CN112275177A - Three-dimensional motion mixer is used in health products processing production - Google Patents

Abstract

The invention discloses a three-dimensional motion mixer for processing and producing health care products, which comprises a mixer, a mixing barrel and a negative pressure base, wherein the negative pressure base is arranged at the lower end of the mixer, a telescopic mechanism is arranged in the mixer and is rotationally connected with the mixing barrel, the telescopic mechanism enables the mixing barrel to move in multiple directions, and a power conversion assembly is arranged in the negative pressure base and converts vibration energy into mechanical energy. Mix the inside telescopic machanism that is provided with of machine, telescopic machanism turns into the concertina movement with circular motion, and telescopic machanism drives the mixing drum through circular motion and concertina movement simultaneously and carries out diversified motion, makes the mixing drum mix the raw materials, and telescopic machanism realizes the diversified motion of mixing drum through circular motion and concertina movement for the atress of mixing drum and the articulated department of telescopic machanism diminishes, and then has reduced the probability that articulated department breaking accident takes place.

Description

Three-dimensional motion mixer is used in health products processing production

Technical Field

The invention relates to the technical field of three-dimensional mixers, in particular to a three-dimensional motion mixer for processing and producing health care products.

Background

Functional foods are sometimes called health food, but in academic and scientific research, they are more scientific. Functional food (Functional food) refers to food with specific nutrition and health care functions, i.e. food which is suitable for specific people to eat, has the function of regulating the body and does not aim at treatment.

The three-dimensional motion mixer is widely applied to pharmacy, chemical industry, food, light industry, electronics, machinery, mining and metallurgy, national defense industry and scientific research units, has the advantage of high-uniformity mixing of powdery and granular materials, ensures that the materials have no centrifugal force action and have no specific gravity segregation, layering and accumulation phenomena due to multidirectional motion of a mixing cylinder of the three-dimensional motion mixer, ensures that the mixing rate of each component reaches more than 99.9 percent, and is an ideal product in various current mixers.

However, when the three-dimensional motion mixer works, the charging barrel needs to be rotated in multiple directions, so that the equipment has large vibration, the working noise is large, and the working environment is poor. Although some existing three-dimensional motion mixing machines are provided with brackets with damping effect on two sides or bases with damping effect on the bottom, with the continuous vibration of the three-dimensional mixing machine, the vibration energy is transmitted to the ground, so that the connection between the brackets and the bases and the ground is loosened, and the three-dimensional motion mixing machine generates larger vibration; the base or the support is directly fixed on the ground through bolts, and the base or the support does not have the function of being fixed with the ground.

Disclosure of Invention

The invention aims to provide a three-dimensional motion mixer for processing and producing health care products, which solves the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: a three-dimensional motion mixer for processing and producing health care products comprises a mixer, a mixing barrel and a negative pressure base, wherein the negative pressure base is arranged at the lower end of the mixer, a telescopic mechanism is arranged in the mixer and is rotationally connected with the mixing barrel, the telescopic mechanism enables the mixing barrel to move in multiple directions, a power conversion assembly is arranged in the negative pressure base, and the power conversion assembly converts vibration energy into mechanical energy; mix the inside telescopic machanism that is provided with of machine, telescopic machanism turns into the concertina movement with circular motion, and telescopic machanism drives the mixing drum through circular motion and concertina movement simultaneously and carries out diversified motion, makes the mixing drum mix the raw materials, and telescopic machanism realizes the diversified motion of mixing drum through circular motion and concertina movement for the atress of mixing drum and the articulated department of telescopic machanism diminishes, and then has reduced the probability that articulated department breaking accident takes place.

