CN112403423B - Medicine synthesizing device capable of providing illumination condition - Google Patents

Abstract

The invention discloses a drug synthesis device capable of providing illumination conditions, wherein a device body comprises a reaction cavity and an illumination cavity which are coaxial from inside to outside, a stirring rod is arranged in the reaction cavity, and the lower end of the stirring rod penetrates through the lower end of the device body and is connected with a connecting rod; the illumination intracavity is provided with two illumination subassemblies, and the lower extreme of two illumination subassemblies all passes the lower extreme of device body and is connected with the connecting rod, and the puddler is rotatory in the reaction chamber to it rotates around the reaction chamber in the illumination intracavity to drive two illumination subassemblies. When the device provides illumination conditions, the raw materials in the reaction cavity can be uniformly and massively irradiated, and the illumination efficiency is improved.

Description

Medicine synthesizing device capable of providing illumination condition

Technical Field

The invention relates to a medicine synthesizing device, in particular to a medicine synthesizing device capable of providing illumination conditions.

Background

Drugs are substances used for the prevention, treatment and diagnosis of diseases. In theory, all chemical substances that can affect the physiological functions of organs and the metabolic activities of cells belong to the category of drugs. The preparation of the drug is a complicated process, and the preparation methods of the drug are different along with the difference of the drug mechanism, and the different preparation methods can influence the quality of the finally obtained drug.

Many medicines need go on under the illumination condition when synthesizing, but current medicine synthesizer can not carry out selective the providing to the illumination condition according to the demand, when needing the illumination condition, can only react under special equipment to the structure of this equipment is complicated, and the light is fixed in equipment, and when the light needs to be changed, needs all dismantle equipment, changes the difficulty, and the availability factor is low.

Moreover, the existing equipment with the illumination condition can only provide the illumination condition for a local area when illumination is carried out, the illumination range is small, and the quality of the obtained medicine can be influenced.

Disclosure of Invention

It is an object of the present invention to provide a drug synthesis device that provides illumination conditions, when illumination conditions are required, by means of an illumination assembly, which can be removed when illumination conditions are not required; moreover, the device can provide 360-degree illumination for the raw materials reacted in the drug synthesis device, further improve the reaction efficiency and ensure the drug quality.

The purpose is realized by adopting the following technical scheme: the device comprises a device body, wherein the device body comprises a reaction cavity and an illumination cavity which are coaxial from inside to outside, a stirring rod is arranged in the reaction cavity, and the lower end of the stirring rod penetrates through the lower end of the device body and is connected with a connecting rod; the illumination intracavity is provided with two illumination subassemblies, and the lower extreme of two illumination subassemblies all passes the lower extreme of device body and is connected with the connecting rod. This device is when using, the synthetic raw materials of medicine are placed in the reaction chamber, mix the stirring through the puddler rotation to the raw materials, the rotatory in-process of puddler, the puddler drives the connecting rod and rotates together, the connecting rod also drives two illumination subassemblies thereon rotatory, two illumination subassemblies rotate around the lateral wall of reaction chamber at rotatory in-process, all be provided with the illumination lamp on two illumination subassemblies, the side of reaction chamber is transparent material, two illumination subassemblies are at rotatory in-process, provide the illumination condition to the raw materials in the reaction chamber through the illumination lamp above that. For the device, the illumination component of the device rotates on the outer wall of the reaction cavity, firstly, the device can provide illumination conditions for all directions, and not only irradiates one area, so that the device can provide illumination conditions with uniform irradiation, and is more favorable for synthesizing medicaments needing the illumination conditions; secondly, on the premise of enlarging the irradiation range, the device is only provided with two illumination assemblies, and compared with the existing device provided with more illumination assemblies, the device is simpler in structure and more convenient to operate and use; thirdly, the rotatory power of the illumination subassembly of this device derives from the rotation of puddler, consequently this device only needs to provide a power supply, can make the puddler stir in the reaction chamber, and simultaneously, the illumination subassembly rotates around the reaction chamber, and above-mentioned structure not only can further simplify the structure, still effective energy saving reduces the output.

