阅读说明：本技术 一种医药生产检测装置及操作方法 (Medicine production detection device and operation method ) 是由 樊菲 于 2021-08-25 设计创作，主要内容包括：一种医药生产检测装置及操作方法,包括底座、螺旋轴、移动架、升降座、毛刷架、消毒剂喷头、弹簧、一号齿轮、二号齿轮、三号齿轮、四号齿轮、电机、转动装置,转动装置包括侧板、中间板、连杆,所述底座中间具有滑槽,滑槽两侧各具有一个挡块,底座左侧具有立板,立板侧面从左到右依次具有一号孔、二号孔、三号孔、四号孔,立板左侧具有电机座,螺旋轴中间具有中间轴,螺旋轴表面具有圆形螺旋槽,螺旋轴左侧具有圆锥,移动架底板具有滑块,滑块侧面具有弹簧轴,移动架两侧具有对称设置的两个立柱,每个立柱上部具有立柱孔。(A medicine production detection device and an operation method thereof comprise a base, a spiral shaft, a moving frame, a lifting seat, a brush frame, a disinfectant sprayer, a spring, a first gear, a second gear, a third gear, a fourth gear, a motor and a rotating device, wherein the rotating device comprises side plates, a middle plate and a connecting rod, a sliding groove is formed in the middle of the base, two sides of the sliding groove are respectively provided with a stop block, a vertical plate is arranged on the left side of the base, a first hole, a second hole, a third hole and a fourth hole are sequentially formed in the side face of the vertical plate from left to right, the motor seat is arranged on the left side of the vertical plate, a middle shaft is arranged in the middle of the spiral shaft, the surface of the spiral shaft is provided with a circular spiral groove, the left side of the spiral shaft is provided with a cone, the bottom plate of the moving frame is provided with a sliding block, the side face of the sliding block is provided with a spring shaft, two upright columns are symmetrically arranged on two sides of the moving frame, and the upper portion of each upright column is provided with an upright column hole.)

1. A medicine production detection device is characterized by comprising a base, a spiral shaft, a moving frame, a lifting seat, a brush frame, a disinfectant sprayer, a spring, a first gear, a second gear, a third gear, a fourth gear, a motor and a rotating device, wherein the rotating device comprises side plates, a middle plate and a connecting rod, a sliding chute is arranged in the middle of the base, two sides of the sliding chute are respectively provided with a stop block, the left side of the base is provided with a vertical plate, the side surface of the vertical plate is sequentially provided with a first hole, a second hole, a third hole and a fourth hole from left to right, the left side of the vertical plate is provided with the motor seat, the middle of the spiral shaft is provided with a middle shaft, the surface of the spiral shaft is provided with a circular spiral groove, the left side of the spiral shaft is provided with a cone, the bottom plate of the moving frame is provided with a sliding block, the side surface of the sliding block is provided with a spring shaft, two sides of the moving frame are symmetrically arranged, the upper part of each vertical column is provided with a vertical column hole, the upper part of the lifting seat is provided with a positive curved surface, two sides of a sine curved surface are respectively provided with a straight surface, the right side of the lifting seat is provided with a collecting box, the upper part of a brush frame is provided with a brush, two sliding blocks are connected in a sliding groove in a sliding way, two moving frames slide in the sliding groove, two moving frames are symmetrically arranged, each spring shaft faces upwards and outwards, upright post holes at two sides of each moving frame are rotationally connected with intermediate shafts at two sides, two sides of each screw shaft rotate in the upright post holes, a spring is arranged at the outer side of each spring shaft, the inner side of each spring is propped against the end surface of the spring shaft, the other side of the spring is propped against the inner side of a stop block, the bottom of the lifting seat is fixedly connected with the upper part of the base, the front and back symmetric surfaces of the lifting seat are superposed with the front and back symmetric surfaces of the base, the first gear intermediate shaft is rotationally connected with the first hole, the first gear rotates in the first hole, the second gear intermediate shaft is rotationally connected with the second hole, the third gear intermediate shaft is rotationally connected with the third hole, and rotates in the third hole, no. four gear intermediate shaft rotate and connect No. four holes, and No. four gears rotate in No. four holes, and No. one gear intermediate shaft passes a hole, No. one gear intermediate shaft left side fixed connection motor, motor lower part fixed connection motor cabinet upper portion, brush carrier bottom fixed connection base upper portion, and brush carrier rear side and base rear side align, disinfectant shower nozzle lower part fixed connection base upper portion, and disinfectant shower nozzle front side and base front side align.

