CN113750875A - Processing method for efficiently mixing veterinary disinfection powder to prevent hardening - Google Patents
Processing method for efficiently mixing veterinary disinfection powder to prevent hardening Download PDFInfo
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- CN113750875A CN113750875A CN202111089577.0A CN202111089577A CN113750875A CN 113750875 A CN113750875 A CN 113750875A CN 202111089577 A CN202111089577 A CN 202111089577A CN 113750875 A CN113750875 A CN 113750875A
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Abstract
The invention discloses a processing method for high-efficiency mixing and hardening prevention of veterinary disinfectant powder, which is realized by a veterinary disinfectant powder mixing device and comprises the following steps: s1: adjusting the adjusting mechanisms, and respectively setting the motion frequencies of different feeding mechanisms; s2: respectively preparing the prepared powder components of the veterinary disinfection powder, and respectively pouring the prepared powder components into corresponding feeding mechanisms; s3: driving the adjusting mechanism to enable different feeding mechanisms to convey all powder components into the mixing mechanism according to preset movement frequency; s4: the power mechanism drives the stirring mechanism to move, powder components in the mixing mechanism are stirred, and the veterinary disinfection powder is obtained after complete mixing; s5: subpackaging the veterinary disinfection powder; make and make the movable support remove under the effect of gravity at the mixed veterinary disinfection powder in-process, and then drive the smooth case of material loading and remove downwards for the material that feed mechanism added at the material loading in-process is more, can greatly increased device's work efficiency.
Description
Technical Field
The invention belongs to the technical field of medicament processing, and particularly relates to a processing method for preventing hardening of high-efficiency mixing of veterinary disinfection powder.
Background
The veterinary disinfection powder generally has the characteristics of easy water absorption and easy hardening, the hardening phenomenon of the veterinary disinfection powder is easy to occur in the production process of technicians, the veterinary disinfection powder is easy to absorb water to form crystalline hydrate along with the increase of air humidity, and the hardening phenomenon of a stirring box body is often occurred in the processing process; at present, the hardening of the veterinary disinfectant powder is generally prevented by a stirring method in the medicine processing process, the veterinary disinfectant powder can be uniformly mixed by stirring in the mixing process of the veterinary disinfectant powder, and when the mixed veterinary disinfectant powder is large in volume, the hardening of the veterinary disinfectant powder cannot be effectively prevented by a single stirring side, and the veterinary disinfectant powder cannot be sufficiently stirred.
Disclosure of Invention
In order to solve the problems in the prior art, the invention aims to provide a processing method for efficiently mixing veterinary disinfectant powder to prevent hardening.
The technical scheme adopted by the invention is as follows:
a processing method for high-efficiency mixing and hardening prevention of veterinary disinfectant powder comprises the following steps of realizing by using veterinary disinfectant powder mixing equipment:
s1: adjusting the adjusting mechanisms, and respectively setting the motion frequencies of different feeding mechanisms;
s2: respectively preparing the prepared powder components of the veterinary disinfection powder, and respectively pouring the prepared powder components into corresponding feeding mechanisms;
s3: driving the adjusting mechanism to enable different feeding mechanisms to convey powder components into the mixing mechanism according to preset movement frequency;
s4: the power mechanism drives the stirring mechanism to move, powder components in the mixing mechanism are stirred, and the veterinary disinfection powder is obtained after complete mixing;
s5: subpackaging the veterinary disinfection powder;
the adjusting mechanism, the feeding mechanism, the moving mechanism, the mixing mechanism and the stirring mechanism are all arranged on the supporting mechanism and jointly form the veterinary disinfectant powder mixing equipment.
Preferably, during the mixing at S5, the weight of each charge of the charging mechanism is controlled by the gravity of the powder component in the mixing mechanism.
Preferably, veterinary disinfection powder mixing apparatus includes supporting mechanism, moving mechanism, feed mechanism, drive mechanism and adjustment mechanism, feed mechanism is provided with two and equal fixed connection and is in supporting mechanism's upper portion, moving mechanism sliding connection be in supporting mechanism's middle part, two feed mechanism all with sliding connection between the moving mechanism, adjustment mechanism fixed connection be in supporting mechanism upper portion front side, adjustment mechanism passes through drive mechanism and two the transmission is connected between the feed mechanism, the equal fixedly connected with mixing mechanism in both sides of moving mechanism is connected with rabbling mechanism, two between two mixing mechanism the mixing mechanism outside cover is equipped with power unit, power unit with the transmission is connected between the rabbling mechanism.