On this basis, the interior bottom in illumination chamber is provided with circular slide, and the lower extreme of circular slide runs through the lower extreme of device body, is provided with two baffles on the circular slide, and two baffles make two illumination subassemblies rotatory angle on circular slide be less than 180 degrees to the both ends of two baffles all are connected with the medial surface in illumination chamber. The lower extreme of illumination subassembly passes circular slide and is connected with the connecting rod, and the connecting rod drives two illumination subassemblies and rotates on circular slide at rotatory in-process, and two illumination subassemblies are connected on same connecting rod, and consequently two illumination subassemblies symmetry sets up on circular slide, and two illumination subassemblies illuminate to the raw materials of different angles in the reaction chamber respectively at rotatory in-process, and the effect of two baffles lies in: the rotation angle of the illumination assembly on the circular slide way is prevented from exceeding 180 degrees, and the baffle plate can also be used for connecting the circular slide way and the illumination cavity to prevent the circular slide way and the illumination cavity from being separated.

This device is when using, an illumination subassembly and a baffle contact, another illumination subassembly and another baffle contact, the angle is predetermine in the puddler forward rotation, rotatory back, an illumination subassembly is rotatory to another baffle, another illumination subassembly is rotatory to a baffle, then the puddler reverse rotation predetermines the angle, rotatory back, an illumination subassembly and a baffle contact, another illumination subassembly and another baffle contact, so reciprocal, and then provide even illumination environment to the reaction chamber.

Furthermore, when the device is used, the illumination assembly can be conveniently replaced, and during connection, the illumination assembly is inserted into the illumination cavity, the connecting part at the lower end of the illumination assembly penetrates through the circular slide way and is connected with the connecting groove formed in the connecting rod in a threaded rotating mode. When taking out, in the illumination chamber, rotatory illumination subassembly makes connecting portion and spread groove separation, and then takes out illumination subassembly, consequently this device can be fast convenient change illumination subassembly, simultaneously, the connected mode of this device, circular slide not only can fix a position illumination subassembly, still can support the subassembly of being in a close position simultaneously, the long-term use of being more convenient for.

Further, when the device is used, the lower end of the stirring rod is connected with the motor, the motor controls the stirring rod to rotate, the connecting rod is perpendicular to the stirring rod, and the motor is located below the connecting rod, so that the illumination assembly can be driven to rotate in the rotating process of the connecting rod, and meanwhile, the motor can be cooled in the rotating process.

And, the inside of puddler is provided with the dead lever, and the lower extreme of dead lever passes the connecting rod to be connected with the base, is provided with a plurality of buffer poles between the lower extreme of base and device body, and the base is fixed knot structure, is connected through a plurality of buffer poles between the lower extreme of base and device body, and the connecting rod is located between base and the device body, and the motor is located the base. The inner part of the connecting rod is a cavity, the inner part of the illumination assembly is provided with a fixed cavity and a heat dissipation cavity, the inner part of the connecting part is communicated with the inner part of the heat dissipation cavity, when the connecting part is connected with the connecting groove, the connecting part is communicated with the inner part of the connecting rod, the inner part of the stirring rod is a cavity, and the inner part of the stirring rod is communicated with the inner part of the connecting rod; threaded connection has the regulating plate in the puddler, on the dead lever, the regulating plate divide into about the inside of puddler two regions, and the inboard of puddler still is provided with the spout, is provided with the dog that is arranged in the spout on the regulating plate, and the puddler drives the regulating plate at rotatory in-process and reciprocates, and the lower region of puddler inside, in the connecting rod, the heat dissipation intracavity is provided with water.

Because the puddler is rotatory, the inside dead lever irrotational of puddler, the regulating plate of suit on the dead lever passes through the dog to be fixed in the spout on the puddler inner wall, therefore the puddler can drive the regulating plate at rotatory in-process and rotate together, and adjust the pole and pass through threaded connection with the dead lever, at the dead lever irrotational, adjust under the rotatory condition of pole, adjust the pole and can reciprocate on the dead lever, and adjust the pole at the in-process that removes, the dog on adjusting the pole reciprocates along the inboard spout of puddler.

The in-process of adjusting the pole and moving down on the dead lever, the water that adjusts in pole with the inside lower region of puddler presses into the heat dissipation chamber, adjusts the in-process of pole rebound on the dead lever, and the water in the heat dissipation chamber is got back to in the inside lower region of puddler again. Therefore, the stirring rod drives the water in the heat dissipation cavity to move up and down in the rotating process, and the light lamp fixed in the fixed cavity is dissipated through the flowing mode, so that the service life of the light lamp is prolonged.

