CN115009669A - Cabinet is stored with sample to clinical laboratory - Google Patents

Abstract

The invention relates to the technical field of clinical laboratory storage, in particular to a sample storage cabinet for clinical laboratory; comprises a cabinet body, wherein a pair of rotating cover plates are rotatably connected on the cabinet body, and the rotating cover plates are symmetrically arranged on the cabinet body; the cabinet body is internally provided with an oscillating plate and a first placing plate which are matched with the rotary cover plate, and the oscillating plate and the first placing plate are respectively matched with the corresponding rotary cover plate; the cabinet body is provided with a first movable door plate and a second movable door plate; a refrigerated cabinet matched with the second movable door plate is arranged in the cabinet body; a plurality of second placing plates are arranged in the refrigerated cabinet, and a pair of third placing plates matched with the first movable door plate are arranged in the cabinet body; a plurality of placing grooves are formed in the oscillating plate, the first placing plate and the second placing plate; the problem that the storage cabinet of the clinical laboratory in the prior art is simple in structure, free of a protection function and free of a shaking-up function is effectively solved; greatly improves the protection function and the practicability of the storage cabinet, and greatly reduces the workload of medical staff.

Description

Cabinet is stored with sample to clinical laboratory

Technical Field

The invention relates to the technical field of clinical laboratory storage, in particular to a sample storage cabinet for clinical laboratory.

Background

Clinical laboratories are the bridge between clinical and basic medicine, and include clinical chemistry, clinical microbiology, clinical immunology, hematology, humoral, and transfusions. In the daily work of a hospital, the clinical laboratory undertakes the detection work of various human and animal samples including wards, outpatients, various physical examinations and scientific researches every day; when the clinical laboratory tests, samples need to be stored firstly because the collected samples are too large, the samples are stored in a traditional method through a sample storage cabinet, and the traditional sample storage cabinet for the clinical laboratory is simple in structure, single in function, disordered in sample storage and inconvenient for subsequent tests of medical staff; in addition, the storage cabinet in the prior art cannot fix and protect the sample, especially some samples with high temperature limit, so that the sample is easily damaged, and on the other hand, when the medical staff examines the sample, the taken sample needs to be shaken up, and the process needs to be operated one by one, which is troublesome and laborious; the workload of medical staff is greatly increased; there is therefore a continuing need for a clinical specimen storage cabinet that addresses the current problems.

Disclosure of Invention

In order to solve the problems, the invention provides a sample storage cabinet for a clinical laboratory, which effectively solves the problems that the storage cabinet for the clinical laboratory in the prior art is simple in structure, has no protection function and has no shaking function; greatly improves the protection function and the practicability of the storage cabinet, and greatly reduces the workload of medical staff.

In order to achieve the purpose, the invention provides a sample storage cabinet for a clinical laboratory, which comprises a cabinet body, wherein a pair of rotating cover plates are rotatably connected on the cabinet body, the rotating cover plates are symmetrically arranged on the cabinet body, and a first rotating mechanism matched with the rotating cover plates is arranged in the cabinet body; the cabinet body is internally provided with an oscillating plate and a first placing plate which are matched with the rotary cover plate, the oscillating plate and the first placing plate are respectively matched with the corresponding rotary cover plate, and the cabinet body is internally provided with a first shaking mechanism matched with the oscillating plate; the cabinet body is provided with a first movable door plate and a second movable door plate, and a first adjusting mechanism matched with the second movable door plate is arranged in the cabinet body; a second adjusting mechanism matched with the first movable door plate is arranged in the cabinet body; a refrigerated cabinet matched with the second movable door plate is arranged in the cabinet body, a first sliding mechanism matched with the refrigerated cabinet is arranged in the cabinet body, and the first sliding mechanism is connected with the first adjusting mechanism; a plurality of second placing plates are arranged in the refrigerated cabinet, and a pair of third placing plates matched with the first movable door plate are arranged in the cabinet body; a plurality of placing grooves are formed in the oscillating plate, the first placing plate and the second placing plate; the placing grooves are internally provided with first fixing mechanisms matched with the placing grooves; a plurality of storage holes with different sizes are formed in the third placing plate; two pairs of foot pads are arranged below the cabinet body.