Preferably, the moving mechanism comprises a moving support which is slidably connected to the supporting mechanism, an elastic part is arranged between the moving support and the supporting mechanism, material guide box bodies are arranged on two sides of the moving support, moving chutes are arranged on two sides of the upper portion of each material guide box body, a material guide pipe is connected to the lower portion of each material guide box body, rectangular chutes are arranged on the lower portions of two sides of the moving support, and racks are fixedly connected to the bottoms of the outer sides of the rectangular chutes.
Preferably, the adjusting mechanism comprises an adjusting support fixedly connected to the supporting mechanism, an adjusting sliding frame is connected to the adjusting support in a sliding mode, an adjusting screw rod is connected to the adjusting support in a rotating mode, the adjusting screw rod is connected with the adjusting sliding frame in a threaded mode, an adjusting motor is fixedly connected to the adjusting sliding frame, and adjusting friction wheels are fixedly connected to output shafts on two sides of the adjusting motor.
Preferably, feed mechanism includes fixed connection and is in last material loading support of supporting mechanism, it is connected with the bent axle to rotate on the material loading support, the one end fixedly connected with material loading gear of bent axle, the lower part sliding connection of material loading support has the material loading box, the material loading box with connect through the connecting rod between the bent axle, the marginal fixedly connected with striker plate in upper portion of material loading box, the inside sliding connection of material loading box has the smooth case of material loading, the both sides of the smooth case of material loading all are provided with the boss, boss sliding connection is in remove in the spout.
Preferably, drive mechanism includes fixed connection and is in transmission support between the material loading support, transmission support fixed connection is two between the material loading support, transmission support's both sides are all rotated and are connected with the transmission friction pulley, two the transmission friction pulley is adjusted with both sides respectively between the friction pulley transmission and be connected, every equal fixedly connected with 1/2 gears on the transmission friction pulley, two the 1/2 gear respectively with two the transmission is connected between the material loading gear.
Preferably, the mixing mechanism includes fixed connection and is in mixing box on the movable support, it is connected with mixed lead screw to rotate on the mixing box, mixed lead screw is located the one end fixedly connected with mixing gear in the mixing box outside, mixing gear with the transmission is connected between the rack, the inside endwise slip of mixing box is connected with mixed baffle, the interior survey fixedly connected with ring gear of mixed baffle, the outside fixedly connected with screw sleeve of mixed baffle, mixed lead screw with threaded connection between the screw sleeve, the lower part of mixing box is provided with the unloading hole, be provided with the solenoid valve on the unloading hole, mix the box with pass through between the guide box the passage intercommunication, the one end of passage extends to the interior survey of mixed baffle.
Preferably, the power mechanism comprises power supports fixedly connected to the two sides of the mixing box body, a telescopic cylinder is arranged between each power support and the corresponding supporting mechanism, a worm is rotatably connected to each power support, one end of each power support is fixedly connected with a power motor, and an output shaft of each power motor is fixedly connected with one end of each worm.
Preferably, the stirring mechanism comprises a stirring support rotatably connected between the mixing boxes on the two sides, a worm gear ring is fixedly connected to the outer side of the stirring support, the worm gear ring is in transmission connection with the worm, and a plurality of stirring assemblies are rotatably connected to the inner part of the stirring support.
The stirring subassembly is connected including rotating stirring main part on the stirring support, the both sides of stirring main part all are connected with the stirring auxiliary body through the transfer line transmission, the cover is equipped with the elastic component on the transfer line, the stirring main part with all be provided with puddler, every on the stirring auxiliary body equal fixedly connected with stirring gear on the stirring auxiliary body, the stirring gear of both sides respectively with the ring gear between the transmission be connected.
The invention has the beneficial effects that:
1. the device can be through utilizing the constantly increase of mixing box powder component weight for make the movable support remove under the effect of gravity mixing veterinary disinfection powder in-process, and then drive the smooth case downstream of material loading, make the feed mechanism more at the powder component of material loading in-process interpolation, and then can realize not influencing under the condition that the device mixes effect and powder component proportion, can add more powder components at every turn, the work efficiency of device that can greatly increased.