The even motor of power supply of this device through motor work, makes the puddler carry out forward and reverse reciprocal rotation, and the rotatory in-process of puddler not only can drive the illumination subassembly and carry out reciprocal rotation in the illumination chamber, still can make the inside regulating plate of rotary rod reciprocate simultaneously, and then drives the water in the heat dissipation chamber and flow from top to bottom to reach radiating purpose.

On the basis, when the adjusting plate moves to the upper side, the area of water in the lower area inside the stirring rod is four times of the area of water in the heat dissipation cavity, the area of the water in the heat dissipation cavity is one third of the area of the heat dissipation cavity at the moment, and when the adjusting plate moves to the lower side, the inside of the heat dissipation cavity is completely filled with the water. Therefore, when the water cooling device is used, the flowing area of water is larger, and the heat dissipation efficiency can be further improved.

Specifically, the connecting portion includes A, B two parts, and the side of the B part of connecting portion is provided with a plurality of through-holes, and when connecting portion connects in the connecting groove, B part is located the inside of connecting rod, and A part is located the connecting groove. The two sides of the inner connecting groove of the connecting rod are provided with small grooves, the inner parts of the small grooves are connected with one ends of the spring rods, the other ends of the spring rods are connected with the shielding plates, and when the connecting parts are connected in the connecting grooves, the spring rods extend, and the shielding plates are separated from the inner walls of the connecting rod; when the connecting portion is not connected in the connecting groove, the spring rod is shortened, and the shielding plate is in contact with the inner wall of the connecting rod.

When the connecting portion of illumination subassembly and connecting rod are not connected, spread groove on the connecting rod contacts with the shielding plate, avoid the inside rivers play of connecting rod, when the connecting portion of illumination subassembly is connected with the connecting rod, inside the B part of connecting portion inserted the connecting rod, the A part and the spread groove threaded connection of connecting portion, the B part of connecting portion is inserting the inside back of connecting rod, the B part of connecting portion drives the shielding plate and removes, the extension of the spring beam on the shielding plate, water in the connecting rod passes through the inside that the through-hole on the connecting portion B part got into connecting portion, reentrant heat dissipation chamber.

For the light, the fixed cavity is the recess that sets up in illumination subassembly side, and the medial surface at the upper and lower both ends in fixed cavity all is provided with the fixed orifices, and the upper and lower both ends of light all are connected with the bracing piece, are connected with the regulation pole perpendicularly on the bracing piece, and the bracing piece has elasticity, and when the light was fixed in fixed cavity, the both ends of adjusting the pole inserted in the fixed orifices. When the light lamp needs to be taken out, an operator presses the two adjusting rods, the distance between the two adjusting rods is shortened, the two ends of the adjusting rods leave the fixing holes, and the light lamp can be taken out of the fixing cavity.

The device further comprises a sealing cover, a sealing layer is arranged in the sealing cover, the sealing cover is used for being connected above the device body, and during connection, the sealing layer is located inside the reaction cavity. The upper end of this device seals through sealed lid, and the reaction chamber seals through the sealing layer when using, consequently when using, can effectively avoid the raw materials to be contaminated, still can protect the illumination subassembly simultaneously.

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

when the device is used, if the illumination condition needs to be provided, the two illumination assemblies can be placed into the illumination cavity, the lower ends of the two illumination assemblies are connected with the connecting rod, the connecting rod drives the two illumination assemblies to rotate around the reaction cavity in the illumination cavity under the action of the stirring rod, and then the illumination condition can be provided for the raw materials in the reaction cavity. When the illumination condition is not required to be provided, the illumination assembly is not connected with the connecting rod, and the application range is wider. Moreover, when the device provides illumination conditions, the raw materials in the reaction cavity can be uniformly and massively irradiated, the illumination efficiency is improved, and the quality of medicine synthesis is ensured.

Simultaneously, the connecting rod of this device can dispel the heat to the motor when rotatory, and the puddler drives the inside regulation pole of puddler through reciprocating at rotatory in-process, still can with the inside water drainage of puddler in the heat dissipation chamber, and then through the flow of water, dispel the heat to the illuminator.

