CN114100443B - Powder mixer for producing cartilage powder - Google Patents

Abstract

The invention relates to the field of mixing equipment, in particular to a powder mixing machine for producing cartilage powder, which comprises a powder mixing cylinder mechanism, a mixing and stirring mechanism, a driving mechanism, a displacement transmission mechanism and a box shell, wherein the powder mixing cylinder mechanism is arranged on the shell; two powder mixing cylinder mechanisms are arranged, and one ends of the two powder mixing cylinder mechanisms relatively slide in a horizontal slide way on one side of the box shell; two mixing and stirring mechanisms are arranged, and one ends of the two mixing and stirring mechanisms are rotatably connected in the two powder mixing barrel mechanisms; the other ends of the two mixing and stirring mechanisms relatively slide in a horizontal slideway on the other side of the box shell; the driving mechanism is in transmission connection with the two mixing and stirring mechanisms so as to drive the two mixing and stirring mechanisms to mix and stir the powder in the two powder mixing barrel mechanisms; in the mixing process, not only mix and stir the mechanism and rotate the stirring in mixing powder barrel mechanism, mix powder barrel mechanism and can also rotate and the motion of rocking of horizontal direction, the cooperation of multiple motion can effectively improve the mixed effect to multiple raw materials in mixing powder barrel mechanism.

Description

Powder mixer for producing cartilage powder

Technical Field

The invention relates to the field of mixing equipment, in particular to a powder mixer for producing cartilage powder.

Background

Cartilage is connective tissue, is composed of cartilage tissue and surrounding cartilage membrane, has slight elasticity, and has the functions of supporting weight, reducing friction, buffering, protecting, etc. in the body. Cartilage is mainly composed of water, collagen, proteoglycan and non-collagenous proteins, and is rich in nutrition. Also contains active substances such as small molecule peptide and viscous polysaccharide. Is an important resource for relieving the human cartilage dystrophy and delaying or improving the degenerative osteoarthropathy. In the production process of the cartilage powder, a powder mixer is required to be used for mixing various raw materials, but the powder mixer in the prior art has a single function and cannot perform other treatments on the raw materials.

Disclosure of Invention

The invention aims to provide a powder mixer for producing cartilage powder, which can effectively solve the problems in the prior art.

The purpose of the invention is realized by the following technical scheme:

the powder mixing machine for producing the cartilage powder comprises a powder mixing cylinder mechanism, a mixing and stirring mechanism, a driving mechanism, a displacement transmission mechanism and a box shell; two powder mixing cylinder mechanisms are arranged, and one ends of the two powder mixing cylinder mechanisms relatively slide in a horizontal slide way on one side of the box shell; two mixing and stirring mechanisms are arranged, and one ends of the two mixing and stirring mechanisms are rotatably connected in the two powder mixing barrel mechanisms; the other ends of the two mixing and stirring mechanisms relatively slide in a horizontal slideway on the other side of the box shell; the driving mechanism is in transmission connection with the two mixing and stirring mechanisms so as to drive the two mixing and stirring mechanisms to mix and stir the powder in the two powder mixing barrel mechanisms; the driving mechanism is connected with the displacement transmission mechanism in a transmission way, and the displacement transmission mechanism is connected with the two mixing and stirring mechanisms in a transmission way so as to drive the two mixing and stirring mechanisms to slide in the horizontal slide way of the box shell in an opposite direction or deviate from the sliding way.

Preferably, the powder mixing cylinder mechanism comprises a cylindrical cylinder body, an arc-shaped cylinder cover, a cleaning pipe and a pipe cover; an arc-shaped material inlet and outlet is arranged on the surface of the cylindrical barrel body, and an arc-shaped barrel cover is in sliding fit with the arc-shaped material inlet and outlet; a side plate is fixed at one end of the arc-shaped cylinder cover, a locking bolt is rotatably connected on the side plate, the inner side of the locking bolt is in threaded fit in an internal threaded hole at one end of the cylindrical cylinder body, the other end of the cylindrical cylinder body is fixedly connected with a cleaning pipe, and the outer end of the cleaning pipe is in threaded fit with the connecting pipe cover; the cleaning pipe is matched in a horizontal slideway of the box shell in a rolling way.

