A concentration device for veterinary medicaments
By installing a rotating cleaning component on the top of the concentration tank and a stirring component at the bottom, the problem of incomplete cleaning of the concentration tank is solved, achieving efficient cleaning and stirring effects and improving the utilization efficiency of the veterinary drug concentration device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 镇江威特药业有限责任公司
- Filing Date
- 2024-12-16
- Publication Date
- 2026-06-23
AI Technical Summary
In existing veterinary drug concentration devices, the concentration tanks are fixed and sealed, making it impossible to clean them in a timely manner after use. Traditional cleaning methods cannot effectively remove the concentrated drug liquid adhering to the tank, affecting the efficiency of the device.
A rotatable cleaning assembly, including a cleaning pipe and a scraper, is installed on the top of the concentration tank. A drive unit rotates the connecting rod and the cleaning pipe, spraying cleaning fluid to rinse the tank wall and scraping away residue with the scraper. An agitation assembly is installed at the bottom of the concentration tank. A drive unit drives the agitator rod and agitator blades to clean and agitate the tank wall and conical section.
This improved the cleaning and utilization efficiency of the concentration tank, ensuring the concentration quality of the next batch of veterinary drugs and enhancing the cleaning effect and processing efficiency of the equipment.
Smart Images

Figure CN224388086U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of veterinary drug production technology, specifically to a veterinary drug concentration device. Background Technology
[0002] Veterinary drugs are substances used to prevent, treat, or diagnose animal diseases or to purposefully regulate animal physiological functions. Existing traditional Chinese medicine preparations for use as veterinary drugs require the concentration of the decocted traditional Chinese medicine.
[0003] Chinese utility model patent 2019224193095 discloses a vacuum concentration machine for animal-use traditional Chinese medicine liquid. It uses a rack and pinion mechanism within a water bath to drive a reduction motor, causing the concentration tank to reciprocate within the bath, thus preventing the veterinary drug from becoming viscous during concentration. However, in animal drug production, concentration tanks are typically fixed. During high-temperature steam concentration, it's difficult to clean the tank promptly after use. Traditional cleaning methods involve rinsing with water, but this fails to remove the concentrated drug residue adhering to the tank, affecting the usability of the veterinary drug concentration device. Utility Model Content
[0004] In view of the above-mentioned defects or deficiencies in the prior art, it is desirable to provide a veterinary drug concentration device to solve the technical problem that the concentration tank of the existing veterinary drug concentration device is a fixed and sealed structure, which makes it impossible to clean the concentration tank in a timely manner after use. The traditional cleaning method is to rinse with water, but the concentrated drug juice adhering to the tank during the concentration process cannot be rinsed off, which affects the use of the veterinary drug concentration device.
[0005] According to the technical solution provided in the embodiments of this application, a veterinary drug concentration device includes a cleaning component installed on the top of the concentration tank for cleaning the inside of the concentration tank.
[0006] The cleaning assembly includes a first rotating drive, a first gear, a second gear, a first connecting block connecting rod, and a cleaning tube. The connecting rod and the cleaning tube are installed on opposite sides of the bottom of the first connecting block. The top of the cleaning tube communicates with a water inlet on the first connecting block. A second gear is installed on the outside of the first connecting block, and the second gear meshes with the first gear. The first gear is fixedly connected to the output end of the first rotating drive, so that the first rotating drive drives the connecting rod and the cleaning tube fixedly connected to the bottom of the first connecting block to rotate along the tank wall of the concentration tank, thereby rotating and cleaning the concentrated veterinary drug agent adhering to the tank wall of the concentration tank.
[0007] The cleaning tube has several cleaning holes on its outer side, and each cleaning hole is equipped with a corresponding nozzle so that cleaning liquid is sprayed out from each nozzle to rinse and clean the wall of the concentration tank.