2. The device is through the flexible cylinder of drive, can promote mixing box and carry out reciprocating motion, utilizes mixed gear and rack to mesh, drives and mixes the lead screw and rotate, utilizes threaded connection to promote mixing baffle at the axial of mixing the box reciprocating motion of upper seat, can prevent to rotate under the effect of centrifugal force for each powder component is adhered to and is hardened in the bottom of mixing the box, and the reciprocating motion that utilizes mixing the baffle can push away again each powder component that hardens in the appearance that mixes the bottom half and harden and scatter.
3. The device is under the circumstances that mixing baffle removed for the relative position between stirring main part and the stirring auxiliary body in the stirring subassembly is sent out and is changed, and then changes the stirring route of stirring auxiliary body, forms the irregular stirring effect of straining, when can strengthening the stirring effect, also can reduce each powder component and appear hardening at the stirring in-process.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a schematic view of the overall axial side construction of the present invention;
FIG. 2 is a schematic view of the overall front side structure of the present invention;
FIG. 3 is a schematic view of the moving mechanism of the present invention;
FIG. 4 is a schematic view of the feed mechanism of the present invention;
FIG. 5 is a schematic view of the transmission mechanism of the present invention;
FIG. 6 is a schematic view of the adjustment mechanism of the present invention;
FIG. 7 is a schematic structural view of the mixing mechanism of the present invention;
FIG. 8 is a schematic view of the connection structure of the power mechanism and the stirring mechanism of the present invention;
fig. 9 is a schematic view of the stirring assembly of the present invention.
In the figure: 1-supporting mechanism, 2-moving mechanism, 201-moving support, 202-guide box body, 203-moving chute, 204-guide tube, 205-rectangular chute, 206-rack, 3-feeding mechanism, 301-feeding support, 302-crankshaft, 303-feeding gear, 304-feeding box body, 305-striker plate, 306-connecting rod, 307-feeding slide box, 308-boss, 4-transmission mechanism, 401-transmission support, 402-transmission friction wheel, 403-1/2 gear, 5-adjustment mechanism, 501-adjustment support, 502-adjustment carriage, 503-adjustment screw rod, 504-adjustment motor, 505-adjustment friction wheel, 6-mixing mechanism, 601-mixing box body, 602-mixing baffle, 603-gear ring, 604-threaded sleeve, 605-mixing screw rod, 606-mixing gear, 607-blanking hole, 608-electromagnetic valve, 7-power mechanism, 701-power support, 702-worm, 703-power motor, 704-telescopic cylinder, 8-stirring mechanism, 801-stirring bracket, 802-worm ring, 803-stirring component, 8031-stirring main body, 8032-stirring rod, 8033-transmission rod, 8034-stirring auxiliary body and 8035-stirring gear.
Detailed Description
The invention is further described with reference to the following figures and specific embodiments.
The specific embodiment of the invention is described below with reference to fig. 1-9, and a processing method for high-efficiency mixing and anti-hardening of veterinary disinfectant powder comprises the following steps:
s1: adjusting mechanisms 5, which respectively set the motion frequencies of different feeding mechanisms 3;
s2: respectively preparing the prepared powder components of the veterinary disinfection powder, and respectively pouring the prepared powder components into corresponding feeding mechanisms 3;
s3: the adjusting mechanism 5 is driven, so that different feeding mechanisms 3 convey powder components into the mixing mechanism 6 according to preset movement frequency;
s4: the power mechanism 7 drives the stirring mechanism 8 to move, powder components in the mixing mechanism 6 are stirred, and the veterinary disinfection powder is obtained after complete mixing;
s5: subpackaging the veterinary disinfection powder;
the adjusting mechanism 5 the feeding mechanism 3 the moving mechanism 2 the mixing mechanism 6 and the stirring mechanism 8 are all arranged on the supporting mechanism 1, and jointly form the veterinary disinfection powder mixing equipment.
Preferably, during the mixing process of S5, the weight of the powder component in the mixing mechanism 6 is used to control the weight of each feeding of the feeding mechanism 3.