Preferably, the mixing and stirring mechanism comprises a linkage rotating pipe, a first bevel gear, a second bevel gear, a linkage rotating shaft, a stirring rod and an L-shaped bracket; the drive mechanism is in transmission connection with the linkage rotating pipe, the linkage rotating pipe is in running fit with one end of the L-shaped support, a first bevel gear is fixed on the linkage rotating pipe, the first bevel gear is in meshing connection with a second bevel gear, the second bevel gear is fixed at one end of the linkage rotating shaft, the linkage rotating shaft is in running fit with the other end of the L-shaped support, the linkage rotating shaft slides in a horizontal slide way of the box shell, the other end of the linkage rotating shaft is in running fit with the cylindrical barrel, a plurality of stirring rods are uniformly fixed on the linkage rotating shaft in a surrounding mode, and the plurality of stirring rods are in running fit with the cylindrical barrel.

Preferably, the driving mechanism comprises a power motor, a transmission shaft and a transmission worm; an output shaft of the power motor, a transmission shaft and a transmission worm are sequentially connected; the linkage rotating pipe is in sliding fit with the transmission shaft, the transmission shaft is provided with a groove, and a convex edge in sliding fit with the groove is arranged in the linkage rotating pipe; the transmission worm is engaged with the displacement transmission mechanism in a transmission way.

Preferably, the displacement transmission mechanism comprises a transmission worm gear, an eccentric connecting rod, a lifting slide seat, a vertical guide rod and a push-pull connecting rod; the transmission worm is meshed with a transmission worm wheel, and the transmission worm wheel rotates on the box shell through a wheel shaft; the eccentric position of the wheel face of the transmission worm wheel is rotatably connected with one end of an eccentric connecting rod, the other end of the eccentric connecting rod is rotated on a lifting slide seat, one end of the lifting slide seat slides on a vertical guide rod, the vertical guide rod is fixed on a box shell, the other end of the lifting slide seat is rotatably connected with one end of two push-pull connecting rods, and the other ends of the two push-pull connecting rods are rotatably connected with L-shaped supports of two mixing mechanisms.

Preferably, the transmission worm comprises a worm body, a bearing rod frame, a hexagonal sliding rod and a regulating screw rod; the worm body is rotationally connected to a bearing rod frame, and the bearing rod frame is fixed on the box shell; the worm body is in meshed transmission connection with a transmission worm wheel, a hexagonal slideway is arranged in the worm body, one end of a hexagonal slide bar slides in the hexagonal slideway, and the other end of the hexagonal slide bar is inserted in a hexagonal slot of the transmission shaft; one end of the regulating screw rod is rotatably connected to the outer side plate of the worm body, and the other end of the regulating screw rod is in threaded fit with the inner threaded hole of the hexagonal sliding rod.

Preferably, the powder mixer for producing the cartilage powder further comprises a filter plate mechanism, and the filter plate mechanism is connected inside the box shell; the surface of the cylindrical barrel is matched on the top surface of the filter plate mechanism in a rolling way.

Preferably, the filter plate mechanism comprises a stainless steel metal filter plate, a vertical support shaft, a rectangular frame, a buffer compression spring and a limit nut; the stainless steel metal filter plate is in sliding fit with the inner side surface of the box shell, four corners of the stainless steel metal filter plate are connected with the top ends of four vertical support shafts, the middle parts of the four vertical support shafts slide at four corners of a rectangular frame, the rectangular frame is fixedly connected with the inner side surface of the box shell, each vertical support shaft is sleeved with a buffer pressure spring, and the buffer pressure springs are located between the stainless steel metal filter plate and the rectangular frame; and one or more vertical support shafts are in threaded fit with a limiting nut, and the limiting nut is blocked on the bottom surface of the rectangular frame.

Preferably, the powder mixer for producing the cartilage powder further comprises a grinding transmission mechanism; the grinding transmission mechanism comprises a first belt wheel, a second belt wheel, a bidirectional worm and a movable worm wheel; the first belt wheel is fixed on an output shaft of the power motor, the first belt wheel is connected with the second belt wheel through a synchronous belt in a transmission manner, the second belt wheel is fixed on a bidirectional worm, two ends of the bidirectional worm rotate on the box shell through two support plates, one end of the bidirectional worm is a left-handed worm, the other end of the bidirectional worm is a right-handed worm, and two ends of the bidirectional worm are oppositely meshed with two movable worm wheels; the two worm gears are fixedly connected with the two cleaning pipes one by one.

Preferably, the first belt pulley comprises a belt pulley body, a sleeve pipe and a linkage screw rod; the belt wheel body is connected with a second belt wheel through a belt in a transmission mode, the belt wheel body is fixed on a sleeve pipe, the sleeve pipe is rotatably connected to an output shaft of the power motor, a linkage screw rod is connected to the sleeve pipe in a threaded fit mode, and the inner end of the linkage screw rod is inserted into a jack on the output shaft of the power motor.