[0008] A scraper, installed on the outside of the vertical part of the connecting rod, is used to scrape off residual water stains and concentrated medicine adhering to the wall of the concentration tank after rinsing;
[0009] A stirring assembly is installed at the bottom outlet of the concentration tank and is used for stirring and cleaning the conical part of the concentration tank.
[0010] The stirring assembly includes a second rotary drive, a third gear, a fourth gear, a second connecting block, and a plurality of first stirring rods and second stirring rods. The second stirring rods are vertically mounted on the top of the second connecting block, while the plurality of first stirring rods are inclined and arranged side by side and spaced apart on the outside of the second connecting block. The fourth gear is mounted on the outside of the second connecting block and meshes with the third gear. The third gear is fixedly connected to the output end of the second rotary drive, so that the second rotary drive drives the plurality of first stirring rods and second stirring rods mounted on the second connecting block to rotate for cleaning the bottom of the concentration tank.
[0011] Furthermore, the first connecting block is movably connected to the exhaust pipe via a first bearing.
[0012] Furthermore, the second connecting block is provided with several discharge holes for discharging the concentrated veterinary drugs and cleaning wastewater from the concentration tank.
[0013] Furthermore, each of the first stirring rods abuts against the conical portion of the concentration tank, and the first stirring rod is provided with a plurality of flow holes.
[0014] Furthermore, the second stirring rod is equipped with several stirring blades for stirring the veterinary drug in the concentration tank.
[0015] Furthermore, the scraper has a strip-shaped structure and is made of plastic.
[0016] Furthermore, a cleaning box is also installed on the top of the first connecting block, and the bottom of the cleaning box is connected to the water inlet tank on the first connecting block.
[0017] Furthermore, the bottom of the water inlet tank is connected to the water inlet hole.
[0018] Furthermore, a jacket is fitted around the outside of the concentration tank, and an air inlet pipe and an exhaust pipe are provided on the side of the jacket for high-temperature steam to enter the jacket and evaporate and concentrate the veterinary drug in the concentration tank.
[0019] Furthermore, a water inlet pipe is installed on the side of the cleaning tank for the cleaning solution to be introduced into the cleaning tank through the water inlet pipe.
[0020] In summary, the beneficial effects of this application are as follows:
[0021] 1. By installing a rotatable cleaning component on the top of the concentration tank of the veterinary drug concentration device, the first rotating drive component on the cleaning component drives the first connecting block, which is equipped with a connecting rod and a cleaning pipe, to rotate, so that cleaning water is sprayed out from each nozzle on the cleaning pipe to rinse the upper part of the concentration tank. Meanwhile, the strip scraper installed on the connecting rod scrapes off the water stains remaining after rinsing and the veterinary drugs that stick to the tank wall after concentration, thereby improving the cleaning efficiency and usage efficiency of the veterinary drug concentration device.
[0022] Second, by setting a stirring assembly on the conical part of the concentration tank and setting a first stirring rod that fits against the tank wall on the outside of the second connecting block on the stirring assembly, the second rotation drive unit drives the first stirring rod on the second connecting block to rotate, thereby removing water stains flowing along the tank wall after rinsing, and improving the cleaning efficiency and usage efficiency of the veterinary drug concentration device. Attached Figure Description
[0023] Other features, objects, and advantages of this application will become more apparent from the following detailed description of non-limiting embodiments with reference to the accompanying drawings:
[0024] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0025] Figure 2 This is a schematic cross-sectional view of the present invention.
[0026] Figure 3 This is a front cross-sectional view of the present invention.
[0027] Figure 4 This is a schematic diagram of the cleaning component structure of this utility model;
[0028] Figure 5 This is a schematic cross-sectional view of the cleaning component of this utility model;
[0029] Figure 6 This is a schematic diagram of the stirring assembly structure of this utility model.