2. The medicine production detecting device of claim 1, wherein the side plates are provided with side plate holes in the middle, three side plate shafts are uniformly distributed in the circumferential direction of the side plates, three middle plate shafts are uniformly distributed in the circumferential direction of the middle plates, a first connecting rod hole is hinged to each of two sides of each middle plate shaft, a second connecting rod hole is hinged to each side plate shaft, the left side of each middle shaft is fixedly connected with a side plate hole on the right side of the rotating device, the left side plate hole on the left side of the rear rotating device is fixedly connected with a fourth gear middle shaft, and the left side plate hole on the left side of the front rotating device is fixedly connected with a second gear middle shaft.

3. The method of claim 2, comprising the steps of: when the invention is used, a sampling bottle is placed on the upper part of the straight surface, and in the second step, the motor and the spray head are started, and the sampling bottle is disinfected by the spiral shafts on the two sides and then moved into the collection box on the right side.

Technical Field

The invention relates to the field of medicine production detection, in particular to a medicine production detection device and an operation method.

Background

Before the medicine production testing process, need disinfect to the bottle of dress sample, otherwise can cause the pollution of sample, influence the testing result, when the sample that detects is more, the sterile work load is bigger, can appear the thorough phenomenon of disinfection portion occasionally, needs a device that disinfects to the sample bottle.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides the medicine production detection device and the operation method, which have strong adaptability, thorough disinfection and high efficiency.

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

a medicine production detection device comprises a base, a screw shaft, a movable frame, a lifting seat, a brush frame, a disinfectant sprayer, a spring, a first gear, a second gear, a third gear, a fourth gear, a motor and a rotating device, wherein the rotating device comprises side plates, a middle plate and a connecting rod, a sliding groove is formed in the middle of the base, two stop blocks are respectively arranged on two sides of the sliding groove, a vertical plate is arranged on the left side of the base, a first hole, a second hole, a third hole and a fourth hole are sequentially formed in the side surface of the vertical plate from left to right, the motor seat is arranged on the left side of the vertical plate, a middle shaft is arranged in the middle of the screw shaft, a circular spiral groove is formed in the surface of the screw shaft, a cone is arranged on the left side of the screw shaft, a sliding block is arranged on the bottom plate of the movable frame, a spring shaft is arranged on the side surface of the sliding frame, two upright columns are symmetrically arranged on the upper portion of each upright column, a forward curved surface is arranged on the upper portion of the lifting seat, two sides of the forward curved surface are respectively provided with a straight surface, the right side of the lifting seat is provided with a collecting box, the upper part of a brush holder is provided with a brush, two sliding blocks are connected in the sliding groove in a sliding way, two moving frames slide in the sliding groove, the two moving frames are symmetrically arranged, each spring shaft faces upwards and outwards, two side upright post holes on two sides of each moving frame are rotationally connected with two side intermediate shafts, two sides of each screw shaft rotate in the upright post holes, a spring is arranged on the outer side of each spring shaft, the inner side of the spring is propped against the end face of the spring shaft, the other side of the spring is propped against the inner side of a stop block, the bottom of the lifting seat is fixedly connected with the upper part of the base, the front and back symmetric surfaces of the lifting seat are superposed with the front and back symmetric surfaces of the base, the first gear intermediate shaft is rotationally connected with the first hole, the first gear rotates in the first hole, the second gear intermediate shaft is rotationally connected with the second hole, the second gear rotates in the second hole, the third gear intermediate shaft is rotationally connected with the third hole, the fourth gear rotates in the third hole, the fourth gear intermediate shaft is rotationally connected with the fourth hole, the fourth gear rotates in the fourth hole, the first gear intermediate shaft penetrates through the first hole, the motor is fixedly connected to the left side of the first gear intermediate shaft, the motor lower portion is fixedly connected to the upper portion of a motor base, the bottom of a brush holder is fixedly connected to the upper portion of a base, the rear side of the brush holder is aligned with the rear side of the base, the disinfectant sprayer is fixedly connected to the upper portion of the base, and the front side of the disinfectant sprayer is aligned with the front side of the base.