According to a preferred technical scheme, the telescopic mechanism comprises two groups of driving discs, two groups of turning discs and two groups of telescopic shafts, the two groups of driving discs and the two groups of turning discs are symmetrically arranged on a mixing machine, a motor is arranged between the two groups of driving discs in the mixing machine and is rotationally connected with the two groups of driving discs, one end of each group of telescopic shafts is arranged on the driving discs, the other end of each group of telescopic shafts is rotationally connected with the turning discs, and one end, far away from the turning discs, of each group of telescopic shafts is rotationally connected with a mixing cylinder; the motor drives the driving discs to rotate in the mixer, the rotation directions of the two groups of driving discs are opposite, the driving discs drive the telescopic shafts to do circular motion through rotation, the telescopic shafts are connected with the turning discs through the other ends in a rotating way to obtain telescopic power, and the two groups of telescopic shafts drive the mixing cylinder to move in multiple directions through circular motion, telescopic motion and rotary connection with the mixing cylinder, thereby mixing the internal raw materials in the mixing cylinder, realizing the multidirectional movement of the mixing cylinder through the circular movement and the telescopic action of the telescopic shaft without rotating the telescopic shaft, the hinge pin of articulated department does not have the power of a plurality of directions between telescopic shaft and the mixing drum promptly to make the cracked probability of round pin axle reduce, and then realize that the three-dimensional probability that mixes the machine and send the incident reduces.

According to a preferable technical scheme, the mixing barrel comprises an outer mixing barrel, clamping pieces are arranged at two ends of the inner portion of the outer mixing barrel, an inner mixing barrel is arranged in the outer mixing barrel, and the clamping pieces clamp the inner mixing barrels with different sizes through the shrinkage of the clamping pieces per se; outer mixing drum and telescopic shaft are rotated and are connected, outer mixing drum carries out the centre gripping to the interior mixing drum of unidimensional through the holder at both ends, thereby make the mixing drum can mix the raw materials of different weight, change according to how much and interior mixing drum size of mixing raw materials, make the inner space of interior mixing drum obtain rational utilization, and change between a plurality of interior mixing drums, make the three-dimensional machine that mixes the raw materials that can be continuous, improved the mixing efficiency to the raw materials.

According to a preferable technical scheme, the negative pressure base comprises an upper base and a lower base, the upper base is fixed with the mixing machine, at least two groups of rotating grooves are formed in the lower end face of the upper base, annular limiting grooves are formed in the lower end face of the upper base, which is located on the outer side of the rotating grooves, limiting plates are arranged on the upper end face of the lower base, which corresponds to the limiting grooves, and the limiting plates are located in the limiting grooves; go up base and mix quick-witted fixed connection together, lower base is fixed with ground, goes up and rotates between base and the lower base to be connected, and lower base internally mounted power rotating assembly, power conversion subassembly turns into the vibrations energy of last base transmission mechanical energy, exists the shock attenuation between last base and the lower base.

As a preferred technical scheme, the power conversion assembly comprises at least two groups of rotating shafts, at least two groups of resistance discs and a collecting box; the position that corresponds every group rotation groove on the base all is provided with the axis of rotation down, the axis of rotation upper end is located the rotation inslot, and the base inside is located every group axis of rotation lower extreme and all is provided with the resistance dish down, the resistance dish is fixed with the axis of rotation, the inside middle part position of base is provided with concentrated case down, concentrated case and every group axis of rotation rope connection. The axis of rotation is shaken at last base and is rotated to drive the inside rotation of resistance dish, the inside elasticity through air resistance and spring of resistance dish can carry out the shock attenuation to the vibrations, when the axis of rotation rotates, the axis of rotation passes through the rotation of rope pulling concentrated incasement portion structure, and the kinetic energy when concentrated case drives the axis of rotation turns into mechanical energy, and makes inside extraction pump work through mechanical energy, makes the extraction pump take in the air.

According to a preferable technical scheme, the telescopic shaft comprises a walking disc and a shaft sleeve, the walking disc is rotatably connected with the turning disc, the shaft sleeve is fixed with the driving disc, the walking disc is rotatably connected with the shaft sleeve, a lead screw is arranged at one end of the walking disc, which is rotatably connected with the shaft sleeve, a transmission plate is arranged in the shaft sleeve, the transmission plate is rotatably connected with the lead screw, an inner shaft is arranged at one end, which is far away from the walking disc, of the transmission plate, a universal ball is arranged at the other end of the inner shaft, and the universal ball is rotatably connected with the outer mixing barrel through a. The axle sleeve rotates under the drive of initiative dish, and make the walking dish walk in the diversion dish, the walking dish makes the lead screw rotate in the axle sleeve through the walking, and make the driving plate drive interior axle through the lead screw transmission and outwards stretch out or inwards contract, thereby realize the flexible of telescopic shaft, drive the circular motion of telescopic shaft through the initiative dish, and the concertina movement of telescopic shaft, realize the motion in two positions of mixing drum, and combine universal ball to pass through the connecting rod and be connected with the rotation of mixing drum once more, make the mixing drum produce the motion in another position once more, and then realized the three-dimensional hybrid motion of mixing drum.