Further: the first rotating mechanism comprises a first rotating worm which is rotatably connected in the cabinet body, and a first rotating worm wheel meshed with the first rotating worm is rotatably connected in the cabinet body; the first rotating worm wheel is coaxially and fixedly connected with a first connecting worm, a pair of first connecting worm wheels are rotatably connected in the cabinet body, and the first connecting worm wheels are meshed with the first connecting worm; the first connecting worm wheel is coaxially and fixedly connected with a first rotating screw rod, a first connecting threaded sleeve is screwed on the first rotating screw rod, a first rotating connecting rod is rotationally connected on the first connecting threaded sleeve, and the first rotating connecting rod is rotationally connected with the rotating cover plate; the first rotating connecting rods are symmetrically arranged on two sides of the rotating cover plate.

Further: the first shaking mechanism comprises a second worm which is rotatably connected in the cabinet body, a second worm wheel which is meshed with the second worm is rotatably connected in the cabinet body, a first eccentric wheel is fixedly connected onto the second worm wheel, a first sliding sleeve which is matched with the first eccentric wheel is slidably connected in the cabinet body, a first sliding sleeve is fixedly connected onto the first sliding sleeve, a pair of first fixing columns is fixedly connected onto the first sliding sleeve, and a lifting connecting block which is fixedly connected with the first fixing columns is rotatably connected into the oscillating plate; a second rotating connecting rod is fixedly connected to the upper edge of the first eccentric wheel, a first driven connecting rod is rotatably connected in the cabinet body, one end of the first driven connecting rod is rotatably connected with the second rotating connecting rod, the other end of the first driven connecting rod is rotatably connected with a second driven connecting rod, a first polygonal sliding strip is slidably connected in the first sliding sleeve, and one end of the first polygonal sliding strip is rotatably connected with the second driven connecting rod; the other end of the first polygonal sliding strip is fixedly connected with a second connecting sliding rod, a second connecting threaded sleeve which is connected with the second connecting sliding rod in a sliding mode is connected in the cabinet body in a sliding mode, a first rotating rack is fixedly connected to the second connecting threaded sleeve, a first rotating gear meshed with the first rotating rack is connected in the cabinet body in a rotating mode, a first polygonal connecting column is fixedly connected to the first rotating gear in a coaxial mode, and a first fixing sleeve which is connected with the first polygonal connecting column in a sliding mode is fixedly connected to the lower portion of the oscillating plate.

Further: the second worm wheel rotating shaft is fixedly connected with the edge of the first eccentric wheel; the first polygonal connecting column is a polygonal column, and a polygonal sliding groove matched with the first polygonal connecting column is arranged in the first fixing sleeve.

Further: the first adjusting mechanism comprises a first adjusting worm which is connected with the cabinet body in a rotating mode, a first adjusting worm wheel which is meshed with the first adjusting worm is connected with the cabinet body in a rotating mode, the first adjusting worm wheel is coaxially and fixedly connected with a first driving adjusting connecting rod, the other end of the first driving adjusting connecting rod is connected with a first driven adjusting connecting rod in a rotating mode, the second movable door plate is fixedly connected with a right-angle connecting block, and the other end of the first driven adjusting connecting rod is connected with the right-angle connecting block in a rotating mode; a second active adjusting connecting rod is rotatably connected to the right-angle connecting block, a first fixed chute is fixedly connected in the cabinet body, a first movable sliding plate is connected in the first fixed chute in a sliding manner, and a chute matched with the first movable sliding plate is arranged in the first fixed chute; the second active adjusting connecting rod is rotatably connected with the first movable sliding plate.

Further: the first sliding mechanism comprises a second adjusting worm which is rotatably connected in the cabinet body, and the second adjusting worm is connected with the first adjusting worm through a belt; a second adjusting worm wheel meshed with the second adjusting worm is connected in the cabinet body in a rotating mode, the second adjusting worm wheel is coaxially and fixedly connected with a first driving motion connecting rod, a first driven motion connecting rod is connected in the cabinet body in a rotating mode, and the first driving motion connecting rod is connected with the middle of the first driven motion connecting rod in a rotating mode; the cabinet body is internally and slidably connected with a first sliding connection plate which is rotatably connected with a first driven motion connecting rod, the first sliding connection plate is rotatably connected with a second driving motion connecting rod, the other end of the second driving motion connecting rod is rotatably connected with a second driven motion connecting rod, the other end of the second driven motion connecting rod is rotatably connected with the first driven motion connecting rod, meanwhile, the other end of the second driven motion connecting rod is rotatably connected with a second movable sliding plate, the cabinet body is fixedly connected with a second fixed sliding groove which is slidably connected with the second movable sliding plate, and a sliding groove which is matched with the second movable sliding plate is arranged in the second fixed sliding groove.