The invention has the beneficial effects that: according to the powder mixing machine for producing the cartilage powder, the mixing mechanism and the powder mixing barrel mechanism are arranged in the powder mixing machine, various raw materials can be efficiently mixed through the mixing mechanism and the powder mixing barrel mechanism, in the mixing process, the mixing mechanism can rotate and stir in the powder mixing barrel mechanism, the powder mixing barrel mechanism can also rotate and horizontally shake, and the mixing effect of various raw materials in the powder mixing barrel mechanism can be effectively improved due to the cooperation of various movements; in addition, the two powder mixing cylinder mechanisms can also rotate in different directions under the control of the grinding transmission mechanism, and the grinding transmission mechanism controls the cylindrical cylinders of the two powder mixing cylinder mechanisms to rotate relatively, so that the grinding work of the raw materials can be realized; the filter plate mechanism is arranged in the powder mixing barrel mechanism, and can sieve the ground raw materials of the two powder mixing barrel mechanisms; the arrangement of the displacement transmission mechanism enables the two powder mixing cylinder mechanisms to roll on the filter plate mechanism, so that raw materials on the filter plate mechanism can be conveniently rolled and crushed, and the crushing effect is improved; the multifunctional electric water heater is rich in functions and high in practicability.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention or related technologies, the drawings used in the description of the embodiments or related technologies will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a first general schematic diagram provided in accordance with an embodiment of the present invention;

FIG. 2 is a second overall view provided in accordance with an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a powder mixing barrel mechanism according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a mixing mechanism according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a driving mechanism according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a drive worm according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a displacement transmission mechanism according to an embodiment of the present invention;

FIG. 8 is a schematic view of a cabinet according to an embodiment of the present invention;

fig. 9 is a schematic structural view of a filter plate mechanism according to an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a grinding actuator according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a first pulley according to an embodiment of the present invention.

Icon: a powder mixing cylinder mechanism 1; a cylindrical barrel 101; an arc-shaped cylinder cover 102; a cleaning pipe 103; a tube cover 104; a mixing and stirring mechanism 2; a linkage rotary pipe 201; a first bevel gear 202; a second bevel gear 203; a linkage rotating shaft 204; a stirring rod 205; an L-shaped bracket 206; a drive mechanism 3; a power motor 301; a drive shaft 302; a drive worm 303; a worm body 303a; a carrier bar frame 303b; a hexagonal slide bar 303c; a regulating screw 303d; a displacement transmission mechanism 4; a drive worm gear 401; an eccentric link 402; a lifting slide 403; a vertical guide bar 404; a push-pull link 405; a cabinet 5; a filter plate mechanism 6; a stainless steel metal filter plate 601; a vertical support shaft 602; a rectangular frame 603; a buffer compression spring 604; a stop nut 605; a grinding transmission mechanism 7; a first pulley 701; a pulley body 701a; a ferrule 701b; a linkage screw 701c; a second pulley 702; a bidirectional worm 703; a movable worm gear 704.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in the present application, the technical solutions in the embodiments of the present application will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

It will be understood that when an element is referred to as being "fixed" or "disposed" on another element, it can be directly on the other element or be indirectly disposed on the other element; when an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in an orientation or positional relationship indicated in the drawings to facilitate the description of the application and to simplify the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed in a particular orientation, and be constructed in operation as a limitation of the application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, the meaning of a plurality of or a plurality of is two or more unless specifically limited otherwise.

It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for understanding and reading the contents disclosed in the specification, and are not used for limiting the conditions that the present application can implement, so the present invention has no technical significance, and any structural modification, ratio relationship change or size adjustment should still fall within the scope of the technical content disclosed in the present application without affecting the efficacy and the achievable purpose of the present application. In addition, the terms "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for clarity of description, and are not intended to limit the scope of the present application, and changes or modifications in the relative relationship may be made without substantial technical changes.

The present invention is described in further detail below with reference to FIGS. 1-11.