Preferably, in an embodiment of the present invention, referring to fig. 1-2 again, the veterinary disinfectant powder mixing apparatus includes a supporting mechanism 1, a moving mechanism 2, a feeding mechanism 3, a transmission mechanism 4 and an adjusting mechanism 5, wherein the feeding mechanism 3 is provided with two parts and is fixedly connected to the upper part of the supporting mechanism 1, the moving mechanism 2 is slidably connected to the middle part of the supporting mechanism 1, the two feeding mechanisms 3 are slidably connected to the moving mechanism 2, the adjusting mechanism 5 is fixedly connected to the front side of the upper part of the supporting mechanism 1, the adjusting mechanism 5 is in transmission connection with the two feeding mechanisms 3 through the transmission mechanism 4, the two sides of the moving mechanism 2 are fixedly connected to the mixing mechanisms 6, a stirring mechanism 8 is connected between the two mixing mechanisms 6, and a power mechanism 7 is sleeved outside the two mixing mechanisms 6, the power mechanism 7 is in transmission connection with the stirring mechanism 8.
Preferably, in an embodiment of the present invention, referring to fig. 3 to 6 again, the moving mechanism 2 includes a moving support 201 slidably connected to the supporting mechanism 1, an elastic member is disposed between the moving support 201 and the supporting mechanism 1, material guiding boxes 202 are disposed on two sides of the moving support 201, moving chutes 203 are disposed on two sides of an upper portion of each material guiding box 202, a material guiding pipe 204 is connected to a lower portion of each material guiding box 202, rectangular chutes 205 are disposed on two lower portions of the moving support 201, and racks 206 are fixedly connected to outer bottoms of the rectangular chutes 205; the adjusting mechanism 5 comprises an adjusting bracket 501 fixedly connected to the supporting mechanism 1, an adjusting carriage 502 is connected to the adjusting bracket 501 in a sliding manner, an adjusting screw rod 503 is connected to the adjusting bracket 501 in a rotating manner, the adjusting screw rod 503 is in threaded connection with the adjusting carriage 502, an adjusting motor 504 is fixedly connected to the adjusting carriage 502, and adjusting friction wheels 505 are fixedly connected to output shafts on two sides of the adjusting motor 504; the feeding mechanism 3 comprises a feeding support 301 fixedly connected to the supporting mechanism 1, a crankshaft 302 is rotatably connected to the feeding support 301, a feeding gear 303 is fixedly connected to one end of the crankshaft 302, a feeding box body 304 is slidably connected to the lower portion of the feeding support 301, the feeding box body 304 is connected to the crankshaft 302 through a connecting rod 306, a material baffle plate 305 is fixedly connected to the upper edge of the feeding box body 304, a feeding sliding box 307 is slidably connected to the inside of the feeding box body 304, bosses 308 are arranged on two sides of the feeding sliding box 307, and the bosses 308 are slidably connected to the inside of the moving sliding groove 203; the transmission mechanism 4 comprises a transmission bracket 401 fixedly connected between the feeding brackets 301, the transmission bracket 401 is fixedly connected between the two feeding brackets 301, both sides of the transmission bracket 401 are rotatably connected with transmission friction wheels 402, the two transmission friction wheels 402 are respectively in transmission connection with two side adjusting friction wheels 505, each transmission friction wheel 402 is fixedly connected with an 1/2 gear 403, and the two 1/2 gears 403 are respectively in transmission connection with the two feeding gears 303; when the device is used, the adjusting motor 504 is driven to drive the adjusting gear to rotate, the gear 403 1/2 is driven to rotate by the friction between the adjusting gear and the transmission friction wheel 402, the gear 1/2 is meshed with the feeding gear 303 to drive the crankshaft 302 to rotate, the connecting rod 306 is used for pushing the feeding box body 304 to reciprocate on the feeding support 301 in the rotation process of the crankshaft 302, because the 1/2 gear 403 is arranged in the movement process, the gear 1/2 is not meshed with one side of the feeding gear 303, the feeding box body 304 just completes one-side one-way movement, the material supplementing or discharging is completed in the meshing interval, the powder components in the feeding support 301 can be prevented from falling off in the discharging process due to the arrangement of the feeding baffle plate, the powder components in the feeding box body 304 can be concentrated in the mixing box body 601 through the material guide pipe 204 through the material guide box body 202 for stirring, because the added powder components need different proportions, the adjusting sliding frame 502 can be pushed to move by rotating the adjusting screw rod 503, the distance between the adjusting friction wheel 505 and the center of the transmission friction wheel 402 is further changed, the speed ratio between the transmission friction wheels 402 is changed, the moving frequency of the two feeding boxes 304 is changed, the proportion of the added powder components is further changed, in the using process, the powder components in the mixing box 601 are continuously increased, the ratio between the weight of the mixed powder components and the weight of the added powder components is increased, although the influence of the newly added powder components on the mixing effect is smaller and smaller in the process, the working efficiency of the device is greatly reduced, the weight of the powder components is utilized to enable the moving support 201 to move under the action of gravity in the process of mixing the powder components, and the feeding sliding box 307 is driven to move downwards, make feed mechanism 3 more at the material that the material in-process added, and then can realize under the condition that does not influence the device and mix the effect, can add more powder components at every turn, can greatly increased device's work efficiency.
