CN220455341U - Low-residue medicine preparation sampling device - Google Patents

Abstract

The utility model relates to the technical field of medicine preparation, and provides a low-residue medicine preparation sampling device which comprises a left transmission mechanism, wherein the left transmission mechanism comprises a left driving shaft, a first follower rod, a left transverse plate, a first belt, a second belt, a first follower rod, a left transmission output shaft, a first motor, a left fixing plate and a left driving belt, the left transmission output shaft is arranged on the right side of the first motor, the left driving belt covers the left transmission output shaft and the left driving shaft, the first follower rod is fixedly connected to the left side of the left driving shaft, the first follower rod is arranged below the first follower rod, the first belt covers the first follower rod and the first follower rod, the second belt covers the first follower rod, and the left fixing plate is fixedly connected to the first belt. Through above-mentioned technical scheme, solved among the prior art preparation inefficiency, and the not strong problem of practicality.

Description

Low-residue medicine preparation sampling device

Technical Field

The utility model relates to the technical field of medicine preparation, in particular to a low-residue medicine preparation sampling device.

Background

The material chemistry is researched from the aspect of chemistry, has trans-scientificity and practicality, is often required to be prepared in the field of medicine preparation, and is required to sample and analyze preparation test solution at any time in the process of material chemistry preparation so as to know parameters of the preparation test solution.

The authorized bulletin number in the prior art is: the utility model provides a material chemistry preparation sampling analysis device for medicine preparation of CN215727157, relates to medicine preparation technical field, in order to solve the problem that current sampling device structure is single and the sample is inconvenient. The inside of sampling tube is provided with the pressure chamber, the internally mounted of sampling tube has the actuating lever, the sealing head is installed to the lower extreme of actuating lever, the roof is installed to the upper end of actuating lever, electronic jar is all installed to the both sides of sampling tube, the upper end and the roof fixed connection of electronic jar, install the sampling tube between one side of sampling tube and the sampling lever, first check valve is installed to the upper end of sampling tube, the sampling tube is installed to the opposite side of sampling tube, the second check valve is installed to the upper end of sampling tube, the sampling tube is installed to the centre of sampling lever lower extreme, temperature sensing probe is installed to one side of sampling lever lower extreme, the PH detection is installed to the opposite side of sampling lever lower extreme, however this utility model preparation is efficient, and the practicality is not strong.

Disclosure of Invention

The utility model provides a low-residue medicine preparation sampling device, which solves the problems of low preparation efficiency and low practicability in the related technology.

The technical scheme of the utility model is as follows: the utility model provides a low medicine preparation sampling device that remains, includes left drive mechanism, left drive mechanism includes left drive shaft, a follower rod, left diaphragm, no. one belt, no. two belts, no. one follower rod, left drive output shaft, no. one motor, left fixed plate, left drive belt, left drive output shaft installs No. one motor's right side, left drive belt covers left drive output shaft with on the left drive shaft, a follower rod fixed connection is in the left side of left drive shaft, no. one follower rod sets up the below of a follower rod, no. one belt covers the follower rod with on the follower rod, no. two belts cover be in a follower rod with on the follower rod, left fixed plate fixed connection is in on the belt, a plurality of left diaphragm fixed connection is in on a plurality of left fixed plate.

Preferably, the motor is used for driving the left transmission output shaft to rotate, the left transmission output shaft is used for driving the left driving belt to rotate, the left driving belt is used for driving the left driving shaft to rotate, the left driving shaft is used for driving the first follower rod to rotate, the first follower rod is used for driving the first belt and the second belt to rotate, the first belt is used for driving the first follower rod to rotate, the first belt is used for driving the left fixing plate to rotate, and the left fixing plate is used for driving the left transverse plate to rotate.

Preferably, the right side of left drive mechanism is provided with right drive mechanism, right drive mechanism includes right drive shaft, no. two follow-up bars, right diaphragm, right fixed plate, no. three belt, no. two driven bars, no. four belts, right drive belt, right drive output shaft, no. two motors, right drive output shaft installs No. two motor's right side, right drive belt covers right drive output shaft with on the left drive shaft, no. two follow-up bars fixed connection is in the left side of right drive shaft, no. two driven bars set up No. two follow-up bars's below, no. three belts cover No. two follow-up bars with on No. two driven bars, no. four belts cover No. two follow-up bars with on No. two driven bars, right fixed plate fixed connection is in on No. three belts, a plurality of right diaphragm fixed connection is in on a plurality of right fixed plate.