[0030] The following are the labeling elements in the diagram: Cleaning component-100, First rotating drive component-110, First gear-120, Second gear-130, First connecting block-140, Connecting rod-150, Cleaning pipe-160, Scraper-170, Nozzle-180, Cleaning box-190, Concentration tank-200, Conical part-210, Stirring component-300, Second rotating drive component-310, Third gear-320, Fourth gear-330, Second connecting block-340, First stirring rod-350, Second stirring rod-360. Detailed Implementation
[0031] The present application will now be described in further detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the relevant utility model and not intended to limit the scope of the utility model. Furthermore, it should be noted that, for ease of description, only the parts relevant to the utility model are shown in the accompanying drawings.
[0032] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. This application will now be described in detail with reference to the accompanying drawings and embodiments.
[0033] A veterinary drug concentration device, the structure of which is as follows: Figures 1-6As shown, a cleaning assembly 100 is installed on top of a concentration tank 200 for cleaning the upper interior of the concentration tank 200. The cleaning assembly 100 includes a first rotation drive 110, a first gear 120, a second gear 130, a first connecting block 140, a connecting rod 150, and a cleaning pipe 160. The connecting rod 150 and the cleaning pipe 160 are correspondingly installed on both sides of the bottom of the first connecting block 140. The top of the cleaning pipe 160 communicates with a water inlet on the first connecting block 140. The second gear 130 is installed on the outside of the first connecting block 140, meshing with the first gear 120. The first gear 120 is fixedly connected to the output end of the first rotation drive 110, thereby driving the first rotation drive 110 to a fixed position. The first gear 120 rotates, causing the second gear 130 to rotate, which in turn causes the first connecting block 140, on which the second gear 130 is mounted, to rotate. This causes the connecting rod 150 and the cleaning tube 160, which are fixedly connected to the bottom of the first connecting block 140, to rotate along the tank wall of the concentration tank 200, thereby rotating and cleaning the concentrated veterinary drug adhering to the tank wall of the concentration tank 200. The cleaning tube 160 has an L-shaped structure, with its outer side conforming to the internal structure of the concentration tank 200. Several cleaning holes are provided on the outer side of the tube that contacts the tank wall of the concentration tank 200. Each cleaning hole is equipped with a corresponding nozzle 180, allowing cleaning liquid to be sprayed from each nozzle 180, thereby cleaning the tank wall of the concentration tank 200. Rinsing and cleaning; scraper 170, installed on the outside of the vertical part of the connecting rod 150, is used to scrape off residual water stains and concentrated medicine adhering to the tank wall of the concentration tank 200 after rinsing; stirring assembly 300, installed at the bottom outlet of the concentration tank 200, is used for stirring and cleaning the conical part 210 of the concentration tank 200; the stirring assembly 300 includes a second rotating drive 310, a third gear 320, a fourth gear 330, a second connecting block 340, a plurality of first stirring rods 350 and second stirring rods 360, the second stirring rods 360 are vertically installed on the top of the second connecting block 340, while the plurality of first stirring rods 350 are inclined and spaced apart on the outside of the second connecting block 340, and the fourth gear 330 is installed on the... On the outer side of the second connecting block 340, the fourth gear 330 meshes with the third gear 320, and the third gear 320 is fixedly connected to the output end of the second rotary drive 310, so that the second rotary drive 310 on the stirring assembly 300 is started. The second rotary drive 310 drives the fixedly connected third gear 320 to rotate, and the third gear 320 drives the meshing fourth gear 330 to rotate, so that the second connecting block 340 with the fourth gear 330 is rotated, so that several first stirring rods 350 installed on the outer side of the second connecting block 340 and attached to the inner wall of the conical part 210 rotate, scraping off the water and medicine flowing through the conical part 210 after rinsing, thereby improving the cleaning efficiency and cleaning quality of the concentration tank 200 of the concentration device.