Preferably, in an embodiment of the present invention, referring to fig. 7 to 9 again, the mixing mechanism 6 includes a mixing box 601 fixedly connected to the moving bracket 201, a mixing screw 605 is rotatably connected to the mixing box 601, a mixing gear 606 is fixedly connected to one end of the mixing screw 605 located outside the mixing box 601, the mixing gear 606 is in transmission connection with the rack 206, a mixing baffle 602 is axially and slidably connected to the inside of the mixing box 601, a toothed ring 603 is fixedly connected to the inside of the mixing baffle 602, a threaded sleeve 604 is fixedly connected to the outside of the mixing baffle 602, and the mixing screw 605 is in threaded connection with the threaded sleeve 604; a blanking hole 607 is formed in the lower portion of the mixing box 601, an electromagnetic valve 608 is arranged on the blanking hole 607, the mixing box 601 is communicated with the material guiding box 202 through the material guiding pipe 204, and one end of the material guiding pipe 204 extends to the inner side of the mixing baffle 602; the power mechanism 7 comprises a power bracket 701 fixedly connected to the mixing box body 601 at two sides, a telescopic cylinder 704 is arranged between the power bracket 701 and the supporting mechanism 1, a worm 702 is rotatably connected to the power bracket 701, a power motor 703 is fixedly connected to one end of the power bracket 701, and an output shaft of the power motor 703 is fixedly connected to one end of the worm 702; the stirring mechanism 8 comprises a stirring support 801 which is rotatably connected between the mixing box bodies 601 at two sides, the outer side of the stirring support 801 is fixedly connected with a worm gear ring 802, the worm gear ring 802 is in transmission connection with the worm 702, and a plurality of stirring assemblies 803 are rotatably connected inside the stirring support 801; the stirring assembly 803 comprises a stirring main body 8031 which is rotatably connected to the stirring support 801, two sides of the stirring main body 8031 are both in transmission connection with a stirring auxiliary body 8034 through a transmission rod 8033, an elastic element is sleeved on the transmission rod 8033, stirring rods 8032 are both arranged on the stirring main body 8031 and the stirring auxiliary body 8034, each stirring auxiliary body 8034 is fixedly connected with a stirring gear 8035, and the stirring gears 8035 on two sides are respectively in transmission connection with the toothed rings 603 on two sides; the worm 702 is driven to rotate by driving the power motor 703, so that the worm wheel ring 802 is meshed with the worm 702 to drive the stirring mechanism 8 to rotate, the stirring gear 8035 and the toothed ring 603 which are arranged on two sides of the stirring assembly 803 are subjected to coring to drive the stirring auxiliary body 8034 to rotate by utilizing the rotation of the stirring mechanism 8, the stirring auxiliary body 8034 drives the stirring main body 8031 to rotate through the transmission rod 8033, the powder components can be stirred by utilizing the stirring rod 8032 arranged on the stirring auxiliary body 8034 and the stirring main body 8031, the boss 308 is arranged on the transmission rod 8033, so that the transmission device can drive the stirring main body 8031 to rotate and the transmission rod 8033 to slide on the stirring main body 8031 in the use process, the mixing box 601 can be pushed to reciprocate by driving the telescopic cylinder 704, and the mixing gear 606 is driven to be meshed with the rack 206 by utilizing the reciprocating movement of the mixing box 601, the mixing screw rod 605 is driven to rotate, the mixing baffle 602 is pushed to reciprocate on the axial upper seat of the mixing box body 601 by utilizing the threaded connection between the mixing screw rod 605 and the threaded sleeve 604, so that the situation that the powder component is adhered to the bottom of the mixing box body 601 to be hardened under the action of rotating centrifugal force in the rotating and stirring process of the stirring mechanism 8 can be prevented, the powder component hardened at the bottom of the mixing box body 601 can be pushed to be dispersed again by utilizing the reciprocating movement of the mixing baffle 602, meanwhile, the relative position between the stirring main body 8031 and the stirring auxiliary body 8034 in the stirring assembly 803 is changed, the stirring path of the stirring auxiliary body 8034 is further changed, an irregular stirring effect is formed, the stirring effect can be enhanced, and the hardening of the powder component in the stirring process can also be reduced; in addition, the top of the mixing box body 601 is fixedly connected with a liquid medicament adding port, and a quantitative electromagnetic valve is arranged on the liquid medicament adding port, so that the liquid medicament is added into the veterinary disinfectant powder by switching on and off the quantitative electromagnetic valve in the process of mixing the veterinary disinfectant powder, and meanwhile, the quantitative electromagnetic valve can be used for accurately controlling the added liquid medicament.