Preferably, the motor No. two drives the right transmission output shaft rotates, the right transmission output shaft drives right drive belt rotates, right drive belt drives right drive shaft rotates, right drive shaft drives No. two follower levers rotate, no. two follower levers drive No. three belts with No. four belts rotate, no. three belts drive No. two follower levers rotate, no. three belts drive right fixed plate rotates, right fixed plate drives right diaphragm rotates.

Preferably, the right side of left drive mechanism installs the disc seat, the bottom fixedly connected with of disc seat is a plurality of supports, the inside of support is provided with preceding right-hand member, the left side fixed cover of preceding right-hand member is equipped with the front wheel pole, the left side cover of front wheel pole is equipped with preceding left wheel, the left end fixedly connected with of front wheel pole advances the output shaft, advance the left side of output shaft and install the motor that advances.

Preferably, a backward motor is installed below the forward motor, a backward output shaft is installed on the right side of the backward motor, a rear left wheel is sleeved on the right side of the backward output shaft, a rear wheel rod is fixedly sleeved on the right side of the rear left wheel, and a rear right wheel is fixedly sleeved on the right side of the rear wheel rod.

Preferably, a left frame is installed on the outer side of the left transmission mechanism, and a left shovel tooth is fixedly connected to the bottom of the left frame.

Preferably, the right frame is installed in the outside of right drive mechanism, the top fixedly connected with right forming relieved tooth of right frame, the top of disc seat is provided with a plurality of flourishing appearance section of thick bamboo, a plurality of flourishing appearance section of thick bamboo evenly arranges.

The working principle and the beneficial effects of the utility model are as follows:

1. according to the utility model, the motor II drives the right transmission output shaft to rotate, the right transmission output shaft drives the right driving belt to rotate, the right driving belt drives the right driving shaft to rotate, the right driving shaft drives the second follower rod to rotate, the second follower rod drives the belt III and the belt IV to rotate, the belt III drives the driven rod II to rotate, the belt III drives the right fixing plate to rotate, and the right fixing plate drives the right transverse plate to rotate, so that medicines on the right side can be conveyed into the sample holding barrel, and the left side is still the same, so that the working efficiency is greatly improved.

2. According to the utility model, the motor is driven to rotate by the front wheel rod, and the front wheel rod drives the front left wheel and the front right wheel to rotate, so that the medicine can move freely, the medicine can be sampled while walking, the manpower is greatly saved, the worker does not need to bend down for sampling, and the usability and the practicability of the equipment are greatly improved.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a left drive mechanism according to the present utility model;

FIG. 3 is a schematic view of the right transmission mechanism of the present utility model;

FIG. 4 is a schematic view of the running gear of the present utility model;

fig. 5 is a schematic view of the relieved tooth structure of the present utility model.

In the figure: 1. a left transmission mechanism; 101. a left drive shaft; 102. a first follower rod; 103. a left cross plate; 104. a first belt; 105. a second belt; 106. a first driven rod; 107. a left transmission output shaft; 108. a motor I; 109. a left fixing plate; 110. a left drive belt; 2. left relieved tooth; 3. a left frame; 4. a disc seat; 5. a rear wheel lever; 6. a bracket; 7. a rear right wheel; 8. a front wheel lever; 9. a front right wheel; 10. a sample holding cylinder; 11. a front left wheel; 12. a rear left wheel; 13. advancing the output shaft; 14. a backing output shaft; 15. advancing the motor; 16. a backing motor; 17. a right transmission mechanism; 171. a right drive shaft; 172. a second follow-up rod; 173. a right cross plate; 174. a right fixing plate; 175. a third belt; 176. a second driven rod; 177. a fourth belt; 178. a right drive belt; 179. a right transmission output shaft; 180. a motor II; 18. a right frame; 19. right relieved tooth.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