As preferred technical scheme, the inside negative pressure dish that is provided with of lower base, the negative pressure dish is located the middle part position of lower base, it has seted up logical groove to lie in negative pressure dish below in the lower base, negative pressure dish lower extreme is fixed with logical inslot wall, just the negative pressure dish outside is provided with annular extension pad, it is a whole with the negative pressure dish to extend the pad, it is located the lower terminal surface of lower base to extend the pad, the negative pressure dish is connected with the header tank pipeline. Lower base passes through the bolt fastening subaerial, and mutually support with ground and extrude extending the pad, extend and fill up the damping cushioning effect between base and the ground down, and negative pressure dish and header pipe connection, the air in the negative pressure dish is got to the extraction pump of header inside portion, make the inside negative pressure that produces of negative pressure dish, make lower base adsorb ground through the negative pressure dish, and extend and fill up and be a whole with the negative pressure dish, make the absorption scope increase of negative pressure dish, and extend the leakproofness of filling up when increasing the absorption of negative pressure dish under the extruded effect, increase and be connected between base and the ground down, thereby increase the firmness of being connected between negative pressure base and the ground.

As a preferred technical scheme, threads are formed in each group of the rotating grooves, and each group of the rotating shafts is provided with threads; every group the inside fixed plate of three groups that all is provided with of resistance dish, the axis of rotation is located the inside one end of resistance dish and is provided with three compression plates of group, each group the compression plate all is located between two sets of fixed plates, and every compression plate of group all rotates with the resistance dish to be connected, and compact connection between compression plate and the resistance dish, every group the both sides of compression plate all are provided with the spring, both sides the spring is fixed with the fixed plate of compression plate both sides respectively. The axis of rotation rotates when last base takes place vibrations, and drive the compression board and rotate in the resistance dish, the rotation of compression board makes the inside air of resistance dish compressed, make the spring internal compression of one side, the spring of opposite side is stretched, the compression of air produces the resistance to the rotation of compression board, and two sets of springs mutually support and also produce the resistance to the rotation of compression board, three group's compression boards shrink simultaneously and rotate the resistance and transmit to in the axis of rotation, and then make the axis of rotation receive the rotation resistance, and then make the vibration amplitude or the vibration frequency of going up the base reduce, thereby play the damping effect.

As preferred technical scheme, be provided with winding box, extraction pump in the case of concentrating, winding box is fixed with the case inner wall of concentrating, just be provided with rolling disc and pivot in the winding box, the middle part position of rolling disc up end has seted up the circular slot, the pivot runs through the middle part position of rolling disc, be provided with the wind spring in the circular slot, the one end at wind spring center is fixed with the pivot, and the winding of the rolling disc outside has at least two sets of ropes, and every group rope all runs through winding box and concentrating case and fixed with the axis of rotation, the pivot lower extreme is provided with first runner, be provided with the second runner on the extraction pump, first runner rotates with the second runner and is connected, the extraction pump is connected with the negative pressure coil pipeline.

As a preferred technical scheme, a ring groove is formed in one side end face, close to the driving disc, of each group of the turning discs, each ring groove comprises an outer side wall and an inner side wall, gear teeth are formed in one half wall face of each outer side wall, gear teeth are also formed in one half wall face of each inner side wall, and the gear teeth on the outer side wall and the gear teeth on the inner side walls are distributed in two opposite directions of the turning discs; the walking disc is positioned in the annular groove, and a gear groove is formed in the walking disc. When the walking dish was walked in the annular, when the walking dish meshed with the teeth of a cogwheel on the lateral wall, the walking dish corotation was carried out, when meshing with the teeth of a cogwheel on the inside wall, carries out the reversal, and the walking dish is through incessantly walking in the annular, has realized constantly stretching out or the shrink of telescopic shaft, and then has realized the motion of mixing drum in one position.