Further: the second adjusting mechanism comprises a first function worm connected with the first function worm in a rotating mode in the cabinet body, a first function worm wheel meshed with the first function worm is connected with the cabinet body in a rotating mode, a first driving function connecting rod is fixedly connected to two sides of the first function worm wheel coaxially, the other end of the first driving function connecting rod is connected with a first driven function connecting rod in a rotating mode, the other end of the first driven function connecting rod is connected with a first movable door plate in a rotating mode, a second driving function connecting rod connected with the first driven function connecting rod in a rotating mode is connected with the cabinet body in a rotating mode, and a second driven function connecting rod connected with the second driving function connecting rod in a rotating mode is connected to the first movable door plate in a rotating mode.

Further: the first fixing mechanism comprises a pair of first fixing plates matched with the placing grooves, the first fixing plates are arc-shaped, first telescopic sliding columns are fixedly connected to the first fixing plates, return springs are sleeved outside the first telescopic sliding columns, one ends of the return springs are fixedly connected with the first fixing plates, and the other ends of the return springs are fixedly connected with the corresponding positions of the vibrating plate, the first placing plate and the second placing plate; the vibrating plate, the first placing plate and the second placing plate are internally provided with sliding grooves matched with the first telescopic sliding columns.

Compared with the prior art, the gain effect of the invention is as follows:

1. the invention has ingenious conception and strong creativity; the cooperation that shakes board, first board, the second of placing between board and first fixed establishment has effectively realized the sample fixed with store, has strengthened the protection of sample under the effect of rotatory apron, first movable door plant and second movable door plant simultaneously.

2. The multifunctional medical nursing bed has comprehensive functions and strong practicability, and the cooperation of the mechanisms in the multifunctional medical nursing bed can protect samples and simultaneously greatly facilitate the operation of medical care personnel; the arrangement of the first shaking mechanism greatly facilitates the operation of medical personnel.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is an internal structural view of the present invention.

Fig. 3 is an internal perspective view of the present invention.

Fig. 4 is a perspective view of the first rotating mechanism of the present invention.

Fig. 5 is a partially enlarged view of the first rotating mechanism of the present invention.

FIG. 6 is a perspective view of a first shake-up mechanism of the present invention.

Fig. 7 is a perspective view of a first shaking mechanism of the present invention.

FIG. 8 is a perspective view of a first shake-up mechanism of the present invention.

Fig. 9 is a structural view of a first adjustment mechanism of the present invention.

Fig. 10 is a perspective view of a first adjustment mechanism of the present invention.

Fig. 11 is a perspective view of a second adjustment mechanism of the present invention.

Fig. 12 is a partial perspective view of the present invention.

Fig. 13 is a perspective view of the first sliding mechanism of the present invention.

Fig. 14 is an internal partial perspective view of the present invention.

Fig. 15 is a perspective view of a first securing mechanism of the present invention.

In the figure: 1. a cabinet body, 2, a rotary cover plate, 3, a first movable door plate, 4, a second movable door plate, 5, a vibration plate, 6, a first placing plate, 7, a refrigerator, 8, a second placing plate, 9, a third placing plate, 10, a first connecting worm, 11, a first rotating worm, 12, a first rotating screw, 13, a first rotating connecting rod, 14, a first rotating worm wheel, 15, a first connecting worm wheel, 16, a first connecting screw sleeve, 17, a first fixing column, 18, a first fixing sleeve, 19, a first polygonal connecting column, 20, a first rotating gear, 21, a first rotating rack, 22, a second connecting screw sleeve, 23, a second connecting slide rod, 24, a second worm wheel, 25, a first eccentric wheel, 26, a first sliding sleeve, 27, a second rotating connecting rod, 28, a first driven connecting rod, 29, a second driven connecting rod, 30, a first polygonal slide rod, 31, a second worm, 32. a first sliding sleeve, 33, a lifting connecting block, 34, a first adjusting worm wheel, 35, a first driving adjusting connecting rod, 36, a first driven adjusting connecting rod, 37, a right-angle connecting block, 38, a second driving adjusting connecting rod, 39, a first movable sliding plate, 40, a first fixed sliding chute, 41, a second adjusting worm, 42, a second adjusting worm wheel, 43, a first driving moving connecting rod, 44, a first driven moving connecting rod, 45, a second driving moving connecting rod, 46, a second driven moving connecting rod, 47, a second fixed sliding chute, 48, a first sliding connecting plate, 49, a first driven function connecting rod, 50, a second driven function connecting rod, 51, a second driving function connecting rod, 52, a first driving function connecting rod, 53, a first function worm wheel, 54, a first function worm, 55, a second movable sliding plate, 56, a first fixed plate, 57, a first telescopic sliding column, 58, a return spring, 59. a first adjusting worm.

