is fixedly connected to the lower end of the upper section rod, a connecting cavity with a longitudinal section in a T shape is formed in the bottom end of the connecting claw 26, a cavity opening of the connecting cavity extends towards the center to form an annular spigot 30, a disc 28 is fixedly connected to the top end of the lower section rod coaxially, the disc 28 is located in the connecting cavity, the disc 28 is connected with the cavity bottom of the connecting cavity through a heavy spring 27, the heavy spring 27 firmly supports the disc 28 against the end face of the spigot 30 to realize the integral connection and fixation of the rotating rod 6, and the heavy spring 27 at the moment can connect a friction plate matched with the disc 28 at the lower end. When the grinding disc is stuck in use, the torque overcomes the elastic force of the heavy spring 27, so that the disc 28 rotates and slips on the end face of the spigot 30, and the rotating rod 6 is prevented from being twisted off or other corresponding connecting parts are prevented from being worn when the grinding disc is overloaded. In actual manufacturing, preferably, a plurality of bolts 29 are screwed around the heavy spring 27 to increase the connection tightness of the two rod sections, so as to adapt to different torques, for example, in the case of needing to increase the torsion force of overload, the bolts 29 are screwed in, so that the disk 28 is tightly attached to the end face of the spigot 30, the integral connection of the rotating rod 6 is realized by the axial jacking force between the bolts 29 and the disk 28, at this time, the heavy spring 27 plays a role in assisting jacking, and mainly plays a role in fixing and installing the disk 28 in advance, so that the bolts 29 are screwed in later. Furthermore, it is also possible to initially connect the heavy spring 27 without abutting the disc 28 against the end face of the spigot 30, and connect the discs 28, and when the bolt 29 is provided, the bolt 29 pushes the disc 28 to elongate the heavy spring 27 during the screwing process, and the bolt 29 is fixed to the disc 28 by the pulling force of the heavy spring 27 rather than the former abutting force, so as to realize the integral connection of the rotating rod 6, without depending on the contact fit of the disc 28 with the end face of the spigot 30, and for the above structure, the bottom end face of the bolt 29 may be connected with a wear-resistant friction disc to fit with the disc 28.

On the other hand, in this embodiment, as shown in fig. 14 to 18, the grinding disc 7 includes a circular body 701, a plurality of sliding bars 702 sliding outwards along the radial direction of the body 701 are slidably fitted inside the body 701, all the sliding bars 702 are arranged around the center of the body 701 at intervals, one end of each sliding bar 702 extending into the body 701 is connected with a central column 705 at the center inside the body 701 through a telescopic spring 704, an engaging plate 703 is fitted and installed between two adjacent sliding bars 702 along the radial direction of the body 701, two sides of the engaging plate 703 respectively extend into one side edge of the two sliding bars 702 facing each other and are connected with a pressure-bearing spring 706 in each side edge, and two sides of the engaging plate 703 are not completely separated from the sliding bar 702 matching therewith all the time. When using, the tip of slide bar 702 can the flexible removal of self-adaptation because of the lateral wall contact with the grinding dish, all slide bars 702 are radial arrangement, connect into an annular plate structure through a plurality of linking plate 703, thereby realize the enlargement or the reduction of the area of grinding dish 7, make grinding dish 7 can press into the grinding dish under the variable mode of area in, thereby expand fully in the grinding dish, contact extrusion fully comprehensively with the medicine in the grinding dish, and take place the jamming when can prevent grinding dish 7 and grinding dish cooperation from a certain extent. In the above embodiment, as to whether a solid annular plate structure is required to be formed, it is determined according to the requirement, for example, the annular plate structure may be formed by surrounding a plurality of fan-shaped strip structures with a plurality of gaps along the radial direction, and the whole annular plate structure is not connected into a plate body.

Referring to fig. 14-18, as a specific implementation detail, for the convenience of sliding, the bottom end of the sliding bar 702 is coplanar with the bottom end of the body 701, the sliding bar 702 is in a T-shaped cross-sectional structure, and the sliding cavity portion in the body 701, which is slidably engaged with the sliding bar 702, is also in a T-shape. The end face of the end of the sliding strip 702 extending out of the body 701 is an arc surface, and the circle center of the arc surface coincides with the circle center of the body, so that the sliding strip can be matched with the inner wall of the grinding dish 8 to be sufficiently ground. In order to make the sliding bars 702 of the grinding disc 7 form a better annular plate structure after being unfolded, the cross section of the connecting plate 703 is in an I shape, sliding grooves on the sliding bars 702 for the sliding insertion of the side edges of the connecting plate 703 are in socket fit with the two upper sides of the I shape structure of the connecting plate 703, the pressure-bearing springs 706 are telescopically positioned in the sliding grooves, and the lower side walls of the sliding grooves are inserted into cavities 707 on the side surfaces of the connecting plate 703. In addition, the thickness of the two sides of the lower part of the I-shaped structure of the connecting plate 703 is 3-8mm, so that the height of the step between the connecting plate 703 and the bottom end face of the body 701 is reduced. Finally, the connection plate 703 is in a fan-shaped structure, the pressure-bearing spring 706 is a cylindrical spring, the elastically telescopic path of the connection plate is in an arc shape, and the circle center of the arc-shaped path falls on the circle center of the body 701, so that the connection integrity between the two sliding bars 702 can be better kept as the sliding bars 702 slide out.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a traditional chinese medical science internal medicine pressure grinds device, includes bottom plate (1), its characterized in that: the grinding disc grinding machine is characterized in that a mounting frame (2) is connected to the top end of the base plate (1), a mounting plate (3) is vertically and slidably connected into an opening of the mounting frame (2), an adjusting component (4) used for adjusting the height of the mounting plate (3) is arranged on the base plate (1), a connecting frame (5) is fixed to the top end of the mounting plate (3), a rotating rod (6) in the vertical direction is rotatably connected to the bottom end of the connecting frame (5), a grinding disc (7) is fixed to the bottom end of the rotating rod (6), and the rotating rod (6) is in overload slipping connection with the grinding disc (7) so that the rotating rod (6) can rotate relative to the grinding disc (7) when the grinding disc (7) is clamped and fixed in the grinding disc (8); the grinding pan (8) which is positioned under the grinding disc (7) is installed on the bottom plate (1) in a clamping mode, and a driving assembly (9) used for driving the rotating rod (6) to rotate is arranged on the mounting plate (3).

2. The traditional Chinese medicine internal medicine drug press grinding device according to claim 1, characterized in that: adjusting part (4) including vertical mounting panel (3) and with mounting panel (3) threaded connection's lead screw (41) that runs through, the top of lead screw (41) is fixed with hand wheel (42), and the bottom of lead screw (41) is passed through the bearing and is connected with bottom plate (1), be provided with on mounting bracket (2) and be used for carrying out the spacing subassembly of injecing the motion mode of mounting panel (3).

3. The traditional Chinese medicine internal medicine drug press grinding device according to claim 2, characterized in that: spacing subassembly is seted up including the symmetry and is located the spacing groove (10) of vertical direction in mounting bracket (2) inner wall both sides, the bilateral symmetry of mounting panel (3) is fixed with spacing groove (10) sliding connection's that corresponds stopper (11).

4. The traditional Chinese medicine internal medicine drug press grinding device according to claim 1, characterized in that: a limiting sleeve (12) is fixedly mounted on the bottom plate (1), and the grinding dish (8) is located in the limiting sleeve (12).

5. The traditional Chinese medicine internal medicine drug press grinding device according to claim 1, characterized in that: the grinding disc (7) is positioned below the mounting plate (3).

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