[0034] After the veterinary drug is concentrated in the concentration tank 200 of the concentration device, the concentrated veterinary drug is discharged from the drain pipe connected to the bottom of the concentration tank 200. During the concentration process, some drug remains on the tank wall of the concentration tank 200. In order not to affect the concentration of the next veterinary drug, the cleaning component installed on the top of the concentration tank 200 is activated. This causes the first rotating drive component 110 on the cleaning component to drive the fixedly connected first gear 120 to rotate, which in turn drives the meshing second gear 130 to rotate, causing the first connecting block 140, on which the second gear 130 is installed, to rotate. Meanwhile, the cleaning liquid is introduced into the cleaning tank 190 from the water inlet pipe, so that the liquid enters the connected cleaning pipe 160 from the water inlet hole on the first connecting block 140 and is sprayed out from several nozzles 180 on the cleaning pipe 160 to rinse the upper part of the tank wall of the concentration tank 200. At the same time, the liquid rotates along the tank wall of the concentration tank 200 during the rinsing process, thereby thoroughly cleaning the concentration tank 200. A strip-shaped scraper 170 is also installed on the connecting rod 150 of the connecting block 140 to scrape off residual water stains and sticky veterinary drugs after rinsing, thereby improving the cleaning efficiency of the concentration device. A stirring assembly 300 is provided on the conical part 210 at the bottom of the concentration tank 200. The second rotation drive 310 on the stirring assembly 300 is activated, which drives the fixedly connected third gear 320 to rotate. The third gear 320 drives the meshing fourth gear 330 to rotate, thereby causing the second connecting block 340, on which the fourth gear 330 is installed, to rotate. This causes several first stirring rods 350 installed on the outside of the second connecting block 340 and in contact with the inner wall of the conical part 210 to rotate, scraping off the water and drugs flowing through the conical part 210 after rinsing. This improves the cleaning efficiency and quality of the concentration tank 200 of the concentration device, allowing the concentration tank 200 of the concentration device to quickly concentrate the next veterinary drug, thereby improving the processing efficiency of the concentration device for veterinary drugs.
[0035] As a preferred embodiment, please refer to Figure 2 and Figure 3 The first connecting block 140 is movably connected to the exhaust pipe through the first bearing, so that the first rotation drive 110 drives the first connecting block 140 to rotate along the exhaust pipe without affecting the normal use of the exhaust pipe.
[0036] As a preferred embodiment, please refer to Figure 2 and Figure 6 The second connecting block 340 is provided with several discharge holes so that the concentrated veterinary drugs and cleaning wastewater in the concentration tank 200 can be discharged from the discharge holes.
[0037] As a preferred embodiment, please refer to Figure 6Each of the first stirring rods 350 abuts against the conical portion 210 of the concentration tank 200, and the first stirring rod 350 is provided with a number of flow holes. When the first stirring blade rotates along the tank wall of the conical portion 210 of the concentration tank 200, the concentrated veterinary drug agent passes through the flow holes, so that the concentrated veterinary drug agent is fully stirred, thereby improving the concentration efficiency of the veterinary drug agent. At the same time, the second stirring rod 360 vertically mounted on the second connecting block 340 is provided with a number of stirring blades. The number of stirring blades on the rotating second stirring rod 360 are staggered to stir the veterinary drug agent in the concentration tank 200, thereby improving the concentration efficiency of the veterinary drug agent.
[0038] As a preferred embodiment, please refer to Figure 5 The scraper 170 has a strip-shaped structure and is made of plastic, so that the scraper 170 can remove water stains and residues left during the rinsing process.
[0039] As a preferred embodiment, please refer to Figure 3 and Figure 4 A cleaning tank 190 is also installed on the top of the first connecting block 140. A water inlet pipe is also installed on the side of the cleaning tank 190 for the cleaning liquid to be introduced into the cleaning tank 190 from the water inlet pipe. The bottom of the cleaning tank 190 is connected to the water inlet trough on the first connecting block 140. The bottom of the water inlet trough is connected to the water inlet hole so that the cleaning liquid is introduced into the cleaning pipe 160 from the water inlet hole and sprayed out from several nozzles 180 set on the cleaning pipe 160 to rinse and clean the tank wall of the concentration tank 200.