The middle of the side plate is provided with a side plate hole, three side plate shafts are uniformly distributed in the circumferential direction of the side plate, three middle plate shafts are uniformly distributed in the circumferential direction of the middle plate, two sides of each middle plate shaft are respectively hinged with a first connecting rod hole, a second connecting rod hole is hinged with the side plate shafts, the left side of each middle shaft is fixedly connected with a side plate hole on the right side of a rotating device, the left side plate hole of the rear side rotating device is fixedly connected with a fourth gear middle shaft, and the left side plate hole of the front side rotating device is fixedly connected with a second gear middle shaft.

Has the advantages that:

the invention has strong adaptability, thorough disinfection and high efficiency, the left sides of the spiral shafts adopt a taper design, the left sides of the two spiral shafts form a space with a wide left side and a narrow right side, the invention not only can be suitable for reagent bottles with different sizes, but also can lead a sampling bottle to move towards the right side, the circular spiral grooves adopt an arc structure and are suitable for a circular mechanism of the sampling bottle, the circular spiral grooves at the two sides drive the sampling bottle to move towards the right side, the sampling bottle can rotate because the circular spiral grooves at the two sides are in contact with the two sides of the sampling bottle, the spiral shafts enable the sampling bottle to move and rotate, the lower part of the sampling bottle is in contact with a sine curved surface, the sampling bottle fluctuates along with the sine curved surface, the sampling bottle moves up and down, the sampling bottle moves towards the right side, moves up and down, rotates, the spiral shafts, the lifting seat and the brush generate rotary friction on the surface of the sampling bottle, and continuously coats the disinfectant on the surface of the sampling bottle, the surface of the sampling bottle is thoroughly cleaned and disinfected, the surface of the sine curved surface and the surface of each spiral shaft are wrapped with flexible disinfectant cotton materials, so that the disinfectant can be absorbed and smeared, the friction force between the surface of the screw shaft and the sampling bottle is increased, the self-rotation of the sampling bottle is ensured, the clamping force of the screw shaft to the sampling bottle can be buffered, the screw shaft, the moving frame and the rotating device simultaneously act to ensure that the sampling bottle self-rotating device is suitable for sampling bottles with different sizes, the side plates on two sides are connected with the middle plate through the connecting rod, so that the side plates at the two sides can rotate in a non-coaxial way, the spiral shafts at the two sides slide in the base along with the moving frames at the two sides, sampling bottles with different sizes can be driven by the circular spiral grooves, the spiral shafts at the two sides can be ensured by the springs to clamp the sampling bottles, meanwhile, the screw shaft can stretch along with the size change of the sampling bottle, and the clamping force of the screw shaft on the sampling bottle can be buffered.

Drawings

Fig. 1 is a schematic view of the overall structure of the medical production detection device of the present invention.

Fig. 2 is a schematic view of the internal structure of the medical production detection device of the present invention.

Fig. 3 is a schematic view of an internal top view structure of the medical production detection device of the present invention.

Fig. 4 is a schematic view of the inner side structure of the medical production detection device of the present invention.

Fig. 5 is a schematic structural diagram of a rotating device according to the present invention.

Fig. 6 is a schematic diagram of an explosive structure of the rotating device according to the present invention.

Fig. 7 is a schematic view of the base structure according to the present invention.

FIG. 8 is a schematic view of the screw axis structure according to the present invention.

Fig. 9 is a schematic structural view of the moving frame according to the present invention.

Fig. 10 is a schematic view of the lifting seat structure according to the present invention.

Fig. 11 is a schematic view of the structure of the brush holder according to the present invention.

Detailed Description

The invention is explained in more detail below with reference to the figures and examples:

a medicine production detection device comprises a base 110, a screw shaft 120, a moving frame 130, a lifting seat 140, a brush frame 150, a disinfectant spray nozzle 160, a spring 170, a first gear 180, a second gear 181, a third gear 182, a fourth gear 183, a motor 184 and a rotating device 200, wherein the rotating device 200 comprises a side plate 210, a middle plate 220 and a connecting rod 230, the middle of the base 110 is provided with a sliding chute 111, two sides of the sliding chute 111 are respectively provided with a stop 118, the left side of the base 110 is provided with a vertical plate 112, the side surface of the vertical plate 112 is sequentially provided with a first hole 113, a second hole 114, a third hole 115 and a fourth hole 116 from left to right, the left side of the vertical plate 112 is provided with a motor seat 117, the middle of the screw shaft 120 is provided with an intermediate shaft 121, the surface of the screw shaft 120 is provided with a circular spiral groove 122, the left side of the screw shaft 120 is provided with a cone 123, the bottom plate of the moving frame 130 is provided with a sliding block 131, the side surface of the sliding block 131 is provided with a spring shaft 132, two upright posts 133 which are symmetrically arranged at two sides of the moving frame 130, the upper part of each upright post 133 is provided with an upright post hole 134, the upper part of the lifting seat 140 is provided with a positive cord curved surface 141, two sides of the positive cord curved surface 141 are respectively provided with a straight surface 142, the right side of the lifting seat 140 is provided with a collecting box 143, the upper part of the brush holder 150 is provided with a brush 151, two sliding blocks 131 are connected in the sliding groove 111 in a sliding way, two moving holders 130 slide in the sliding groove 111, the two moving holders 130 are symmetrically arranged, each spring shaft 132 faces upwards and outwards, the upright post holes 134 at two sides of each moving holder 130 are rotationally connected with two intermediate shafts 121 at two sides, two sides of each screw shaft 120 rotate in the upright post holes 134, a spring 170 is arranged outside each spring shaft 132, the inner side of the spring 170 is propped against the end surface of the spring shaft 132, the other side of the spring 170 is propped against the inner side of the stop block 118, the bottom of the lifting seat 140 is fixedly connected with the upper part of the base 110, the front and back symmetric surfaces of the lifting seat 140 are superposed with the front and back symmetric surfaces of the base 110, a first gear 180 is rotationally connected with a first hole 113, the first gear 180 rotates in the first hole 113, the second gear 181 is rotatably connected with the second hole 114, the second gear 181 rotates in the second hole 114, the third gear 182 is rotatably connected with the third hole 115, the third gear 182 rotates in the third hole 115, the fourth gear 183 is rotatably connected with the fourth hole 116, the fourth gear 183 rotates in the fourth hole 116, the first gear 180 penetrates through the first hole 113, the left side of the first gear 180 is fixedly connected with the motor 184, the lower portion of the motor 184 is fixedly connected with the upper portion of the motor base 117, the bottom of the brush holder 150 is fixedly connected with the upper portion of the base 110, the rear side of the brush holder 150 is aligned with the rear side of the base 110, the lower portion of the disinfectant sprayer 160 is fixedly connected with the upper portion of the base 110, and the front side of the disinfectant sprayer 160 is aligned with the front side of the base 110.

The middle of the side plate 210 is provided with a side plate hole 211, three side plate shafts 212 are uniformly distributed in the circumferential direction of the side plate 210, three middle plate shafts 221 are uniformly distributed in the circumferential direction of the middle plate 220, two sides of each middle plate shaft 221 are respectively hinged with a first connecting rod hole 231, a second connecting rod hole 232 is hinged with each side plate shaft 212, the left side of each middle shaft 121 is fixedly connected with the side plate hole 211 on the right side of the rotating device 200, the left side plate hole 211 on the left side of the rear rotating device 200 is fixedly connected with a middle shaft of a fourth gear 183, and the left side plate hole 211 on the left side of the front rotating device 200 is fixedly connected with a middle shaft of a second gear 181.