Detailed Description

The sample storage cabinet for the clinical laboratory comprises a cabinet body 1, wherein a pair of rotating cover plates 2 are rotatably connected to the cabinet body 1, the rotating cover plates 2 are symmetrically arranged on the cabinet body 1, and a first rotating mechanism matched with the rotating cover plates 2 is arranged in the cabinet body 1; a vibrating plate 5 and a first placing plate 6 which are matched with the rotary cover plate 2 are arranged in the cabinet body 1, the vibrating plate 5 and the first placing plate 6 are respectively matched with the corresponding rotary cover plate 2, and a first shaking mechanism which is matched with the vibrating plate 5 is arranged in the cabinet body 1; a first movable door panel 3 and a second movable door panel 4 are arranged on the cabinet body 1, and a first adjusting mechanism matched with the second movable door panel 4 is arranged in the cabinet body 1; a second adjusting mechanism matched with the first movable door panel 3 is arranged in the cabinet body 1; a refrigerated cabinet 7 matched with the second movable door panel 4 is arranged in the cabinet body 1, a first sliding mechanism matched with the refrigerated cabinet 7 is arranged in the cabinet body 1, and the first sliding mechanism is connected with a first adjusting mechanism; a plurality of second placing plates 8 are arranged in the refrigerated cabinet 7, and a pair of third placing plates 9 matched with the first movable door panel 3 are arranged in the cabinet body 1; a plurality of placing grooves are formed in the oscillating plate 5, the first placing plate 6 and the second placing plate 8; the placing grooves are internally provided with first fixing mechanisms matched with the placing grooves; a plurality of storage holes with different sizes are arranged on the third placing plate 9; two pairs of foot pads are arranged below the cabinet body 1.

As shown in fig. 1, 2, 3 and 9: when the medical staff operates the sample storage cabinet, when the medical staff needs to put the sample into the storage cabinet, the medical staff can adjust the first rotating mechanism, the first adjusting mechanism and the second adjusting mechanism according to the requirements; therefore, the rotary cover plate 2, the first movable door plate 3 and the second movable door plate 4 are opened, and medical staff can place the rotary cover plate, the first movable door plate and the second movable door plate into the first placing plate 6, the second placing plate 8 and the third placing plate 9 according to sample requirements; when the medical staff adjusts the first adjusting mechanism, the first adjusting mechanism moves to drive the first sliding mechanism to move, and the refrigerated cabinet 7 slides out; thereby greatly facilitating the operation of medical personnel; the arrangement of the refrigerated cabinet 7 realizes the control of the storage temperature of the sample; the stability of the sample with the requirement on temperature is greatly ensured; the first fixing mechanism is arranged to fix the sample test tube; the storage stability of the sample is greatly improved; the arrangement of the first shaking mechanism greatly facilitates the shaking operation of medical personnel before inspection; the working efficiency of medical staff is improved; the problem that the storage cabinet of the clinical laboratory in the prior art is simple in structure, free of a protection function and free of a shaking-up function is effectively solved; greatly improves the protection function and the practicability of the storage cabinet, and greatly reduces the workload of medical staff.

The first rotating mechanism comprises a first rotating worm 11 which is rotatably connected in the cabinet body 1, and a first rotating worm wheel 14 which is meshed with the first rotating worm 11 is rotatably connected in the cabinet body 1; the first rotating worm wheel 14 is coaxially and fixedly connected with a first connecting worm 10, a pair of first connecting worm wheels 15 are rotatably connected in the cabinet body 1, and the first connecting worm wheels 15 are all meshed with the first connecting worm 10; the first connecting worm wheel 15 is coaxially and fixedly connected with a first rotating screw 12, a first connecting threaded sleeve 16 is screwed on the first rotating screw 12, a first rotating connecting rod 13 is rotatably connected on the first connecting threaded sleeve 16, and the first rotating connecting rod 13 is rotatably connected with the rotating cover plate 2; the first rotary connecting rods 13 are symmetrically arranged on two sides of the rotary cover plate 2.