The power supply of this device only is the rotary rod, consequently when using, can not only effectively practice thrift the cost, and this device simple structure is more convenient for use for a long time simultaneously.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a schematic view of the present apparatus;

FIG. 2 is a top view of the device body;

FIG. 3 is a cross-sectional view of the device body;

FIG. 4 is a schematic view of the adjusting plate;

FIG. 5 is a cross-sectional view of the inside of the stirring rod;

FIG. 6 is a cross-sectional view of the stirring rod without the adjustment plate attached thereto;

FIG. 7 is a schematic structural view of the connection between the connection portion of the lower end of the illumination assembly and the connection rod;

FIG. 8 is a schematic view of a light structure.

Reference numbers and corresponding part names in the drawings:

1-device body, 2-reaction chamber, 3-illumination chamber, 31-baffle, 32-circular slideway, 4-base, 5-buffer rod, 6-stirring rod, 61-fixed rod, 62-adjusting plate, 63-sliding chute, 64-baffle, 7-illumination component, 71-fixed chamber, 72-heat dissipation chamber, 73-connecting part, 8-sealing cover, 9-sealing layer, 10-connecting rod, 101-connecting groove, 102-small groove, 103-spring rod, 104-baffle plate, 11-illumination lamp, 111-supporting rod and 112-adjusting rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

In the description of the present invention, it is to be understood that the terms "front", "rear", "left", "right", "upper", "lower", "vertical", "horizontal", "high", "low", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the scope of the present invention.

[ example 1 ]

The device comprises a device body 1, wherein the device body 1 comprises a reaction cavity 2 and an illumination cavity 3 which are coaxial from inside to outside, a stirring rod 6 is arranged in the reaction cavity 2, and illumination lamps 11 are arranged on two illumination assemblies 7 respectively, in the embodiment, as shown in figure 1, the lower end of the device body is provided with a base 4, the base is connected with the device body through a buffer rod 5, a connecting rod is positioned between the base and the device body, two illumination assemblies 7 are arranged in the illumination cavity 3, the lower ends of the two illumination assemblies 7 penetrate through the lower end of the device body 1 to be connected with a connecting rod 10, the illumination assemblies are rotatably connected with the connecting rod through threads, and the lower end of the stirring rod 6 penetrates through the lower end of the device body 1 to be connected with the connecting rod 10; the puddler 6 is rotatory in reaction chamber 2, and the puddler 6 drives the connecting rod when rotatory and rotates together, and the illumination subassembly that the connecting rod was rotatory in-process drives it rotates around the lateral wall of reaction chamber in the illumination chamber to raw materials in rotatory in-process in to the reaction chamber carry out illumination. Two connecting grooves 101 are arranged on the connecting rod 10, the lower ends of the two illumination assemblies 7 are respectively provided with a connecting part 73, and the connecting parts 73 are connected with the connecting grooves 101 through threads.

In this embodiment, the inner bottom of the illumination cavity 3 is further provided with two placing grooves, when the drug synthesis does not require illumination conditions, the lower ends of the illumination assemblies can be directly inserted into the placing grooves, the placing grooves and the illumination assemblies are rotationally fixed through threads, circular slideways are arranged in the illumination cavity, the circular slideways penetrate through the upper end and the lower end of the illumination cavity, and the circular slideways are tracks for the two illumination assemblies to rotate in the illumination cavity; when needs provide the illumination condition, take out the illumination subassembly from the standing groove to pass two illumination subassemblies circular slide and pass through threaded connection with the connecting rod, connect the back, the puddler drives two illumination subassemblies through the connecting rod and slides on circular slide when rotatory, and sees through the reaction chamber and carry out the illumination to it. The stirring rod rotates 360 degrees in this embodiment.