As shown in figures 1-11, the powder mixing machine for producing cartilage powder comprises a powder mixing barrel mechanism 1, a mixing and stirring mechanism 2, a driving mechanism 3, a displacement transmission mechanism 4 and a box shell 5; two powder mixing cylinder mechanisms 1 are arranged, and one ends of the two powder mixing cylinder mechanisms 1 relatively slide in a horizontal slide way on one side of the box shell 5; two mixing mechanisms 2 are arranged, and one ends of the two mixing mechanisms 2 are rotatably connected in the two powder mixing barrel mechanisms 1; the other ends of the two mixing and stirring mechanisms 2 relatively slide in a horizontal slideway on the other side of the box shell 5; the driving mechanism 3 is in transmission connection with the two mixing and stirring mechanisms 2 so as to drive the two mixing and stirring mechanisms 2 to mix and stir the powder in the two powder mixing barrel mechanisms 1; the driving mechanism 3 is in transmission connection with the displacement transmission mechanism 4, and the displacement transmission mechanism 4 is in transmission connection with the two mixing mechanisms 2 so as to drive the two mixing mechanisms 2 to slide in opposite directions or deviate from sliding in a horizontal sliding way of the box shell 5. The powder mixer for producing the cartilage powder is internally provided with the mixing mechanism 2 and the powder mixing barrel mechanism 1, so that various raw materials can be efficiently mixed through the mixing mechanism 2 and the powder mixing barrel mechanism 1, during mixing, firstly, the raw materials to be mixed are put into the two powder mixing barrel mechanisms 1, then the driving mechanism 3 is started, the driving mechanism 3 can drive the two mixing mechanisms 2 to rotate after being started, and the two mixing mechanisms 2 are matched with the two powder mixing barrel mechanisms 1 to mix and stir the raw materials at the inner ends of the two powder mixing barrel mechanisms 1 when rotating; the driving mechanism 3 can also drive the displacement transmission mechanism 4 to operate in a transmission manner when operating, the displacement transmission mechanism 4 can drive the two mixing mechanisms 2 to slide in opposite directions or deviate from the sliding in the horizontal slideway on one side of the box shell 5 in a transmission manner when operating, the two mixing mechanisms 2 drive the two mixing barrel mechanisms 1 to slide in opposite directions or deviate from the sliding, and the mixing effect of various raw materials in the mixing barrel mechanisms can be effectively improved due to the matching of various motions.

The powder mixing cylinder mechanism 1 comprises a cylindrical cylinder body 101, an arc-shaped cylinder cover 102, a cleaning pipe 103 and a pipe cover 104; an arc-shaped material inlet and outlet is arranged on the surface of the cylindrical barrel 101, and an arc-shaped barrel cover 102 is in sliding fit with the arc-shaped material inlet and outlet; a side plate is fixed at one end of the arc-shaped cylinder cover 102, a locking bolt is rotatably connected to the side plate, the inner side of the locking bolt is in threaded fit with an internal threaded hole at one end of the cylindrical cylinder 101, the other end of the cylindrical cylinder 101 is fixedly connected with a cleaning pipe 103, and the outer end of the cleaning pipe 103 is in threaded fit with a pipe cover 104; the cleaning pipe 103 is roll-fitted in a horizontal slide of the cabinet 5. An arc-shaped cylinder cover 102 which is convenient to open or close is arranged on the cylindrical cylinder body 101, so that raw materials can be put in or poured out conveniently; the other end of the cylindrical barrel 101 is fixed with a cleaning pipe 103, which is convenient for injecting cleaning liquid into the cylindrical barrel 101 to clean the cylindrical barrel 101.

The mixing and stirring mechanism 2 comprises a linkage rotating pipe 201, a first bevel gear 202, a second bevel gear 203, a linkage rotating shaft 204, a stirring rod 205 and an L-shaped bracket 206; the driving mechanism 3 is in transmission connection with a linkage rotating pipe 201, the linkage rotating pipe 201 is in running fit with one end of an L-shaped support 206, a first bevel gear 202 is fixed on the linkage rotating pipe 201, the first bevel gear 202 is in meshing connection with a second bevel gear 203, the second bevel gear 203 is fixed at one end of a linkage rotating shaft 204, the linkage rotating shaft 204 is in running fit with the other end of the L-shaped support 206, the linkage rotating shaft 204 slides in a horizontal slide way of the box shell 5, the other end of the linkage rotating shaft 204 is in running fit with a cylindrical barrel 101, a plurality of stirring rods 205 are uniformly fixed on the linkage rotating shaft 204 in a surrounding mode, and the plurality of stirring rods 205 rotate in the cylindrical barrel 101. The first bevel gear 202 in the mixing mechanism 2 can rotate under the transmission of the driving mechanism 3, the first bevel gear 202 can drive the linkage rotating pipe 201 to rotate when rotating, the first bevel gear 202 can drive the second bevel gear 203 to rotate when rotating, and the second bevel gear 203 can drive the stirring rods 205 to mix and stir various raw materials in the cylindrical barrel 101 when rotating.