The invention relates to a processing method for high-efficiency mixing and hardening prevention of veterinary disinfection powder, which comprises the following working principles:
when the device is used, the adjusting motor 504 is driven to drive the adjusting gear to rotate, the gear 403 1/2 is driven to rotate by the friction between the adjusting gear and the transmission friction wheel 402, the gear 1/2 is meshed with the feeding gear 303 to drive the crankshaft 302 to rotate, the connecting rod 306 is used for pushing the feeding box body 304 to reciprocate on the feeding support 301 in the rotation process of the crankshaft 302, because the 1/2 gear 403 is arranged in the movement process, the gear 1/2 is not meshed with one side of the feeding gear 303, the feeding box body 304 just completes one-side one-way movement, the material supplementing or discharging is completed in the meshing interval, the powder components in the feeding support 301 can be prevented from falling off in the discharging process due to the arrangement of the feeding baffle plate, the powder components in the feeding box body 304 can be concentrated in the mixing box body 601 through the material guide pipe 204 through the material guide box body 202 for stirring, because the added powder components need different proportions, the adjusting sliding frame 502 can be pushed to move by rotating the adjusting screw rod 503, the distance between the adjusting friction wheel 505 and the center of the transmission friction wheel 402 is further changed, the speed ratio between the transmission friction wheels 402 is changed, the moving frequency of the two feeding boxes 304 is changed, the proportion of the added powder components is further changed, in the using process, the powder components in the mixing box 601 are continuously increased, the ratio between the weight of the mixed powder components and the weight of the added powder components is increased, although the influence of the newly added powder components on the mixing effect is smaller and smaller in the process, the working efficiency of the device is greatly reduced, the weight of the powder components is utilized to enable the moving support 201 to move under the action of gravity in the process of mixing the powder components, and the feeding sliding box 307 is driven to move downwards, more materials are added in the feeding process by the feeding mechanism 3, so that more powder components can be added each time under the condition of not influencing the mixing effect of the device, and the working efficiency of the device can be greatly increased; the worm 702 is driven to rotate by driving the power motor 703, so that the worm wheel ring 802 is meshed with the worm 702 to drive the stirring mechanism 8 to rotate, the stirring gear 8035 and the toothed ring 603 which are arranged on two sides of the stirring assembly 803 are subjected to coring to drive the stirring auxiliary body 8034 to rotate by utilizing the rotation of the stirring mechanism 8, the stirring auxiliary body 8034 drives the stirring main body 8031 to rotate through the transmission rod 8033, the powder components can be stirred by utilizing the stirring rod 8032 arranged on the stirring auxiliary body 8034 and the stirring main body 8031, the boss 308 is arranged on the transmission rod 8033, so that the transmission device can drive the stirring main body 8031 to rotate and the transmission rod 8033 to slide on the stirring main body 8031 in the use process, the mixing box 601 can be pushed to reciprocate by driving the telescopic cylinder 704, and the mixing gear 606 is driven to be meshed with the rack 206 by utilizing the reciprocating movement of the mixing box 601, the mixing screw rod 605 is driven to rotate, the mixing baffle 602 is pushed to move back and forth in the axial direction of the mixing box body 601 by the threaded connection of the mixing screw rod 605 and the threaded sleeve 604, so that the stirring mechanism 8 can be prevented from rotating and stirring, powder components are adhered to the bottom of the mixing box body 601 to be hardened under the action of rotating centrifugal force, the powder components hardened at the bottom of the mixing box body 601 can be pushed to be dispersed again by the reciprocating movement of the mixing baffle 602, meanwhile, the relative positions of the stirring main body 8031 and the stirring auxiliary body 8034 in the stirring assembly 803 are changed, the stirring path of the stirring auxiliary body 8034 is changed, an irregular stirring effect is formed, the stirring effect can be enhanced, and meanwhile, the hardening of the powder components in the stirring process can be reduced.