As a preferred technical scheme, linkage rings are arranged at two ends of the outer side of the outer mixing cylinder, and the two groups of linkage rings are rotationally connected with a universal ball through connecting rods; every group the axis of rotation upper end all is provided with the spring, the other end of spring all is fixed with the rotation groove.

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

1. mix the inside telescopic machanism that is provided with of machine, telescopic machanism turns into concertina movement with circular motion, and telescopic machanism drives the mixing drum through circular motion and concertina movement and carries out diversified motion simultaneously, makes the mixing drum mix the raw materials. And the telescopic shaft among the telescopic machanism can realize the diversified motion of mixing drum through circular motion and flexible action, and the telescopic shaft need not rotate, does not have the power of a plurality of directions promptly on the round pin axle of articulated department between telescopic shaft and the mixing drum to make the cracked probability of round pin axle reduce, and then realize that the probability that three-dimensional mixer sent the incident reduces.

2. When the negative pressure base shakes, the negative pressure base can turn into mechanical energy with the vibrations, and draw the air in the negative pressure dish through the extraction pump, make the inside negative pressure that produces of negative pressure dish, make the lower base adsorb ground through the negative pressure dish, and extend and fill up and be a whole with the negative pressure dish, make the absorption scope increase of negative pressure dish, and extend the leakproofness of filling up when increasing the absorption of negative pressure dish under extruded effect, be connected between base and the ground under the increase, thereby increase the firmness of being connected between negative pressure base and the ground, and then avoid being connected between base and the ground to produce not hard up.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a front schematic view of the overall structure of the present invention;

FIG. 2 is a top plan view of the overall structure of the present invention;

FIG. 3 is a schematic view of the structure of the negative pressure base of the present invention;

FIG. 4 is a schematic top view of the sub-mount of the present invention;

FIG. 5 is a schematic view of the construction of the telescopic shaft of the present invention;

FIG. 6 is a schematic view of the construction of the direction-changing disk of the present invention;

FIG. 7 is a schematic view of a half-section of the walking plate of the present invention;

FIG. 8 is a schematic view of the internal structure of the resistance disc of the present invention;

fig. 9 is a schematic view of the mixing drum configuration of the present invention.

In the figure: 1. a mixer; 2. a mixing drum; 3. a negative pressure base; 1-1, a driving disc; 1-2, a direction-changing disc; 1-3, a telescopic shaft; 1-4, a motor; 1-31, a walking disc; 1-32, shaft sleeve; 1-33, a transmission plate; 1-34, a screw rod; 1-35, inner shaft; 1-36, universal ball; 2-1, an outer mixing cylinder; 2-2, an inner mixing cylinder; 2-4, a clamping piece; 3-1, mounting a base; 3-2, a lower base; 3-3, limiting plates; 3-4, a rotating shaft; 3-5, a resistance disc; 3-6, a negative pressure plate; 3-7, a concentration box; 3-8, winding the box; 3-9, a suction pump; 3-41, compression plate; 3-51 and a fixing plate.

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.

Referring to fig. 1 to 9, the present invention provides a technical solution: the utility model provides a health products processing production mixes machine with three-dimensional motion, this three-dimensional motion mixes machine and includes that mix machine 1, mixing cylinder 2, negative pressure base 3, mixes 1 lower extreme of machine and installs negative pressure base 3, mixes 1 internally mounted of machine and has telescopic machanism, and telescopic machanism rotates with mixing cylinder 2 to be connected, and telescopic machanism makes 2 diversified movements of mixing cylinder, and 3 internally mounted of negative pressure base have power conversion subassembly, and power conversion subassembly turns into the mechanical energy with the vibrations energy.

The telescopic mechanism comprises two groups of driving discs 1-1, two groups of turning discs 1-2 and two groups of telescopic shafts 1-3, the two groups of driving discs 1-1 and the two groups of turning discs 1-2 are symmetrically arranged on the mixer 1, the driving discs 1-1 are positioned on the machine body of the mixer 1, and the outer side of the driving disk 1-1 is provided with a gear groove, the motor 1-4 is arranged between the two groups of driving disks 1-1 in the mixer 1, the two groups of driving disks 1-1 in the mixer 1 are provided with linkage grooves, the motor shaft of the motor 1-4 is provided with a gear, the gear is positioned in the linkage groove and is rotationally connected with the driving discs 1-1, the motor 1-4 is rotationally connected with the two groups of driving discs 1-1 through the gear, and the turning disc 1-2 is fixed in the mixer 1 and is positioned behind the driving discs 1-1.