The driving mechanism 3 comprises a power motor 301, a transmission shaft 302 and a transmission worm 303; an output shaft of the power motor 301, a transmission shaft 302 and a transmission worm 303 are connected in sequence; the linkage rotating pipe 201 is in sliding fit with the transmission shaft 302, a groove is formed in the transmission shaft 302, and a convex edge in sliding fit with the groove is formed in the linkage rotating pipe 201; the transmission worm 303 is engaged with the transmission connection displacement transmission mechanism 4. After the power motor 301 is started, the transmission shaft 302 can be driven to rotate, the transmission shaft 302 rotates to drive the transmission worm 303 to rotate, and the transmission worm 303 can drive the displacement transmission mechanism 4 to operate when rotating; when the transmission shaft 302 rotates, the linked rotating pipe 201 can be driven to rotate through the matching of the groove on the transmission shaft and the rib in the linked rotating pipe 201.

The displacement transmission mechanism 4 comprises a transmission worm gear 401, an eccentric connecting rod 402, a lifting slide carriage 403, a vertical guide rod 404 and a push-pull connecting rod 405; the transmission worm 303 is meshed with a transmission worm wheel 401, and the transmission worm wheel 401 rotates on the box shell 5 through a wheel shaft; the eccentric position of the wheel surface of the transmission worm wheel 401 is rotatably connected with one end of an eccentric connecting rod 402, the other end of the eccentric connecting rod 402 is rotated on a lifting slide carriage 403, one end of the lifting slide carriage 403 slides on a vertical guide rod 404, the vertical guide rod 404 is fixed on the box shell 5, the other end of the lifting slide carriage 403 is rotatably connected with one end of two push-pull connecting rods 405, and the other end of the two push-pull connecting rods 405 is rotatably connected with the L-shaped supports 206 of the two mixing mechanisms 2.

The transmission worm 303 meshes the transmission and drives transmission worm wheel 401 to rotate, when transmission worm wheel 401 rotates, the one end of eccentric connecting rod 402 is driven to perform surrounding motion, the other end of eccentric connecting rod 402 drives lifting slide 403 to perform reciprocating sliding in the up-down direction on vertical guide rod 404, lifting slide 403 drives two L-shaped supports 206 of mixing mechanism 2 to move in opposite directions or deviate from the motion through two push-pull connecting rods 405, finally, two powder mixing barrel mechanisms 1 are controlled to perform horizontal shaking motion, so that raw materials in the powder mixing barrel mechanisms 1 are shaken and mixed, and the mixing effect is improved.

The transmission worm 303 comprises a worm body 303a, a bearing rod frame 303b, a hexagonal sliding rod 303c and a regulating screw rod 303d; the worm body 303a is rotatably connected to a bearing rod frame 303b, and the bearing rod frame 303b is fixed on the box shell 5; the worm body 303a is in meshed transmission connection with the transmission worm wheel 401, a hexagonal slideway is arranged in the worm body 303a, one end of a hexagonal slide bar 303c slides in the hexagonal slideway, and the other end of the hexagonal slide bar 303c is inserted in a hexagonal slot of the transmission shaft 302; one end of the adjusting screw 303d is rotatably connected to the outer side plate of the worm body 303a, and the other end of the adjusting screw 303d is in threaded fit with the internal threaded hole of the hexagonal slide bar 303 c.

The structure of the transmission worm 303 is arranged to enable the transmission worm 303 to be in transmission fit with the transmission shaft 302 in a disconnection manner, so that the two powder mixing barrel mechanisms 1 are stopped from being driven to move horizontally, when the transmission worm 303 is required to be controlled to be in transmission fit with the transmission shaft 302, the regulating screw 303d is rotated to change the contact position between the regulating screw 303d and the hexagonal slide bar 303c, so that the hexagonal slide bar 303c and the hexagonal slot of the transmission shaft 302 are controlled to be inserted or separated, when the hexagonal slide bar 303c is inserted into the hexagonal slot, the transmission shaft 302 can drive the worm body 303a to rotate through the hexagonal slide bar 303c, and the worm body 303a drives the transmission worm wheel 401 to rotate; when the hexagonal slide bar 303c is separated from the hexagonal slot of the transmission shaft 302, the transmission of the transmission shaft 302 is stopped, and at this time, due to the structural properties of the worm body 303a and the transmission worm wheel 401, the relative positions of the two powder mixing barrel mechanisms 1 can be locked; in addition, can drive transmission worm wheel 401 through independent control worm body 303a and rotate, change two relative position that mix powder barrel mechanism 1, can control two cylindrical barrel 101 medial surfaces contacts that mix powder barrel mechanism 1 to crush crushing treatment to the raw materials.