The invention is not limited to the above alternative embodiments, and any other various forms of products can be obtained by anyone in the light of the present invention, but any changes in shape or structure thereof, which fall within the scope of the present invention as defined in the claims, fall within the scope of the present invention.
Claims (10)
1. A processing method for high-efficiency mixing and hardening prevention of veterinary disinfection powder is characterized by comprising the following steps: comprises the following steps of realizing the mixing of veterinary disinfectant powder:
s1: adjusting and regulating mechanisms (5) are used for respectively setting the motion frequency of different feeding mechanisms (3);
s2: respectively preparing the prepared powder components of the veterinary disinfection powder, and respectively pouring the prepared powder components into corresponding feeding mechanisms (3);
s3: the adjusting mechanism (5) is driven, so that different feeding mechanisms (3) convey powder components into the mixing mechanism (6) according to preset movement frequency;
s4: the power mechanism (7) drives the stirring mechanism (8) to move, powder components in the mixing mechanism (6) are stirred, and the veterinary disinfection powder is obtained after complete mixing;
s5: subpackaging the veterinary disinfection powder;
adjustment mechanism (5) feed mechanism (3) moving mechanism (2) mixing mechanism (6) with rabbling mechanism (8) all set up on supporting mechanism (1), constitute jointly veterinary disinfection powder mixing apparatus.
2. The processing method for high-efficiency mixing and hardening prevention of the veterinary disinfectant powder according to claim 1, which is characterized by comprising the following steps: in the mixing process of S5, the weight of the powder component in the mixing mechanism (6) is used for controlling the weight of the feeding mechanism (3) in each feeding.
3. The processing method for high-efficiency mixing and hardening prevention of the veterinary disinfectant powder according to claim 1, which is characterized by comprising the following steps: the veterinary disinfection powder mixing equipment also comprises a transmission mechanism (4), the feeding mechanism (3) is provided with two parts which are fixedly connected with the upper part of the supporting mechanism (1), the moving mechanism (2) is connected with the middle part of the supporting mechanism (1) in a sliding way, the two feeding mechanisms (3) are connected with the moving mechanism (2) in a sliding way, the adjusting mechanism (5) is fixedly connected with the front side of the upper part of the supporting mechanism (1), the adjusting mechanism (5) is in transmission connection with the two feeding mechanisms (3) through a transmission mechanism (4), the two sides of the moving mechanism (2) are both fixedly connected with mixing mechanisms (6), a stirring mechanism (8) is connected between the two mixing mechanisms (6), the outer sides of the two mixing mechanisms (6) are sleeved with power mechanisms (7), the power mechanism (7) is in transmission connection with the stirring mechanism (8).
4. The processing method for high-efficiency mixing and hardening prevention of the veterinary disinfectant powder according to claim 3, which is characterized by comprising the following steps: the moving mechanism (2) comprises a moving support (201) which is connected to the supporting mechanism (1) in a sliding mode, elastic pieces are arranged between the moving support (201) and the supporting mechanism (1), material guide box bodies (202) are arranged on two sides of the moving support (201), moving sliding grooves (203) are arranged on two sides of the upper portion of each material guide box body (202), material guide pipes (204) are connected to the lower portions of the material guide box bodies (202), rectangular sliding grooves (205) are arranged on the lower portions of two sides of the moving support (201), and racks (206) are fixedly connected to the bottom of the outer sides of the rectangular sliding grooves (205).
5. The processing method for high-efficiency mixing and hardening prevention of veterinary disinfectant powder according to claim 4, which is characterized by comprising the following steps: adjustment mechanism (5) are including fixed connection adjusting bracket (501) on supporting mechanism (1), sliding connection has adjusting carriage (502) on adjusting bracket (501), it is connected with accommodate the lead screw (503) to rotate on adjusting bracket (501), accommodate the lead screw (503) with threaded connection between adjusting carriage (502), fixed connection accommodate motor (504) on adjusting carriage (502), equal fixedly connected with adjusts friction pulley (505) on the output shaft of accommodate motor (504) both sides.