As shown in fig. 3, 4 and 5: when the medical staff rotates the first rotating worm 11, the first rotating worm 11 rotates to drive the first connecting worm wheel 15 to rotate through the first rotating worm wheel 14 and the first connecting worm 10, and the first connecting worm wheel 15 rotates to drive the first connecting threaded sleeve 16 to slide in the cabinet body 1 through the first rotating screw 12; the first connecting screw sleeve 16 can slide to drive the rotating cover plate 2 to rotate through the first rotating connecting rod 13.

The first shaking mechanism comprises a second worm 31 which is rotationally connected with the cabinet body 1, a second worm wheel 24 which is meshed with the second worm 31 is rotationally connected with the cabinet body 1, a first eccentric wheel 25 is fixedly connected on the second worm wheel 24, a first sliding sleeve 26 which is matched with the first eccentric wheel 25 is slidably connected with the cabinet body 1, a first sliding sleeve 32 is fixedly connected on the first sliding sleeve 26, a pair of first fixed connection columns 17 is fixedly connected on the first sliding sleeve 32, and a lifting connection block 33 which is fixedly connected with the first fixed connection columns 17 is rotationally connected with the oscillating plate 5; a second rotating connecting rod 27 is fixedly connected to the upper edge of the first eccentric wheel 25, a first driven connecting rod 28 is rotatably connected to the cabinet body 1, one end of the first driven connecting rod 28 is rotatably connected with the second rotating connecting rod 27, the other end of the first driven connecting rod 28 is rotatably connected with a second driven connecting rod 29, a first polygonal sliding strip 30 is slidably connected to the first sliding sleeve 32, and one end of the first polygonal sliding strip 30 is rotatably connected with the second driven connecting rod 29; the other end of the first polygonal sliding strip 30 is fixedly connected with a second connecting sliding rod 23, the cabinet body 1 is slidably connected with a second connecting threaded sleeve 22 which is slidably connected with the second connecting sliding rod 23, a first rotating rack 21 is fixedly connected to the second connecting threaded sleeve 22, a first rotating gear 20 which is meshed with the first rotating rack 21 is rotatably connected in the cabinet body 1, the first rotating gear 20 is coaxially and fixedly connected with a first polygonal connecting column 19, and a first fixing sleeve 18 which is slidably connected with the first polygonal connecting column 19 is fixedly connected below the oscillating plate 5.

As shown in fig. 2, 3, 6, 7 and 8: when the motor drives the first eccentric wheel 25 and the second rotary connecting rod 27 to rotate through the second worm 31 and the second worm wheel 24; the first eccentric wheel 25 rotates to drive the first sliding sleeve 32, the first fixing column 17 and the oscillation plate 5 to slide through the first sliding sleeve 26; the second rotating link 27 rotates to drive the first polygonal slide bar 30 to slide in the first sliding sleeve 32 through the first driven link 28 and the second driven link 29; the first polygonal sliding bar 30 slides to drive the first rotary rack 21 to rotate through the second connecting sliding bar 23 and the second connecting threaded sleeve 22; first rotatory rack 21 rotates and drives through first rotary gear 20, first polygon spliced pole 19 and first fixed sleeve 18 and shake board 5 and rotate to the realization shakes the even of sample in shaking board 5.

The rotating shaft of the second worm wheel 24 is fixedly connected with the edge of the first eccentric wheel 25; the first polygonal connecting column 19 is a polygonal column, and a polygonal sliding groove matched with the first polygonal connecting column 19 is arranged in the first fixing sleeve 18.

As shown in fig. 6 and 7: the integrity of the first shaking and evening mechanism is ensured by the connection mode of the second worm wheel 24 and the first eccentric wheel 25; the first fixed sleeve 18 is matched with the first polygonal connecting column 19, so that the stability of transmission is ensured.

The first adjusting mechanism comprises a first adjusting worm 59 which is rotatably connected in the cabinet body 1, a first adjusting worm wheel 34 which is meshed with the first adjusting worm 59 is rotatably connected in the cabinet body 1, the first adjusting worm wheel 34 is coaxially and fixedly connected with a first driving adjusting connecting rod 35, the other end of the first driving adjusting connecting rod 35 is rotatably connected with a first driven adjusting connecting rod 36, the second movable door panel 4 is fixedly connected with a right-angle connecting block 37, and the other end of the first driven adjusting connecting rod 36 is rotatably connected with the right-angle connecting block 37; a second active adjusting connecting rod 38 is rotatably connected to the right-angle connecting block 37, a first fixed chute 40 is fixedly connected in the cabinet body 1, a first movable sliding plate 39 is slidably connected in the first fixed chute 40, and a chute matched with the first movable sliding plate 39 is arranged in the first fixed chute 40; the second active adjustment link 38 is pivotally connected to the first movable slide 39.