[ example 2 ]

On the basis of the embodiment 1, as shown in fig. 2, two baffles 31 are disposed on a circular slideway 32, two ends of each baffle 31 are connected to an inner side surface of the illumination cavity 3, and the circular slideway penetrates through upper and lower ends of the illumination cavity, so that the illumination cavity can be prevented from being separated by the circular slideway through the two baffles, when the illumination device is used, the first baffle is in contact with the first illumination assembly, the second baffle is in contact with the second illumination assembly, the two illumination assemblies are respectively connected to two ends of a connecting rod, when the illumination device is used, the first illumination assembly moves in an upper area enclosed by the two baffles on the circular slideway, the second illumination assembly moves in a lower area enclosed by the two baffles on the circular slideway, in the embodiment, the stirring rod is firstly rotated forward by a preset angle, after the rotation, the first baffle is in contact with the second illumination assembly, second baffle and the contact of first illumination subassembly, then the preset angle of reverse rotation, the back of reverse rotation, first baffle and the contact of first illumination subassembly, second baffle and the contact of second illumination subassembly, so reciprocal, the rotatory angle of two illumination subassemblies is less than 180 degrees, but under the effect of two illumination subassemblies, can realize omnidirectional and shine, the preset angle of puddler forward reverse rotation in this embodiment is relevant with the position that two baffles set up and the width of baffle, the preset angle is less than 180 degrees. The rotation of the motor is controlled by a controller, in which the angle, direction and speed of rotation are preset, and these parameters are changed according to the actual size of the apparatus body.

[ example 3 ]

On the basis of embodiment 2, as shown in fig. 3, the inside of the connecting rod 10 is a cavity, the inside of the illumination component 7 is provided with a fixed cavity 71 and a heat dissipation cavity 72, the inside of the illumination component 7, between the fixed cavity 71 and the heat dissipation cavity 72, is a heat dissipation section, and the heat dissipation section is made of heat conductive materials such as graphite. The inside of a connecting part 73 at the lower end of the illumination assembly 7 is communicated with the inside of the heat dissipation cavity 72, when the connecting part 73 is connected with the connecting groove 101, the connecting part 73 is communicated with the inside of the connecting rod 10, the inside of the stirring rod 6 is a cavity, the inside of the stirring rod 6 is communicated with the inside of the connecting rod 10, a fixing rod 61 is arranged inside the stirring rod 6, the lower end of the fixing rod 61 penetrates through the connecting rod 10 to be connected with the base 4, and a plurality of buffer rods 5 are arranged between the base 4 and the lower end of the device body; in the stirring rod 6, a regulating plate 62 is in threaded connection with the fixed rod 61, the regulating plate 62 divides the inside of the stirring rod 6 into an upper area and a lower area, the structure of the regulating plate is shown in figure 4, two stop blocks 64 are arranged on the regulating plate 62, as shown in figure 5, when the stirring rod is used, the two stop blocks are respectively positioned in two sliding grooves 63 at the inner side of the stirring rod, the structure of the inside of the stirring rod is shown in figure 6, the regulating plate is in threaded connection with the fixed rod 61, the rotating rod rotates, the stop blocks are clamped in the sliding grooves, so the rotating rod drives the regulating plate to rotate together, the regulating rod rotates in a threaded manner on the fixed rod, as the fixed rod is fixed, the fixed rod does not move up and down and does not rotate simultaneously, the regulating rod can move up and down in the rotating process on the fixed rod, the sliding grooves are arranged in the vertical direction on the inner wall of the stirring rod, so the regulating plate moves up and down in the sliding grooves and rotates together with the stirring rod, the adjusting plate adjusts the water content in the lower area inside the stirring rod in the process of moving up and down, when the adjusting rod moves down, the water in the lower area inside the stirring rod is pressed out of the stirring rod, and the redundant water passes through the connecting rod and the heat dissipation cavity of the near-sunlight illuminating assembly of the connecting part; adjust pole rebound, in the lower region of puddler is got back to again to the water in the heat dissipation chamber under the action of gravity, the water in the in-process heat dissipation chamber once more flows, and then dispels the heat to fixed light in the fixed cavity through the water that flows, avoids the long-time work of light, can pile up more heat, influences the life-span of light.

Preferably, when the adjusting plate is in the initial state, the adjusting plate is in the initial position, the adjusting plate does not reduce the space of the lower area inside the stirring rod at the moment, the water in the two heat dissipation cavities and the water inside the stirring rod are at the same height under the action of gravity, and the area of the water in the stirring rod is four times three times of the total area of one heat dissipation cavity at the moment, so that when the adjusting plate moves to the lower end of the stirring rod, the adjusting plate discharges the water in the stirring rod into the heat dissipation cavities completely, and the two heat dissipation cavities can be filled. When the adjusting plate returns to the original position, namely above the stirring rod, the water in the two heat dissipation cavities and the stirring rod is at the same height, and the area of the water in one heat dissipation cavity is one third of the total area of one heat dissipation cavity. The larger the area of the water flowing in the heat dissipation cavity is, the better the heat dissipation effect is.