Each group of turning discs 1-2 is provided with a ring groove on one side end face close to the driving disc 1-1, each ring groove comprises an outer side wall and an inner side wall, gear teeth are arranged on one half wall face of each outer side wall, gear teeth are also arranged on one half wall face of each inner side wall, and the gear teeth on the outer side wall and the gear teeth on the inner side wall are distributed in two opposite directions of the turning discs 1-2.

The telescopic shaft 1-3 comprises a walking disc 1-31 and a shaft sleeve 1-32, the walking disc 1-31 is rotatably connected with a direction-changing disc 1-2, the shaft sleeve 1-32 is fixed with a driving disc 1-1, the walking disc 1-31 is rotatably connected with the shaft sleeve 1-32, a screw rod 1-34 is fixed at one end of the walking disc 1-31, which is rotatably connected with the shaft sleeve 1-32, a transmission plate 1-33 is slidably mounted in the shaft sleeve 1-32, the transmission plate 1-33 is rotatably connected with the screw rod 1-34, an inner shaft 1-35 is fixed at one end of the transmission plate 1-33, which is far away from the walking disc 1-31, and a universal ball 1-36 is rotatably mounted at the other end of the inner shaft.

The traveling discs 1-31 are positioned in the ring grooves, the gear grooves are formed in the traveling discs 1-31, when the traveling discs 1-31 travel in the ring grooves, the traveling discs 1-31 rotate forwards and the inner shafts 1-35 extend out of the shaft sleeves 1-32 when the traveling discs 1-31 are meshed with gear teeth on the outer side walls, the traveling discs 1-31 rotate backwards and the inner shafts 1-35 retract into the shaft sleeves 1-32 when meshed with the gear teeth on the inner side walls, and the traveling discs 1-31 continuously travel in the ring grooves to realize continuous extension or retraction of the telescopic shafts 1-3, so that the mixing drum 2 moves in one direction.

The mixing cylinder 2 comprises an outer mixing cylinder 2-1, clamping pieces 2-4 are arranged at two ends of the inner portion of the outer mixing cylinder 2-1, a detachable inner mixing cylinder 2-2 is arranged in the outer mixing cylinder 2-1, and the clamping pieces 2-4 clamp the inner mixing cylinders 2-2 with different sizes through shrinkage of the sizes of the clamping pieces 2-4.

Two ends of the outer side of the outer mixing barrel 2-1 are fixed with linkage rings, two groups of linkage rings are rotatably provided with connecting rods, and the other ends of the connecting rods are welded with the universal balls 1-36.

The clamping piece 2-4 is a device for clamping the mixing drum 2-2 in different sizes by shrinking the length of the clamping piece, such as: the spring, the front end installs the backup pad, the inside installs the cylinder that supports the spring, has the subassembly of shrink function through several groups connecting rod constitution etc. preferably the spring in this embodiment.

The negative pressure base 3 comprises an upper base 3-1 and a lower base 3-2, the upper base 3-1 is fixed with the mixer 1, six groups of rotating grooves are formed in the lower end face of the upper base 3-1, threads are formed in each group of rotating grooves, an annular limiting groove is formed in the outer side, located on the rotating groove, of the lower end face of the upper base 3-1, a limiting plate 3-3 is fixed on the upper end face of the lower base 3-2 corresponding to the limiting groove, and the limiting plate 3-3 is located in the limiting groove.

The power conversion assembly comprises six groups of rotating shafts 3-4, six groups of resistance discs 3-5 and a concentration box 3-7, and each group of rotating shafts 3-4 is provided with a thread;

the lower base 3-2 is rotatably provided with a rotating shaft 3-4 at the position corresponding to each group of rotating grooves, the upper end of the rotating shaft 3-4 is positioned in the rotating grooves, the upper end of each group of rotating shafts 3-4 is rotatably connected with a spring, and the other end of the spring is fixed with the rotating grooves.