As shown in fig. 9, 10, 12 and 13: when the medical staff turns on the motor to drive the first adjusting worm 59 to rotate, the first adjusting worm 59 rotates to drive the first driving adjusting connecting rod 35 to rotate through the first adjusting worm wheel 34, and the first driving adjusting connecting rod 35 rotates to drive the first driven adjusting connecting rod 36 and the second driving adjusting connecting rod 38 to rotate; the first driven adjusting connecting rod 36 and the second driving adjusting connecting rod 38 rotate to drive the right-angle connecting block 37 to move, and simultaneously drive the first movable sliding plate 39 to slide in the first fixed sliding groove 40, so that the movement is limited; the movement of the right-angle connecting block 37 will bring the second movable door panel 4 into motion.

The first sliding mechanism comprises a second adjusting worm 41 which is rotatably connected with the cabinet body 1, and the second adjusting worm 41 is connected with the first adjusting worm 59 through a belt; a second adjusting worm gear 42 meshed with the second adjusting worm 41 is rotatably connected in the cabinet body 1, the second adjusting worm gear 42 is coaxially and fixedly connected with a first driving motion connecting rod 43, a first driven motion connecting rod 44 is rotatably connected in the cabinet body 1, and the first driving motion connecting rod 43 is rotatably connected with the middle part of the first driven motion connecting rod 44; the internal sliding connection of cabinet 1 has the first sliding connection board 48 of being connected with first driven motion connecting rod 44 rotation, it is connected with second initiative motion connecting rod 45 to rotate on the first sliding connection board 48, the second initiative motion connecting rod 45 other end rotates and is connected with second driven motion connecting rod 46, the second driven motion connecting rod 46 other end rotates with first driven motion connecting rod 44 and is connected, simultaneously, the second driven motion connecting rod 46 other end rotates and is connected with second activity slide 55, the internal rigid coupling of cabinet 1 has the second fixed chute 47 with second activity slide 55 sliding connection, be provided with the spout with second activity slide 55 matched with in the second fixed chute 47.

As shown in fig. 13: when the first adjusting worm 59 rotates, the second adjusting worm 41 can be driven by a belt to rotate, and the second adjusting worm 41 can rotate and drive the first active movement connecting rod 43 to rotate by the second adjusting worm wheel 42; the first driving motion connecting rod 43 rotates to drive the first sliding connecting plate 48 to slide through the first driven motion connecting rod 44, the second driving motion connecting rod 45 and the second driven motion connecting rod 46; meanwhile, the first driven moving link 44 rotates to drive the second movable sliding plate 55 to slide in the second fixed sliding slot 47.

The second adjusting mechanism comprises a first function worm 54 connected with the cabinet body 1 in a rotating mode, a first function worm wheel 53 meshed with the first function worm 54 is connected with the cabinet body 1 in the rotating mode, first driving function connecting rods 52 are fixedly connected to two sides of the first function worm wheel 53 in a coaxial mode, the other end of each first driving function connecting rod 52 is connected with a first driven function connecting rod 49 in a rotating mode, the other end of each first driven function connecting rod 49 is connected with the first movable door panel 3 in a rotating mode, a second driving function connecting rod 51 connected with the first driven function connecting rods 49 in a rotating mode is connected with the cabinet body 1 in the rotating mode, and a second driven function connecting rod 50 connected with the second driving function connecting rod 51 in a rotating mode is connected on the first movable door panel 3 in a rotating mode.

As shown in fig. 9 and 11: when the motor drives the first function worm 54 to rotate, the first function worm 54 can rotate to drive the first active function connecting rods 52 on two sides to rotate through the first function worm wheel 53; the first active function link 52 rotates to drive the first driven function link 49 to rotate, the first driven function link 49 rotates to drive the second driven function link 50 to rotate through the second active function link 51, and the adjustment of the first movable door panel 3 can be realized under the combined action of the first active function link 49 and the second driven function link 50.

The first fixing mechanism comprises a pair of first fixing plates 56 matched with the placing grooves, the first fixing plates 56 are arc-shaped, first telescopic sliding columns 57 are fixedly connected to the first fixing plates 56, return springs 58 are sleeved outside the first telescopic sliding columns 57, one ends of the return springs 58 are fixedly connected with the first fixing plates 56, and the other ends of the return springs 58 are fixedly connected with the corresponding positions of the oscillating plate 5, the first placing plate 6 and the second placing plate 8; the vibrating plate 5, the first placing plate 6 and the second placing plate 8 are internally provided with sliding grooves matched with the first telescopic sliding columns 57.