[ example 4 ]

On the basis of embodiment 3, as shown in fig. 7, the connecting portion 73 includes A, B two parts, the side of the B part of the connecting portion 73 is provided with a plurality of through holes, when the connecting portion 73 is connected in the connecting groove 101, the B part is located inside the connecting rod 10, and the a part is located in the connecting groove 101. Two sides of an inner connecting groove 101 of the connecting rod 10 are provided with small grooves 102, the inner part of each small groove 102 is connected with one end of a spring rod 103, the other end of each spring rod 103 is connected with a shielding plate 104, when the connecting part 73 is connected in the connecting groove 101, the spring rods 103 extend, and the shielding plates 104 are separated from the inner wall of the connecting rod 10; when the connecting portion 73 is not coupled in the coupling groove 101, the spring lever 103 is shortened, and the shielding plate 104 is in contact with the inner wall of the coupling rod 10.

The connecting portion of illumination subassembly's lower extreme includes A portion and B portion from the top down, and A portion is used for being connected with spread groove 101, and B portion is used for being connected to inside the connecting rod, separates the spread groove on shielding plate and the connecting rod to make the water in the connecting rod pass through the through-hole entering connecting portion in the B portion, and then get into in the heat dissipation chamber.

When connecting portion took out from the spread groove, the shielding plate was under no exogenic action, and the spring beam shortens and resumes original length, and the shielding plate is stopped up the spread groove, avoids the water in the connecting rod to flow out from the spread groove. Preferably, when the shielding plate contacts with the lower end of the connecting groove, namely the shielding plate blocks the connecting groove, the spring rod is in a stretching state, so that the shielding effect of the shielding plate on the connecting groove can be improved by the pulling force of the spring rod when the connecting groove is used.

[ example 5 ]

In addition to embodiment 4, the inner side surfaces of the upper and lower ends of the fixing cavity 71 are respectively provided with fixing holes, as shown in fig. 8, the upper and lower ends of the light illuminator 11 are respectively connected with a support rod 111, the support rod 111 is vertically connected with an adjusting rod 112, the support rod 111 has elasticity, and when the light illuminator 11 is fixed in the fixing cavity 71, the two ends of the adjusting rod 112 are inserted into the fixing holes. When the light lamp is taken out to needs, at first take out the illumination subassembly from the illumination chamber, then in fixed cavity, through pressing two regulation poles for distance between two regulation poles shortens, and then drives two bracing pieces and leaves from two fixed orificess, and then can take out the light lamp.

Simultaneously, still including sealed lid 8, when using, the reaction chamber is put into to the raw materials, then covers sealed lid 8 in the top of device body, and sealing layer 9 on the sealed lid is used for sealed reaction chamber, and the outside of sealed lid 8 is used for sheltering from the illumination chamber, and then can effectively realize sealed effect.

The term "connected" used herein may be either directly connected or indirectly connected via other components without being particularly described.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. The medicine synthesis device capable of providing illumination conditions is characterized by comprising a device body (1), wherein the device body (1) comprises a reaction cavity (2) and an illumination cavity (3) which are coaxial from inside to outside, a stirring rod (6) is arranged in the reaction cavity (2), and the lower end of the stirring rod (6) penetrates through the lower end of the device body (1) and is connected with a connecting rod (10); two illumination assemblies (7) are arranged in the illumination cavity (3), the lower ends of the two illumination assemblies (7) penetrate through the lower end of the device body (1) and are connected with a connecting rod (10), the stirring rod (6) rotates in the reaction cavity (2) by taking a straight line where the stirring rod (6) is located as an axis, and the stirring rod (6) drives the two illumination assemblies (7) to rotate around the reaction cavity (2) in the illumination cavity (3) through the connecting rod (10) in the rotating process;