The lower end of each group of rotating shafts 3-4 in the lower base 3-2 is fixedly provided with a resistance disc 3-5, the lower end of each rotating shaft 3-4 is positioned in the resistance disc 3-5, the resistance discs 3-5 are fixed with the rotating shafts 3-4, three groups of fixed plates 3-51 are fixed in each group of resistance discs 3-5, one end of each rotating shaft 3-4 positioned in the resistance disc 3-5 is fixedly provided with three groups of compression plates 3-41, each group of compression plates 3-41 is positioned between the two groups of fixed plates 3-51, each group of compression plates 3-41 is rotatably connected with the resistance disc 3-5, and the compression plates 3-41 are compactly connected with the resistance discs 3-5, springs are fixed on both sides of each group of compression plates 3-41, and the springs on both sides are respectively fixed with the fixing plates 3-51 on both sides of the compression plates 3-41.

A concentration box 3-7 is fixed at the middle position in the lower base 3-2, a winding box 3-8 and an extraction pump 3-9 are fixed in the concentration box 3-7, the winding box 3-8 is fixed with the inner wall of the concentration box 3-7, a rotary disc and a rotary shaft (not shown in the figure) are installed in the winding box 3-8, a circular groove is formed in the middle position of the upper end face of the rotary disc, the rotary shaft penetrates through the middle position of the rotary disc and is fixed with the rotary disc, a coil spring is installed in the circular groove, one end of the center of the coil spring is fixed with the rotary shaft, a support is welded in the range of the circular groove in the winding box 3-8 and is fixed with one end of the outer side of the coil spring, six groups of ropes are wound on the outer side of the rotary disc, each group of ropes penetrates through the winding box and the concentration box and is fixed with one group of rotary, the second rotating wheel is arranged on the extraction pump 3-9 and located at the position where the pump is provided with the paddle, the first rotating wheel is rotatably connected with the second rotating wheel, the second rotating wheel is of a wheel structure, and the extraction pump 3-9 can only pump outwards through the arrangement of the wheel structure of the second rotating wheel.

The negative pressure plate 3-6 is arranged in the lower base 3-2, the negative pressure plate 3-6 is positioned in the middle of the lower base 3-2, a through groove is formed in the lower portion of the negative pressure plate 3-6 in the lower base 3-2, the lower end of the negative pressure plate 3-6 is fixed with the inner wall of the through groove, an annular extending pad is connected to the outer side of the negative pressure plate 3-6, the extending pad and the negative pressure plate 3-6 are integrated, the extending pad is positioned on the lower end face of the lower base 3-2, the upper end of the negative pressure plate 3-6 is connected with a suction pump 3-9 in the concentration box 3-7 through a pipeline, a check valve is arranged in the pipeline, and the negative pressure plate 3-6 can only give vent air outwards through.

The working principle of the invention is as follows:

an inner mixing barrel 2-2 containing raw materials is placed in an outer mixing barrel 2-1, a clamping piece 2-4 in the outer mixing barrel 2-1 clamps the inner mixing barrel 2-2, after the mixing barrel 2 is assembled, a motor 1-4 is started, a driving disc 1-1 drives a telescopic shaft 1-3 to perform circular motion, and the telescopic shaft 1-3 performs circular motion, so that the mixing barrel 2 performs vertical and horizontal motion.

When the telescopic shaft 1-3 performs circular motion, the walking disc 1-31 is meshed with the gear teeth inside the direction-changing disc 1-2 to rotate, so that the inner shaft 1-35 continuously extends out and retracts in the shaft sleeve 1-32, the mixing cylinder 2 performs front and back motion, and the universal balls 1-36 are rotationally connected with the mixing cylinder 2 through the connecting rods, so that the motion distance of the mixing cylinder 2 is lengthened due to the length of the connecting rods.

When the mixing drum 2 is driven by the mixing machine 1 to work, the mixing machine 1 generates vibration and transmits the vibration to the upper base 3-1, so that the upper base 3-1 vibrates up and down, when the upper base 3-1 vibrates down, the rotating shaft 3-4 is driven by the extrusion of the upper base 3-1 to rotate, air in the resistance disc 3-5 is compressed through the compression plate 3-41, the resistance disc 3-5 generates resistance to the rotation of the rotating shaft 3-4 through the compression resistance of the air and the elasticity and the tensile force of the spring, and further the vibration amplitude or the vibration frequency of the upper base 3-1 is reduced, and the vibration absorption effect is achieved.