6. The processing method for high-efficiency mixing and hardening prevention of veterinary disinfectant powder according to claim 5, which is characterized by comprising the following steps: feeding mechanism (3) are including fixed connection material loading support (301) on supporting mechanism (1), it is connected with bent axle (302) to rotate on material loading support (301), the one end fixedly connected with material loading gear (303) of bent axle (302), the lower part sliding connection of material loading support (301) has material loading box (304), material loading box (304) with connect through connecting rod (306) between bent axle (302), the upper portion edge fixedly connected with striker plate (305) of material loading box (304), the inside sliding connection of material loading box (304) has material loading smooth case (307), the both sides of material loading smooth case (307) all are provided with boss (308), boss (308) sliding connection is in remove in spout (203).
7. The processing method for high-efficiency mixing and hardening prevention of veterinary disinfectant powder according to claim 6, which is characterized by comprising the following steps: drive mechanism (4) are including fixed connection drive support (401) between material loading support (301), drive support (401) fixed connection is two between material loading support (301), the both sides of drive support (401) are all rotated and are connected with transmission friction pulley (402), two transmission friction pulley (402) are adjusted the transmission respectively with both sides and are connected between friction pulley (505), every equal fixedly connected with 1/2 gear (403) on transmission friction pulley (402), two 1/2 gear (403) respectively with two the transmission is connected between material loading gear (303).
8. The processing method for high-efficiency mixing and hardening prevention of veterinary disinfectant powder according to claim 4, which is characterized by comprising the following steps: the mixing mechanism (6) comprises a mixing box body (601) fixedly connected to the movable support (201), a mixing screw rod (605) is connected to the mixing box body (601) in a rotating mode, one end, located on the outer side of the mixing box body (601), of the mixing screw rod (605) is fixedly connected with a mixing gear (606), the mixing gear (606) is in transmission connection with the rack (206), a mixing baffle (602) is axially and slidably connected to the inside of the mixing box body (601), a toothed ring (603) is fixedly connected to the inner side of the mixing baffle (602), a threaded sleeve (604) is fixedly connected to the outer side of the mixing baffle (602), the mixing screw rod (605) is in threaded connection with the threaded sleeve (604), a discharging hole (607) is formed in the lower portion of the mixing box body (601), and an electromagnetic valve (608) is arranged on the discharging hole (607), the mixing box body (601) is communicated with the material guide box body (202) through the material guide pipe (204), and one end of the material guide pipe (204) extends to the inner side of the mixing baffle plate (602).
9. The processing method for high-efficiency mixing and hardening prevention of veterinary disinfectant powder according to claim 8, which is characterized by comprising the following steps: the power mechanism (7) comprises power supports (701) fixedly connected to the two sides of the mixing box body (601), a telescopic cylinder (704) is arranged between each power support (701) and the corresponding supporting mechanism (1), a worm (702) is connected to each power support (701) in a rotating mode, one end of each power support (701) is fixedly connected with a power motor (703), and an output shaft of each power motor (703) is fixedly connected with one end of each worm (702).
10. The processing method for high-efficiency mixing and hardening prevention of veterinary disinfectant powder according to claim 9, which is characterized by comprising the following steps: the stirring mechanism (8) comprises a stirring support (801) which is rotatably connected between the mixing box bodies (601) on the two sides, a worm gear ring (802) is fixedly connected to the outer side of the stirring support (801), the worm gear ring (802) is in transmission connection with the worm (702), and a plurality of stirring assemblies (803) are rotatably connected to the inner portion of the stirring support (801).
Stirring subassembly (803) is connected including rotating stirring main part (8031) on stirring support (801), the both sides of stirring main part (8031) all are connected with stirring auxiliary body (8034) through transfer line (8033) transmission, the cover is equipped with the elastic component on transfer line (8033), stirring main part (8031) with all be provided with puddler (8032), every on stirring auxiliary body (8034) equal fixedly connected with stirring gear (8035), stirring gear (8035) of both sides respectively with the ring gear (603) of both sides between the transmission be connected.
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Application publication date: 20211207 |