As shown in fig. 1 to 5, the present embodiment proposes a left transmission mechanism 1, the left transmission mechanism 1 includes a left driving shaft 101, a first follower rod 102, a left cross plate 103, a first belt 104, a second belt 105, a first follower rod 106, a left transmission output shaft 107, a first motor 108, a left fixing plate 109, and a left driving belt 110, the left transmission output shaft 107 is mounted on the right side of the first motor 108, the left driving belt 110 covers the left transmission output shaft 107 and the left driving shaft 101, the first follower rod 102 is fixedly connected on the left side of the left driving shaft 101, the first follower rod 106 is disposed below the first follower rod 102, the first belt 104 covers the first follower rod 102 and the first follower rod 106, the second belt 105 covers the first follower rod 102 and the first follower rod 106, the left fixing plate 109 is fixedly connected on the first belt 104, and the plurality of left cross plates 103 are fixedly connected on the plurality of left fixing plates 109;

the first motor 108 drives the left transmission output shaft 107 to rotate, the left transmission output shaft 107 drives the left driving belt 110 to rotate, the left driving belt 110 drives the left driving shaft 101 to rotate, the left driving shaft 101 drives the first follower rod 102 to rotate, the first follower rod 102 drives the first belt 104 and the second belt 105 to rotate, the first belt 104 drives the first follower rod 106 to rotate, the first belt 104 drives the left fixing plate 109 to rotate, and the left fixing plate 109 drives the left transverse plate 103 to rotate;

the right side of the left transmission mechanism 1 is provided with a right transmission mechanism 17, the right transmission mechanism 17 comprises a right driving shaft 171, a second follower rod 172, a right transverse plate 173, a right fixing plate 174, a third belt 175, a second follower rod 176, a fourth belt 177, a right driving belt 178, a right transmission output shaft 179 and a second motor 180, the right transmission output shaft 179 is arranged on the right side of the second motor 180, the right driving belt 178 is covered on the right transmission output shaft 179 and the left driving shaft 101, the second follower rod 172 is fixedly connected on the left side of the right driving shaft 171, the second follower rod 176 is arranged below the second follower rod 172, the third belt 175 is covered on the second follower rod 172 and the second follower rod 176, the fourth belt 177 is covered on the second follower rod 172 and the second follower rod 176, the right fixing plate 174 is fixedly connected on the third belt 175, and the right transverse plate 173 is fixedly connected on the right fixing plates 174;

the second motor 180 drives the right transmission output shaft 179 to rotate, the right transmission output shaft 179 drives the right driving belt 178 to rotate, the right driving belt 178 drives the right driving shaft 171 to rotate, the right driving shaft 171 drives the second follower rod 172 to rotate, the second follower rod 172 drives the third belt 175 and the fourth belt 177 to rotate, the third belt 175 drives the second follower rod 176 to rotate, the third belt 175 drives the right fixing plate 174 to rotate, and the right fixing plate 174 drives the right transverse plate 173 to rotate;

the right side of the left transmission mechanism 1 is provided with a disc seat 4, the bottom of the disc seat 4 is fixedly connected with a plurality of brackets 6, the inside of each bracket 6 is provided with a front right wheel 9, the left side of each front right wheel 9 is fixedly sleeved with a front wheel rod 8, the left side of each front wheel rod 8 is sleeved with a front left wheel 11, the left end of each front wheel rod 8 is fixedly connected with an advancing output shaft 13, and the left side of each advancing output shaft 13 is provided with an advancing motor 15;

a back motor 16 is arranged below the front motor 15, a back output shaft 14 is arranged on the right side of the back motor 16, a back left wheel 12 is sleeved on the right side of the back output shaft 14, a back wheel rod 5 is fixedly sleeved on the right side of the back left wheel 12, and a back right wheel 7 is fixedly sleeved on the right side of the back wheel rod 5;

the left frame 3 is arranged on the outer side of the left transmission mechanism 1, and the bottom of the left frame 3 is fixedly connected with the left shovel teeth 2;

a right frame 18 is arranged on the outer side of the right transmission mechanism 17, a right shovel tooth 19 is fixedly connected to the top of the right frame 18, a plurality of sample holding cylinders 10 are arranged on the top of the disc seat 4, and the sample holding cylinders 10 are uniformly distributed;