When the rotating shafts 3-4 rotate, the six groups of rotating shafts 3-4 pull the rotating discs in the winding boxes 3-8 to rotate through the ropes, so that the rotating shafts drive the second rotating wheels to rotate through the first rotating wheels, the extraction pumps 3-9 extract air in the negative pressure discs 3-6, negative pressure is generated in the negative pressure discs 3-6, and accordingly external atmosphere extrudes the lower base 3-2, and the firmness of connection between the lower base 3-2 and the ground is improved.

When the upper base 3-1 vibrates upwards, the rotating shaft 3-4 rotates reversely, air in the resistance disc 3-5 is still compressed, the spring in the resistance disc is compressed and stretched, and the resistance disc 3-5 still generates resistance to the rotation of the rotating shaft 3-4, so that the vibration amplitude and the vibration frequency of the upper base 3-1 during the upward vibration are reduced.

When the rotating shaft 3-4 rotates reversely, the rope is withdrawn by the rotating disc through the release of the coil spring, and the rotating shaft drives the first rotating wheel to rotate reversely, at the moment, the second rotating wheel is of a chaste wheel structure, so that the suction pump 3-9 does not infuse air into the negative pressure disc 3-6.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a health products processing production mixes machine with three-dimensional motion which characterized in that: the three-dimensional motion mixer comprises a mixer (1), a mixing barrel (2) and a negative pressure base (3), wherein the negative pressure base (3) is arranged at the lower end of the mixer (1), a telescopic mechanism is arranged in the mixer (1) and is rotatably connected with the mixing barrel (2), the telescopic mechanism enables the mixing barrel (2) to move in multiple directions, and a power conversion assembly is arranged in the negative pressure base (3) and converts vibration energy into mechanical energy;

the telescopic mechanism comprises two groups of driving discs (1-1), two groups of turning discs (1-2) and two groups of telescopic shafts (1-3), the two groups of driving discs (1-1) and the two groups of turning discs (1-2) are symmetrically arranged on the mixer (1), a motor (1-4) is arranged between the two groups of driving discs (1-1) in the mixer (1), the motor (1-4) is rotationally connected with two groups of driving discs (1-1), one end of each group of telescopic shafts (1-3) is arranged on the driving discs (1-1), the other end of each group of telescopic shafts (1-3) is rotationally connected with the turning discs (1-2), and one end, far away from the turning discs (1-2), of each group of telescopic shafts (1-3) is rotationally connected with the mixing drum (2);

the mixing cylinder (2) comprises an outer mixing cylinder (2-1), clamping pieces (2-4) are arranged at two ends of the inner part of the outer mixing cylinder (2-1), an inner mixing cylinder (2-2) is arranged in the outer mixing cylinder (2-1), and the clamping pieces (2-4) clamp the inner mixing cylinders (2-2) with different sizes through the shrinkage of the sizes of the clamping pieces (2-4);

the negative pressure base (3) comprises an upper base (3-1) and a lower base (3-2), the upper base (3-1) is fixed with the mixer (1), at least two groups of rotating grooves are formed in the lower end face of the upper base (3-1), an annular limiting groove is formed in the outer side, located on the rotating groove, of the lower end face of the upper base (3-1), a limiting plate (3-3) is arranged at the position, corresponding to the limiting groove, of the upper end face of the lower base (3-2), and the limiting plate (3-3) is located in the limiting groove;

the power conversion assembly comprises at least two groups of rotating shafts (3-4), at least two groups of resistance discs (3-5) and a concentration box (3-7); the lower base (3-2) is provided with a rotating shaft (3-4) at a position corresponding to each group of rotating grooves, the upper end of the rotating shaft (3-4) is located in each rotating groove, a resistance disc (3-5) is arranged at the lower end of each group of rotating shafts (3-4) inside the lower base (3-2), the resistance discs (3-5) are fixed with the rotating shafts (3-4), a concentration box (3-7) is arranged at the middle position inside the lower base (3-2), and the concentration box (3-7) is connected with each group of rotating shafts (3-4) through ropes.