As shown in fig. 14 and 15: when the medical staff places the sample in the placing groove, the first fixing plate 56 can drive the first telescopic sliding column 57 to slide in the process; while return spring 58 is compressed; the fixation of the sample tube is achieved under the interaction of the first fixation plate 56.

The working process of the invention is as follows:

as shown in fig. 1, 2, 3, 4, 6, 10, 13 and 15: when the medical staff operates the sample storage cabinet, when the medical staff needs to put the sample into the storage cabinet, the medical staff can adjust the first rotating mechanism, the first adjusting mechanism and the second adjusting mechanism according to the requirements; therefore, the rotary cover plate 2, the first movable door plate 3 and the second movable door plate 4 are opened, and medical staff can place the rotary cover plate, the first movable door plate and the second movable door plate into the first placing plate 6, the second placing plate 8 and the third placing plate 9 according to sample requirements; when the medical staff adjusts the first adjusting mechanism, the first adjusting mechanism moves to drive the first sliding mechanism to move, and the refrigerated cabinet 7 slides out; thereby greatly facilitating the operation of medical personnel; when the medical staff rotates the first rotating worm 11, the first rotating worm 11 rotates to drive the first connecting worm wheel 15 to rotate through the first rotating worm wheel 14 and the first connecting worm 10, and the first connecting worm wheel 15 rotates to drive the first connecting threaded sleeve 16 to slide in the cabinet body 1 through the first rotating screw 12; the first connecting threaded sleeve 16 can slide and drive the rotating cover plate 2 to rotate through the first rotating connecting rod 13; when the medical staff turns on the motor to drive the first adjusting worm 59 to rotate, the first adjusting worm 59 rotates to drive the first driving adjusting connecting rod 35 to rotate through the first adjusting worm wheel 34, and the first driving adjusting connecting rod 35 rotates to drive the first driven adjusting connecting rod 36 and the second driving adjusting connecting rod 38 to rotate; the first driven adjusting connecting rod 36 and the second driving adjusting connecting rod 38 rotate to drive the right-angle connecting block 37 to move, and simultaneously drive the first movable sliding plate 39 to slide in the first fixed sliding groove 40, so that the movement is limited; the movement of the right-angle connecting block 37 drives the second movable door panel 4 to move; when the first adjusting worm 59 rotates, the second adjusting worm 41 can be driven by a belt to rotate, and the second adjusting worm 41 can rotate to drive the first active movement connecting rod 43 to rotate by the second adjusting worm wheel 42; the first driving motion connecting rod 43 rotates to drive the first sliding connecting plate 48 to slide through the first driven motion connecting rod 44, the second driving motion connecting rod 45 and the second driven motion connecting rod 46; meanwhile, the first driven motion connecting rod 44 rotates to drive the second movable sliding plate 55 to slide in the second fixed sliding chute 47; when the motor drives the first function worm 54 to rotate, the first function worm 54 can rotate to drive the first active function connecting rods 52 on two sides to rotate through the first function worm wheel 53; the first driving function connecting rod 52 can drive the first driven function connecting rod 49 to rotate, the first driven function connecting rod 49 can drive the second driven function connecting rod 50 to rotate through the second driving function connecting rod 51, and the adjustment of the first movable door panel 3 can be realized under the combined action of the first driving function connecting rod and the second driven function connecting rod; the arrangement of the refrigerated cabinet 7 realizes the control of the storage temperature of the sample; the stability of the sample with the requirement on temperature is greatly ensured; the first fixing mechanism is arranged to fix the sample test tube; when the medical staff places the sample in the placing groove, the first fixing plate 56 can drive the first telescopic sliding column 57 to slide in the process; while return spring 58 is compressed; the fixation of the sample tube is achieved under the interaction of the first fixation plate 56; the storage stability of the sample is greatly improved; the arrangement of the first shaking mechanism greatly facilitates the shaking operation of medical personnel before inspection; when the motor drives the first eccentric wheel 25 and the second rotary connecting rod 27 to rotate through the second worm 31 and the second worm wheel 24; the first eccentric wheel 25 rotates to drive the first sliding sleeve 32, the first fixing column 17 and the oscillation plate 5 to slide through the first sliding sleeve 26; the second rotating link 27 rotates to drive the first polygonal slide bar 30 to slide in the first sliding sleeve 32 through the first driven link 28 and the second driven link 29; the first polygonal sliding bar 30 slides to drive the first rotary rack 21 to rotate through the second connecting sliding bar 23 and the second connecting threaded sleeve 22; the first rotating rack 21 rotates to drive the oscillating plate 5 to rotate through the first rotating gear 20, the first polygonal connecting column 19 and the first fixing sleeve 18, so that the samples in the oscillating plate 5 are uniformly oscillated; the working efficiency of medical staff is improved; the problem that the storage cabinet of the clinical laboratory in the prior art is simple in structure, free of a protection function and free of a shaking-up function is effectively solved; greatly improves the protection function and the practicability of the storage cabinet, and greatly reduces the workload of medical staff.