[0040] As a preferred embodiment, please refer to Figure 1 and Figure 2 The outside of the concentration tank 200 is also fitted with a jacket, and the side of the jacket is provided with an air inlet pipe and an exhaust pipe, which are used for high-temperature steam to enter the jacket and evaporate and concentrate the veterinary drug in the concentration tank 200.
[0041] The working principle of this utility model is as follows:
[0042] After the veterinary drug is concentrated in the concentration tank 200 of the concentration device, the concentrated veterinary drug is discharged from the drain pipe connected to the bottom of the concentration tank 200. During the concentration process, some drug remains on the tank wall of the concentration tank 200. In order not to affect the concentration of the next veterinary drug by the concentration tank 200, the cleaning component installed on the top of the concentration tank 200 is activated. This causes the first rotation drive 110 on the cleaning component to drive the fixedly connected first gear 120 to rotate, so that the first gear 120 drives the meshing second gear 130 to rotate, so that the first gear 120 with the second gear 130 installed on it can rotate. Block 140 rotates, while cleaning fluid enters the cleaning tank 190 from the inlet pipe, allowing water to enter the connected cleaning pipe 160 through the inlet hole on the first connecting block 140 and spray out from several nozzles 180 on the cleaning pipe 160 to rinse the upper part of the concentration tank 200. Simultaneously, the fluid rotates along the tank wall of the concentration tank 200 during rinsing, thus thoroughly cleaning the concentration tank 200. A strip-shaped scraper 170 is also installed on the connecting rod 150 of the first connecting block 140 to scrape away residual water stains and sticky veterinary drugs after rinsing, improving the efficiency of the concentration device. To improve cleaning efficiency, a stirring assembly 300 is installed on the conical portion 210 at the bottom of the concentration tank 200. This activates a second rotation drive 310 on the stirring assembly 300, which drives a fixedly connected third gear 320 to rotate. The third gear 320 then drives a meshing fourth gear 330 to rotate, causing a second connecting block 340, on which the fourth gear 330 is mounted, to rotate. This, in turn, causes several first stirring rods 350 mounted on the outer side of the second connecting block 340 and fitted against the inner wall of the conical portion 210 to rotate, scraping away the water and chemicals that have flowed through the conical portion 210 after rinsing. The cleaning efficiency and quality of the concentration tank 200 of the concentration device are improved, so that the concentration tank 200 on the concentration device can quickly concentrate the next veterinary drug, thereby improving the processing efficiency of the concentration device for veterinary drugs. At the same time, a first stirring rod 350 and a second stirring rod 360 are set at the bottom of the concentration tank 200 to stir the drug at the conical part 210 during the concentration process of the veterinary drug, so as to prevent uneven concentration and evaporation of the veterinary drug and improve the concentration efficiency of the concentration device for veterinary drugs.
[0043] The beneficial effects of this utility model are as follows:
[0044] 1. By installing a rotatable cleaning component on the top of the concentration tank 200 of the veterinary drug concentration device, the first rotation drive 110 on the cleaning component drives the first connecting block 140, which is equipped with a connecting rod 150 and a cleaning pipe 160, to rotate, so that cleaning water is sprayed out from each nozzle 180 on the cleaning pipe 160 to rinse the upper part of the concentration tank 200. Meanwhile, the strip scraper 170 installed on the connecting rod 150 scrapes off the water stains remaining after rinsing and the veterinary drug agent that sticks to the tank wall of the concentration tank 200 after concentration, thereby improving the cleaning efficiency and usage efficiency of the veterinary drug concentration device.
[0045] Second, by setting a stirring assembly 300 on the conical part 210 of the concentration tank 200, and setting a first stirring rod 350 that fits against the tank wall of the concentration tank 200 on the outside of the second connecting block 340 on the stirring assembly 300, the second rotation drive 310 drives the first stirring rod 350 on the second connecting block 340 to rotate, thereby removing water stains flowing along the tank wall after rinsing, and improving the cleaning efficiency and usage efficiency of the veterinary drug concentration device.