The powder mixer for producing the cartilage powder also comprises a filter plate mechanism 6, and the filter plate mechanism 6 is connected inside the box shell 5; the cylindrical surface of the cylindrical barrel 101 is roll-fitted on the top surface of the filter plate mechanism 6. The filter plate mechanism 6 can cooperate with two cylindrical barrels 101 which perform horizontal reciprocating motion to perform rolling crushing treatment on the raw materials.

The filter plate mechanism 6 comprises a stainless steel metal filter plate 601, a vertical support shaft 602, a rectangular frame 603, a buffer compression spring 604 and a limit nut 605; the stainless steel metal filter plate 601 is in sliding fit with the inner side surface of the box shell 5, four corners of the stainless steel metal filter plate 601 are connected with the top ends of four vertical support shafts 602, the middle parts of the four vertical support shafts 602 slide at four corners of a rectangular frame 603, the rectangular frame 603 is fixedly connected with the inner side surface of the box shell 5, each vertical support shaft 602 is sleeved with a buffer pressure spring 604, and the buffer pressure springs 604 are positioned between the stainless steel metal filter plate 601 and the rectangular frame 603; one or more vertical support shafts 602 are in threaded fit with a limiting nut 605, and the limiting nut 605 is blocked on the bottom surface of the rectangular frame 603. Stainless steel metal filter plate 601 cooperates two cylindrical barrel 101 that carry out horizontal reciprocating motion to carry out roll-in crushing treatment to the raw materials, and is equipped with buffering pressure spring 604, can play certain cushioning effect, prevents to take place the card pause between stainless steel metal filter plate 601 and the cylindrical barrel 101.

The powder mixer for producing the cartilage powder also comprises a grinding transmission mechanism 7; the grinding transmission mechanism 7 comprises a first belt wheel 701, a second belt wheel 702, a bidirectional worm 703 and a movable worm wheel 704; the first belt wheel 701 is fixed on an output shaft of the power motor 301, the first belt wheel 701 is connected with a second belt wheel 702 through synchronous belt transmission, the second belt wheel 702 is fixed on a bidirectional worm 703, two ends of the bidirectional worm 703 rotate on the box shell 5 through two support plates, one end of the bidirectional worm 703 is a left-handed worm, the other end of the bidirectional worm 703 is a right-handed worm, and two ends of the bidirectional worm 703 are oppositely meshed with two movable worm wheels 704; the two worm gears are fixedly connected with the two cleaning pipes 103 one by one. The grinding transmission mechanism 7 can control the two powder mixing cylinder mechanisms 1 to rotate in different directions in a transmission manner, and two powder mixing cylinder mechanisms 1 can grind and crush the raw materials after being contacted; the first belt wheel 701 can rotate under the driving of the output shaft of the power motor 301, the second belt wheel 702 is controlled to rotate through synchronous belt transmission when the first belt wheel 701 rotates, the second belt wheel 702 can drive the bidirectional worm 703 to rotate around the axis of the bidirectional worm, and because one end of the bidirectional worm 703 is a left-handed worm and the other end of the bidirectional worm is a right-handed worm, the bidirectional worm can drive the two movable worm wheels 704 to rotate in the opposite direction, so that the two cleaning pipes 103 are driven to rotate, and the two cleaning pipes 103 drive the two cylindrical barrels 101 to grind and crush raw materials falling between the two cylindrical barrels 101.

The first belt pulley 701 comprises a belt pulley body 701a, a sleeve pipe 701b and a linkage screw 701c; the belt wheel body 701a is connected with a second belt wheel 702 through a belt in a transmission mode, the belt wheel body 701a is fixed on a sleeve pipe 701b, the sleeve pipe 701b is rotatably connected to an output shaft of the power motor 301, a linkage screw 701c is connected to the sleeve pipe 701b in a threaded fit mode, and the inner end of the linkage screw 701c is inserted into a jack on the output shaft of the power motor 301. The linkage screw 701c is controlled to be separated from the jack on the output shaft of the power motor 301, the rotation of the first belt wheel 701 can be stopped, the two belt wheels are suitable for being used when the two cylindrical barrels 101 move in the horizontal direction, the two movable worm wheels 704 can roll on the bidirectional worm 703, the transmission of the bidirectional worm 703 to the two movable worm wheels 704 is not influenced, and the horizontal movement of the cylindrical barrels 101 is not influenced.