in this embodiment, in order to improve usability of the apparatus, the left transmission mechanism 1 includes a left driving shaft 101, a first follower rod 102, a left transverse plate 103, a first belt 104, a second belt 105, a first follower rod 106, a left transmission output shaft 107, a first motor 108, a left fixing plate 109, and a left driving belt 110, the left transmission output shaft 107 is mounted on the right side of the first motor 108, the left driving belt 110 is covered on the left transmission output shaft 107 and the left driving shaft 101, the first follower rod 102 is fixedly connected on the left side of the left driving shaft 101, the first follower rod is disposed below the first follower rod 102, the first belt 104 is covered on the first follower rod 102 and the first follower rod 106, the second belt 105 is covered on the first follower rod 102 and the first follower rod 106, the left fixing plate 109 is fixedly connected on the first belt 104, and the plurality of left transverse plates 103 are fixedly connected on the plurality of left fixing plates 109, thereby greatly improving working efficiency.

Example 2

As shown in fig. 1 to 5, based on the same concept as that of the above embodiment 1, the present embodiment further proposes that the right side of the left transmission mechanism 1 is provided with the right transmission mechanism 17, the right transmission mechanism 17 includes a right driving shaft 171, a second follower lever 172, a right transverse plate 173, a right fixing plate 174, a third belt 175, a second follower lever 176, a fourth belt 177, a right driving belt 178, a right transmission output shaft 179, a second motor 180, the right transmission output shaft 179 is mounted on the right side of the second motor 180, the right driving belt 178 is covered on the right transmission output shaft 179 and the left driving shaft 101, the second follower lever 172 is fixedly connected on the left side of the right driving shaft 171, the second follower lever is disposed below the second follower lever 172, the third belt 175 is covered on the second follower lever 172 and the second follower lever 176, the right fixing plate 174 is fixedly connected on the third belt 175, and the right transverse plate 173 is fixedly connected on the right fixing plate 174, thereby greatly improving the usability and practicality.

Working principle: when the preparation sampling device is used, an operator firstly moves equipment to a corresponding place, then the operator starts a first motor 108, then the first motor 108 drives a left transmission output shaft 107 to rotate, the left transmission output shaft 107 drives a left driving belt 110 to rotate, the left driving belt 110 drives a left driving shaft 101 to rotate, the left driving shaft 101 drives a first follower rod 102 to rotate, the first follower rod 102 drives a first belt 104 and a second belt 105 to rotate, the first belt 104 drives a first follower rod 106 to rotate, the first belt 104 drives a left fixing plate 109 to rotate, the left fixing plate 109 drives a left transverse plate 103 to rotate, and therefore medicines on the left side can be conveyed into a sample holding cylinder 10.

Then, an operator starts a second motor 180, the second motor 180 drives a right transmission output shaft 179 to rotate, the right transmission output shaft 179 drives a right driving belt 178 to rotate, the right driving belt 178 drives a right driving shaft 171 to rotate, the right driving shaft 171 drives a second follower rod 172 to rotate, the second follower rod 172 drives a third belt 175 and a fourth belt 177 to rotate, the third belt 175 drives a second follower rod 176 to rotate, the third belt 175 drives a right fixing plate 174 to rotate, the right fixing plate 174 drives a right transverse plate 173 to rotate, so that medicines on the right side can be conveyed into the sample holding cylinder 10, finally, an advancing motor 15 is started, the advancing motor 15 drives a front wheel rod 8 to rotate, and the front wheel rod 8 drives a front left wheel 11 and a front right wheel 9 to rotate, so that the medicines can move freely and the medicines can be sampled while walking.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (8)

1. The low-residue medicine preparation sampling device is characterized by comprising a left transmission mechanism (1), wherein the left transmission mechanism (1) comprises a left driving shaft (101), a first follower rod (102), a left transverse plate (103), a first belt (104), a second belt (105), a first follower rod (106), a left transmission output shaft (107), a first motor (108), a left fixing plate (109) and a left driving belt (110);

the left transmission output shaft (107) is installed on the right side of a first motor (108), a left driving belt (110) covers the left transmission output shaft (107) and the left driving shaft (101), a first follower rod (102) is fixedly connected to the left side of the left driving shaft (101), a first follower rod (106) is arranged below the first follower rod (102), a first belt (104) covers the first follower rod (102) and the first follower rod (106), a second belt (105) covers the first follower rod (102) and the first follower rod (106), a left fixing plate (109) is fixedly connected to the first belt (104), and a plurality of left transverse plates (103) are fixedly connected to a plurality of left fixing plates (109).