2. The three-dimensional motion mixer for processing and producing health products of claim 1, wherein: the telescopic shaft (1-3) comprises a walking disc (1-31) and a shaft sleeve (1-32), the walking disc (1-31) is rotatably connected with a turning disc (1-2), the shaft sleeve (1-32) is fixed with a driving disc (1-1), the walking disc (1-31) is rotatably connected with the shaft sleeve (1-32), one end of the walking disc (1-31) rotatably connected with the shaft sleeve (1-32) is provided with a screw rod (1-34), a transmission plate (1-33) is arranged in the shaft sleeve (1-32), the transmission plate (1-33) is rotatably connected with the screw rod (1-34), one end of the transmission plate (1-33) far away from the walking disc (1-31) is provided with an inner shaft (1-35), the other end of the inner shaft (1-35) is provided with a universal ball (1-36), the universal ball (1-36) is rotationally connected with the outer mixing barrel (2-1) through a connecting rod.

3. The three-dimensional motion mixer for processing and producing health products of claim 2, wherein: the improved structure of the solar water heater is characterized in that a negative pressure plate (3-6) is arranged inside the lower base (3-2), the negative pressure plate (3-6) is located in the middle of the lower base (3-2), a through groove is formed in the lower portion of the lower base (3-2) and located below the negative pressure plate (3-6), the lower end of the negative pressure plate (3-6) is fixed to the inner wall of the through groove, an annular extending pad is arranged on the outer side of the negative pressure plate (3-6), the extending pad and the negative pressure plate (3-6) are integrated, the extending pad is located on the lower end face of the lower base (3-2), and the negative pressure plate (3-6) is connected with a centralized box (3-7) through a pipeline.

4. The three-dimensional motion mixer for processing and producing health products of claim 3, wherein: threads are arranged in each group of the rotating grooves, and each group of the rotating shafts (3-4) is provided with threads; three groups of fixing plates (3-51) are arranged in each group of resistance discs (3-5), three groups of compression plates (3-41) are arranged at one end, located inside the resistance discs (3-5), of the rotating shaft (3-4), each group of compression plates (3-41) are located between two groups of fixing plates (3-51), each group of compression plates (3-41) are rotatably connected with the resistance discs (3-5), the compression plates (3-41) are compactly connected with the resistance discs (3-5), springs are arranged on two sides of each compression plate (3-41), and the springs on two sides are respectively fixed with the fixing plates (3-51) on two sides of the compression plates (3-41).

5. The three-dimensional motion mixer for processing and producing health products of claim 4, wherein: the winding box (3-8) and the extraction pump (3-9) are arranged in the concentration box (3-7), the winding box (3-8) is fixed with the inner wall of the concentration box (3-7), and the winding boxes (3-8) are internally provided with a rotating disc and a rotating shaft, the middle part of the upper end surface of the rotating disc is provided with a circular groove, the rotating shaft penetrates through the middle position of the rotating disc, a coil spring is arranged in the circular groove, one end of the center of the coil spring is fixed with the rotating shaft, at least two groups of ropes are wound on the outer side of the rotating disc, each group of ropes penetrates through the winding box and the concentration box and is fixed with a rotating shaft (3-4), the lower end of the rotating shaft is provided with a first rotating wheel, the extraction pump (3-9) is provided with a second rotating wheel, the first rotating wheel is rotatably connected with the second rotating wheel, and the extraction pump (3-9) is connected with the negative pressure plate (3-6) through a pipeline.

6. The three-dimensional motion mixer for processing and producing health products of claim 5, wherein: each group of turning discs (1-2) is provided with a ring groove on one side end surface close to the driving disc (1-1), each ring groove comprises an outer side wall and an inner side wall, gear teeth are arranged on one half wall surface of the outer side wall, gear teeth are also arranged on one half wall surface of the inner side wall, and the gear teeth on the outer side wall and the gear teeth on the inner side wall are distributed in two opposite directions of the turning discs (1-2); the walking discs (1-31) are positioned in the ring grooves, and gear grooves are formed in the walking discs (1-31).

7. The three-dimensional motion mixer for processing and producing health products of claim 6, wherein: two ends of the outer side of the outer mixing cylinder (2-1) are provided with linkage rings, and the two groups of linkage rings are rotatably connected with universal balls (1-36) through connecting rods; and the upper end of each group of the rotating shafts (3-4) is provided with a spring, and the other end of each spring is fixed with the rotating groove.

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