the two illumination assemblies (7) are respectively provided with an illumination lamp (11), the side surface of the reaction cavity (2) is made of transparent material, and the two illumination assemblies (7) provide illumination for the reaction cavity (2) through the illumination lamps (11) on the two illumination assemblies in the rotating process; two connecting grooves (101) are formed in the connecting rod (10), connecting parts (73) are arranged at the lower ends of the two illumination assemblies (7), and the connecting parts (73) are connected with the connecting grooves (101) through threads; the inside of the connecting rod (10) is a cavity, a fixed cavity (71) and a heat dissipation cavity (72) are arranged inside the illumination assembly (7), the inside of the connecting part (73) is communicated with the inside of the heat dissipation cavity (72), when the connecting part (73) is connected with the connecting groove (101), the connecting part (73) is communicated with the inside of the connecting rod (10), the inside of the stirring rod (6) is the cavity, the inside of the stirring rod (6) is communicated with the inside of the connecting rod (10), a fixed rod (61) is arranged inside the stirring rod (6), the lower end of the fixed rod (61) penetrates through the connecting rod (10) to be connected with the base (4), and a plurality of buffer rods (5) are arranged between the base (4) and the lower end of the device body; in puddler (6), threaded connection has regulating plate (62) on dead lever (61), regulating plate (62) divide into about the inside of puddler (6) two regions, the inboard of puddler (6) still is provided with spout (63), be provided with dog (64) that are arranged in spout (63) on regulating plate (62), puddler (6) drive regulating plate (62) at rotatory in-process and reciprocate, the lower region of puddler (6) inside, in connecting rod (10), be provided with water in heat dissipation chamber (72).

2. The device for synthesizing the medicine capable of providing the illumination condition according to claim 1, wherein a circular slideway (32) is arranged at the inner bottom of the illumination cavity (3), the lower end of the circular slideway (32) penetrates through the lower end of the device body (1), two baffles (31) are arranged on the circular slideway (32), the two baffles (31) enable the rotation angle of the two illumination components (7) on the circular slideway (32) to be less than 180 degrees, and the two ends of the two baffles (31) are connected with the inner side surface of the illumination cavity (3).

3. A device for drug synthesis providing illumination conditions according to claim 1, characterized in that when the adjustment plate (62) is moved upwards, the area of the water in the lower area inside the stirring rod (6) is four times the area of the water in the heat dissipation chamber (72), and when the area of the water in the heat dissipation chamber (72) is one third of the area of the heat dissipation chamber (72), the adjustment plate (62) is moved downwards, the inside of the heat dissipation chamber (72) is completely filled with water.

4. A device for synthesizing a drug capable of providing illumination conditions according to claim 1, wherein the connecting portion (73) comprises A, B two parts, the side of the part B of the connecting portion (73) is provided with a plurality of through holes, when the connecting portion (73) is connected in the connecting groove (101), the part B is located inside the connecting rod (10), and the part a is located in the connecting groove (101).

5. A device for synthesizing a drug capable of providing illumination conditions according to claim 4, wherein the connecting rod (10) is provided with a small groove (102) at both sides of the inner connecting groove (101), the inside of the small groove (102) is connected with one end of the spring rod (103), the other end of the spring rod (103) is connected with the shielding plate (104), when the connecting part (73) is connected in the connecting groove (101), the spring rod (103) is extended, and the shielding plate (104) is separated from the inner wall of the connecting rod (10); when the connecting portion (73) is not connected in the connecting groove (101), the spring rod (103) is shortened, and the shielding plate (104) is in contact with the inner wall of the connecting rod (10).

6. The device for synthesizing a drug capable of providing illumination conditions according to claim 1, wherein the inner side surfaces of the upper and lower ends of the fixing cavity (71) are provided with fixing holes, the upper and lower ends of the illumination lamp (11) are connected with supporting rods (111), the supporting rods (111) are vertically connected with adjusting rods (112), the supporting rods (111) have elasticity, and when the illumination lamp (11) is fixed in the fixing cavity (71), the two ends of the adjusting rods (112) are inserted into the fixing holes.

7. A device for synthesizing a drug capable of providing illumination conditions according to claim 1, further comprising a sealing cover (8), wherein a sealing layer (9) is arranged in the sealing cover (8), the sealing cover (8) is used for connecting above the device body (1), and when connecting, the sealing layer (9) is positioned in the reaction chamber (2).

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