2. The low-residue medicine preparation sampling device according to claim 1, wherein the first motor (108) drives the left transmission output shaft (107) to rotate, the left transmission output shaft (107) drives the left driving belt (110) to rotate, the left driving belt (110) drives the left driving shaft (101) to rotate, the left driving shaft (101) drives the first follower rod (102) to rotate, the first follower rod (102) drives the first belt (104) and the second belt (105) to rotate, the first belt (104) drives the first follower rod (106) to rotate, the first belt (104) drives the left fixing plate (109) to rotate, and the left fixing plate (109) drives the left transverse plate (103) to rotate.

3. The low residue medicine preparation sampling device according to claim 2, wherein the right side of the left transmission mechanism (1) is provided with a right transmission mechanism (17), the right transmission mechanism (17) comprises a right driving shaft (171), a second follower rod (172), a right transverse plate (173), a right fixing plate (174), a third belt (175), a second follower rod (176), a fourth belt (177), a right driving belt (178), a right transmission output shaft (179) and a second motor (180), the right transmission output shaft (179) is arranged on the right side of the second motor (180), the right driving belt (178) is covered on the right transmission output shaft (179) and the left driving shaft (101), the second follower rod (172) is fixedly connected on the left side of the right driving shaft (171), the second follower rod (176) is arranged below the second follower rod (172), the third belt (175) is covered on the second follower rod (172) and the second follower rod (176), the second belt (176) is covered on the second follower rod (172) and the third follower rod (176) is fixedly connected on the third follower rod (176), the right transverse plates (173) are fixedly connected to the right fixing plates (174).

4. A low residue medicine preparation sampling device according to claim 3, wherein the second motor (180) drives the right transmission output shaft (179) to rotate, the right transmission output shaft (179) drives the right driving belt (178) to rotate, the right driving belt (178) drives the right driving shaft (171) to rotate, the right driving shaft (171) drives the second follower rod (172) to rotate, the second follower rod (172) drives the third belt (175) and the fourth belt (177) to rotate, the third belt (175) drives the second follower rod (176) to rotate, the third belt (175) drives the right fixing plate (174) to rotate, and the right fixing plate (174) drives the right transverse plate (173) to rotate.

5. The low-residue medicine preparation sampling device according to claim 4, wherein the right side of the left transmission mechanism (1) is provided with a disc seat (4), the bottom of the disc seat (4) is fixedly connected with a plurality of brackets (6), the inside of the brackets (6) is provided with a front right wheel (9), the left side of the front right wheel (9) is fixedly sleeved with a front wheel rod (8), the left side of the front wheel rod (8) is sleeved with a front left wheel (11), the left end of the front wheel rod (8) is fixedly connected with an advancing output shaft (13), and the left side of the advancing output shaft (13) is provided with an advancing motor (15).

6. The low-residue medicine preparation sampling device according to claim 5, wherein a back motor (16) is installed below the front motor (15), a back output shaft (14) is installed on the right side of the back motor (16), a rear left wheel (12) is sleeved on the right side of the back output shaft (14), a rear wheel rod (5) is fixedly sleeved on the right side of the rear left wheel (12), and a rear right wheel (7) is fixedly sleeved on the right side of the rear wheel rod (5).

7. The low-residue medicine preparation and sampling device according to claim 6, wherein a left frame (3) is installed on the outer side of the left transmission mechanism (1), and a left shovel tooth (2) is fixedly connected to the bottom of the left frame (3).

8. The low-residue medicine preparation sampling device according to claim 7, wherein a right frame (18) is installed on the outer side of the right transmission mechanism (17), right shovel teeth (19) are fixedly connected to the top of the right frame (18), a plurality of sample holding cylinders (10) are arranged on the top of the disc seat (4), and a plurality of sample holding cylinders (10) are uniformly distributed.