The principle is as follows: the powder mixing machine for producing the cartilage powder is internally provided with the mixing mechanism 2 and the powder mixing barrel mechanism 1, and can efficiently mix a plurality of raw materials through the mixing mechanism 2 and the powder mixing barrel mechanism 1, when mixing, firstly, a plurality of raw materials to be mixed are put into the two powder mixing barrel mechanisms 1, then the driving mechanism 3 is started, the driving mechanism 3 can drive the two mixing mechanisms 2 to rotate after being started, and when rotating, the two mixing mechanisms 2 are matched with the two powder mixing barrel mechanisms 1 to mix and stir the raw materials at the inner ends of the two powder mixing barrel mechanisms 1; the driving mechanism 3 can also drive the displacement transmission mechanism 4 to operate in a transmission manner when operating, the displacement transmission mechanism 4 can drive the two mixing mechanisms 2 to slide in opposite directions or deviate from the sliding in the horizontal slideway on one side of the box shell 5 in a transmission manner when operating, the two mixing mechanisms 2 drive the two mixing barrel mechanisms 1 to slide in opposite directions or deviate from the sliding, and the mixing effect of various raw materials in the mixing barrel mechanisms can be effectively improved due to the matching of various motions.

The embodiments are described in a progressive manner in the specification, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. It should be noted that, for those skilled in the art, without departing from the principle of the present application, the present application can also make several improvements and modifications, and those improvements and modifications also fall into the protection scope of the claims of the present application.

It is further noted that, in the present specification, relational terms such as first and second, and the like are 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. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

Claims (1)