When the invention is used, the motor 184 is started, the motor 184 drives the first gear 180 to rotate, the first gear 180 drives the second gear 181 to rotate, the second gear 181 drives the third gear 182 to rotate, the third gear 182 drives the fourth gear 183 to rotate, the second gear 181 rotates to drive the front rotating device 200 to rotate, the front rotating device 200 rotates to drive the front spiral shaft 120 to rotate, the fourth gear 183 rotates to drive the rear rotating device 200 to rotate, the rear rotating device 200 rotates to drive the rear spiral shaft 120 to rotate, the sampling bottle 190 is placed on the upper part of the straight surface 142, a space with a wide left and a narrow right is formed between the two spiral grooves 120, a space with a narrow right and a wide left is formed between the two spiral grooves 123, which can adapt to reagent bottles with different sizes, the section of the circular spiral groove 122 is circular, a circular space is formed between the two circular spiral grooves 122, the spiral grooves 120 on both sides rotate in the same direction, the sampling bottle 190 moves from the middle of the two spiral grooves 123 to the right side under the driving of the circular spiral grooves 122, transition gradually to in the middle of complete circular helicla flute 122, again because the screw axis 120 of both sides rotates the removal frame 130 of connecting the homonymy, removal frame 130 slides in base 110 again, the removal frame 130 of both sides receives the effect of spring 170 elastic force again, so not equidimension sampling bottle 190 can all move to the right side through the space between the circular helicla flute 122, there is the speed difference when the circular helicla flute 122 of both sides and sampling bottle 190 contact, sampling bottle 190 can the rotation simultaneously when moving to the right side, sampling bottle 190 moves to the right side, sampling bottle 190 bottom is fallen on just mysterious curved surface 141 surface, sampling bottle 190 can rise and descend along with just mysterious curved surface 141, above connection makes sampling bottle 190 produce three kinds of movements: the sampling bottle 190 moves rightwards, moves upwards, rotates, the surface of the sine curved surface 141 and the surface of each spiral shaft 120 are wrapped by flexible disinfection cotton materials, the disinfectant nozzle 160 is started to spray disinfectant, the disinfectant is sprayed to the surfaces of the spiral shafts 120, the lifting seat 140, the brush 151 and the sampling bottle 190, when the sampling bottle 190 moves rightwards, moves upwards, rotates, the spiral shafts 120, the lifting seat 140 and the brush 151 generate rotary friction on the surface of the sampling bottle 190, the disinfectant is continuously coated on the surface of the sampling bottle 190, the surface of the sampling bottle 190 is cleaned and disinfected, the sampling bottle 190 moves to the right collecting box 143 under the action of the spiral shafts 120 and stops moving, when the spiral shafts 120 slide along with the moving frame 130 to be detected, the axes of the left side plate 210 and the right side plate 210 can deviate, the left side plate 210 and the middle plate 220 are connected through the connecting rods 230, and the right side plate 210 and the connecting rods 230 are also connected through the connecting rods 230, so that the side plates 210 on both sides can rotate coaxially with the holder while accommodating the deflection of the axes on both sides.

The invention has strong adaptability, thorough disinfection and high efficiency, the left sides of the spiral shafts 120 adopt taper design, the left sides of the two spiral shafts 120 form a space with a wide left side and a narrow right side, which is not only suitable for reagent bottles with different sizes, but also can lead the sampling bottle 190 to move towards the right side, the circular spiral grooves 122 adopt circular arc structures and are suitable for the circular mechanism of the sampling bottle 190, the circular spiral grooves 122 at the two sides drive the sampling bottle 190 to move towards the right side, the sampling bottle 190 can rotate because the circular spiral grooves 122 at the two sides are in contact with the two sides of the sampling bottle 190 and have different linear velocities, the sampling bottle 190 can rotate, the spiral shafts 120 can lead the sampling bottle 190 to move and rotate, the lower part of the sampling bottle 190 is in contact with the surface of the positive mysterious curved surface 141, the sampling bottle 190 fluctuates along with the surface of the positive mysterious curved surface 141, the sampling bottle 190 can move up and down, the sampling bottle 190 moves towards the right, moves up and down, rotates, the spiral shafts 120, the lifting seat 140, The brush 151 generates rotary friction on the surface of the sampling bottle 190, a disinfectant is continuously smeared on the surface of the sampling bottle 190, so that the surface of the sampling bottle 190 is thoroughly cleaned and disinfected, the surface of the front mysterious curved surface 141 and the surface of each spiral shaft 120 are wrapped by flexible disinfectant cotton materials, the disinfectant can be absorbed and smeared, the friction force between the surface of the spiral shaft 120 and the sampling bottle 190 is increased, the self-rotation of the sampling bottle 190 is ensured, meanwhile, the clamping force of the spiral shaft 120 on the sampling bottle 190 can be buffered, the spiral shaft 120, the movable frame 130 and the rotating device 200 act simultaneously, so that the sampling bottle 190 with different sizes is adapted to the sampling bottles 190 with different sizes, the side plates 210 on two sides are connected with the middle plate 220 through the connecting rod 230, the side plates 210 on two sides can rotate in different axes, the spiral shafts 120 on two sides slide in the base 110 along with the movable frames 130 on two sides, and the sampling bottles 190 with different sizes can be driven by the circular spiral grooves 122, the spring 170 ensures that the screw shafts 120 at both sides can clamp the sampling bottle 190, and simultaneously can stretch and contract along with the size change of the sampling bottle 190, and can buffer the clamping force of the screw shafts 120 on the sampling bottle 190.

A medicine production detection device and an operation method comprise the following steps: in the first step, when the present invention is used, the sampling bottle 190 is placed on the upper portion of the straight surface 142, and in the second step, the motor 184 and the nozzle 160 are activated, and the screw shafts 120 on both sides sterilize the sampling bottle 190 and then move the sampling bottle 190 into the right collection box 143.