[0046] The above description is merely a preferred embodiment of this application and an explanation of the technical principles and solutions employed. Furthermore, the scope of the utility model involved in this application is not limited to the specific combination of the above-described technical features, but should also cover other technical solutions formed by any combination of the above-described technical features or their equivalents without departing from the inventive concept. For example, technical solutions formed by substituting the above features with (but not limited to) technical features with similar functions disclosed in this application.
Claims
1. A veterinary drug concentration device, characterized in that: Includes a cleaning assembly (100) mounted on top of a concentration tank (200) for cleaning the interior of the concentration tank (200); The cleaning assembly (100) includes a first rotation drive (110), a first gear (120), a second gear (130), a first connecting block (140), a connecting rod (150), and a cleaning tube (160). The connecting rod (150) and the cleaning tube (160) are installed on opposite sides of the bottom of the first connecting block (140). The top of the cleaning tube (160) communicates with the water inlet on the first connecting block (140), and a second gear is installed on the outside of the first connecting block (140). (130), the second gear (130) meshes with the first gear (120), the first gear (120) is fixedly connected to the output end of the first rotating drive (110), so that the first rotating drive (110) drives the connecting rod (150) and the cleaning tube (160) fixedly connected to the bottom of the first connecting block (140) to rotate along the tank wall of the concentration tank (200), thereby rotating and cleaning the concentrated veterinary drug agent adhering to the tank wall of the concentration tank (200); The cleaning tube (160) has several cleaning holes on its outer side, and each cleaning hole is equipped with a corresponding nozzle (180) so that the cleaning liquid is sprayed out from each nozzle (180) to rinse and clean the tank wall of the concentration tank (200). A scraper (170) is installed on the outside of the vertical part of the connecting rod (150) to scrape off the residual water stains after rinsing and the concentrated medicine adhering to the tank wall of the concentration tank (200); A stirring assembly (300) is installed at the bottom outlet of the concentration tank (200) for stirring and cleaning the conical part (210) of the concentration tank (200); The stirring assembly (300) includes a second rotation drive (310), a third gear (320), a fourth gear (330), a second connecting block (340), a plurality of first stirring rods (350) and a second stirring rod (360). The second stirring rod (360) is vertically mounted on the top of the second connecting block (340), while the plurality of first stirring rods (350) are inclined and spaced apart on the outside of the second connecting block (340). The fourth gear (330) is mounted on the outside of the second connecting block (340) and meshes with the third gear (320). The third gear (320) is fixedly connected to the output end of the second rotation drive (310) so that the second rotation drive (310) drives the plurality of first stirring rods (350) and the second stirring rods (360) mounted on the second connecting block (340) to rotate for cleaning the bottom of the concentration tank (200).
2. The veterinary drug concentration device according to claim 1, characterized in that: The first connecting block (140) is movably connected to the exhaust pipe via the first bearing.
3. The veterinary drug concentration device according to claim 1, characterized in that: The second connecting block (340) is provided with several discharge holes for discharging concentrated veterinary drugs and cleaning wastewater from the concentration tank (200).
4. The veterinary drug concentration device according to claim 1, characterized in that: Each of the first stirring rods (350) abuts against the conical portion (210) of the concentration tank (200) on its side, and the first stirring rod (350) is provided with a plurality of flow holes.
5. A veterinary drug concentration device according to claim 1, characterized in that: The second stirring rod (360) is provided with several stirring blades for stirring the veterinary drug in the concentration tank (200).
6. A veterinary drug concentration device according to claim 1, characterized in that: The scraper (170) has a strip-shaped structure and is made of plastic.
7. A veterinary drug concentration device according to claim 1, characterized in that: A cleaning box (190) is also installed on the top of the first connecting block (140), and the bottom of the cleaning box (190) is connected to the water inlet tank on the first connecting block (140).
8. A veterinary drug concentration device according to claim 7, characterized in that: The bottom of the water inlet tank is connected to the water inlet hole.