1. A powder mixer for producing cartilage powder, its characterized in that: comprises a powder mixing cylinder mechanism (1), a mixing and stirring mechanism (2), a driving mechanism (3), a displacement transmission mechanism (4) and a box shell (5); two powder mixing cylinder mechanisms (1) are arranged, and one ends of the two powder mixing cylinder mechanisms (1) relatively slide in a horizontal slide way on one side of the box shell (5); two mixing mechanisms (2) are arranged, and one ends of the two mixing mechanisms (2) are rotatably connected in the two powder mixing barrel mechanisms (1); the other ends of the two mixing and stirring mechanisms (2) relatively slide in a horizontal slideway on the other side of the box shell (5); the driving mechanism (3) is in transmission connection with the two mixing and stirring mechanisms (2) so as to drive the two mixing and stirring mechanisms (2) to mix and stir the powder in the two powder mixing barrel mechanisms (1); the driving mechanism (3) is in transmission connection with the displacement transmission mechanism (4), and the displacement transmission mechanism (4) is in transmission connection with the two mixing and stirring mechanisms (2) so as to drive the two mixing and stirring mechanisms (2) to slide in the horizontal slide way of the box shell (5) in an opposite direction or in a deviated direction; the powder mixing cylinder mechanism (1) comprises a cylindrical cylinder body (101), an arc-shaped cylinder cover (102), a cleaning pipe (103) and a pipe cover (104); an arc-shaped material inlet and outlet is arranged on the surface of the cylindrical barrel (101), and an arc-shaped barrel cover (102) is in sliding fit with the arc-shaped material inlet and outlet; a side plate is fixed at one end of the arc-shaped cylinder cover (102), a locking bolt is rotatably connected on the side plate, the inner side of the locking bolt is in threaded fit in an internal threaded hole at one end of the cylindrical cylinder body (101), the other end of the cylindrical cylinder body (101) is fixedly connected with a cleaning pipe (103), and the outer end of the cleaning pipe (103) is in threaded fit with a connecting pipe cover (104); the cleaning pipe (103) is matched in a horizontal slideway of the box shell (5) in a rolling way; the mixing and stirring mechanism (2) comprises a linkage rotating pipe (201), a first bevel gear (202), a second bevel gear (203), a linkage rotating shaft (204), a stirring rod (205) and an L-shaped support (206); the driving mechanism (3) is in transmission connection with a linkage rotating pipe (201), the linkage rotating pipe (201) is in running fit with one end of an L-shaped support (206), a first bevel gear (202) is fixed on the linkage rotating pipe (201), the first bevel gear (202) is in meshing connection with a second bevel gear (203), the second bevel gear (203) is fixed at one end of a linkage rotating shaft (204), the linkage rotating shaft (204) is in running fit with the other end of the L-shaped support (206), the linkage rotating shaft (204) slides in a horizontal slide way of a box shell (5), the other end of the linkage rotating shaft (204) is in running fit with a cylindrical barrel (101), a plurality of stirring rods (205) are uniformly fixed on the linkage rotating shaft (204) in a surrounding manner, and the plurality of stirring rods (205) rotate in the cylindrical barrel (101); the driving mechanism (3) comprises a power motor (301), a transmission shaft (302) and a transmission worm (303); an output shaft of the power motor (301), a transmission shaft (302) and a transmission worm (303) are connected in sequence; the linkage rotating pipe (201) is in sliding fit with the transmission shaft (302), a groove is formed in the transmission shaft (302), and a convex edge in sliding fit with the groove is arranged in the linkage rotating pipe (201); the transmission worm (303) is in meshed transmission connection with the displacement transmission mechanism (4); the displacement transmission mechanism (4) comprises a transmission worm gear (401), an eccentric connecting rod (402), a lifting slide seat (403), a vertical guide rod (404) and a push-pull connecting rod (405); the transmission worm (303) is meshed with a transmission worm wheel (401), and the transmission worm wheel (401) rotates on the box shell (5) through a wheel shaft; the eccentric position of the wheel surface of the transmission worm wheel (401) is rotatably connected with one end of an eccentric connecting rod (402), the other end of the eccentric connecting rod (402) is rotated on a lifting slide seat (403), one end of the lifting slide seat (403) is slid on a vertical guide rod (404), the vertical guide rod (404) is fixed on a box shell (5), the other end of the lifting slide seat (403) is rotatably connected with one end of two push-pull connecting rods (405), and the other ends of the two push-pull connecting rods (405) are rotatably connected with L-shaped supports (206) of two mixing mechanisms (2); the transmission worm (303) comprises a worm body (303 a), a bearing rod frame (303 b), a hexagonal sliding rod (303 c) and a regulating screw rod (303 d); the worm body (303 a) is rotatably connected to a bearing rod frame (303 b), and the bearing rod frame (303 b) is fixed on the box shell (5); the worm body (303 a) is in meshed transmission connection with a transmission worm wheel (401), a hexagonal slideway is arranged in the worm body (303 a), one end of a hexagonal slide bar (303 c) slides in the hexagonal slideway, and the other end of the hexagonal slide bar (303 c) is inserted in a hexagonal slot of the transmission shaft (302); one end of the regulating screw rod (303 d) is rotatably connected to the outer side plate of the worm body (303 a), and the other end of the regulating screw rod (303 d) is in threaded fit with the inner threaded hole of the hexagonal sliding rod (303 c); the device also comprises a filter plate mechanism (6), wherein the filter plate mechanism (6) is connected inside the box shell (5); the surface of the cylindrical barrel (101) is matched on the top surface of the filter plate mechanism (6) in a rolling way; the filter plate mechanism (6) comprises a stainless steel metal filter plate (601), a vertical support shaft (602), a rectangular frame (603), a buffer pressure spring (604) and a limit nut (605); the stainless steel metal filter plate (601) is in sliding fit with the inner side face of the box shell (5), four corners of the stainless steel metal filter plate (601) are connected with the top ends of four vertical supporting shafts (602), the middle parts of the four vertical supporting shafts (602) slide at four corners of a rectangular frame (603), the rectangular frame (603) is fixedly connected with the inner side face of the box shell (5), each vertical supporting shaft (602) is sleeved with a buffer compression spring (604), and the buffer compression springs (604) are located between the stainless steel metal filter plate (601) and the rectangular frame (603); one or more vertical support shafts (602) are in threaded fit with a limiting nut (605), and the limiting nut (605) is blocked on the bottom surface of the rectangular frame (603); also comprises a grinding transmission mechanism (7); the grinding transmission mechanism (7) comprises a first belt wheel (701), a second belt wheel (702), a bidirectional worm (703) and a movable worm wheel (704); the first belt wheel (701) is fixed on an output shaft of the power motor (301), the first belt wheel (701) is connected with a second belt wheel (702) through a synchronous belt in a transmission mode, the second belt wheel (702) is fixed on a bidirectional worm (703), two ends of the bidirectional worm (703) rotate on the box shell (5) through two support plates, one end of the bidirectional worm (703) is a left-handed worm, the other end of the bidirectional worm (703) is a right-handed worm, and two ends of the bidirectional worm (703) are oppositely meshed with two movable worm wheels (704); the two worm gears are fixedly connected with the two cleaning pipes (103) one by one; the first belt pulley (701) comprises a belt pulley body (701 a), a sleeve pipe (701 b) and a linkage screw (701 c); the belt wheel body (701 a) is connected with a second belt wheel (702) through a belt in a transmission mode, the belt wheel body (701 a) is fixed on a sleeve pipe (701 b), the sleeve pipe (701 b) is rotatably connected to an output shaft of the power motor (301), a linkage screw rod (701 c) is connected to the sleeve pipe (701 b) in a threaded fit mode, and the inner end of the linkage screw rod (701 c) is inserted into a jack on the output shaft of the power motor (301).

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