Claims (8)

1. Cabinet is stored with sample to clinical laboratory, its characterized in that: the multifunctional wardrobe comprises a wardrobe body (1), wherein a pair of rotating cover plates (2) are rotatably connected to the wardrobe body (1), the rotating cover plates (2) are symmetrically arranged on the wardrobe body (1), and a first rotating mechanism matched with the rotating cover plates (2) is arranged in the wardrobe body (1); an oscillation plate (5) and a first placing plate (6) which are matched with the rotary cover plate (2) are arranged in the cabinet body (1), the oscillation plate (5) and the first placing plate (6) are respectively matched with the corresponding rotary cover plate (2), and a first shaking mechanism which is matched with the oscillation plate (5) is arranged in the cabinet body (1); a first movable door panel (3) and a second movable door panel (4) are arranged on the cabinet body (1), and a first adjusting mechanism matched with the second movable door panel (4) is arranged in the cabinet body (1); a second adjusting mechanism matched with the first movable door panel (3) is arranged in the cabinet body (1); a refrigerated cabinet (7) matched with the second movable door panel (4) is arranged in the cabinet body (1), a first sliding mechanism matched with the refrigerated cabinet (7) is arranged in the cabinet body (1), and the first sliding mechanism is connected with the first adjusting mechanism; a plurality of second placing plates (8) are arranged in the refrigerated cabinet (7), and a pair of third placing plates (9) matched with the first movable door panel (3) is arranged in the cabinet body (1); a plurality of placing grooves are formed in the oscillating plate (5), the first placing plate (6) and the second placing plate (8); the placing grooves are internally provided with first fixing mechanisms matched with the placing grooves; a plurality of storage holes with different sizes are formed in the third placing plate (9); two pairs of foot pads are arranged below the cabinet body (1).

2. The clinical laboratory sample storage cabinet according to claim 1, wherein: the first rotating mechanism comprises a first rotating worm (11) which is rotatably connected with the cabinet body (1), and a first rotating worm wheel (14) which is meshed with the first rotating worm (11) is rotatably connected with the cabinet body (1); the first rotating worm wheel (14) is coaxially and fixedly connected with a first connecting worm (10), a pair of first connecting worm wheels (15) are rotationally connected in the cabinet body (1), and the first connecting worm wheels (15) are meshed with the first connecting worm (10); the first connecting worm wheel (15) is coaxially and fixedly connected with a first rotating screw rod (12), a first connecting threaded sleeve (16) is screwed on the first rotating screw rod (12), a first rotating connecting rod (13) is rotatably connected on the first connecting threaded sleeve (16), and the first rotating connecting rod (13) is rotatably connected with the rotating cover plate (2); the first rotary connecting rods (13) are symmetrically arranged at two sides of the rotary cover plate (2).

3. The clinical laboratory sample storage cabinet according to claim 1, wherein: the first shaking mechanism comprises a second worm (31) which is rotationally connected with the cabinet body (1), a second worm wheel (24) which is meshed with the second worm (31) is rotationally connected with the cabinet body (1), a first eccentric wheel (25) is fixedly connected to the second worm wheel (24), a first sliding sleeve (26) which is matched with the first eccentric wheel (25) is slidably connected with the cabinet body (1), a first sliding sleeve (32) is fixedly connected to the first sliding sleeve (26), a pair of first fixing columns (17) is fixedly connected to the first sliding sleeve (32), and a lifting connecting block (33) which is fixedly connected with the first fixing columns (17) is rotationally connected to the oscillating plate (5); a second rotating connecting rod (27) is fixedly connected to the upper edge of the first eccentric wheel (25), a first driven connecting rod (28) is rotationally connected to the cabinet body (1), one end of the first driven connecting rod (28) is rotationally connected with the second rotating connecting rod (27), the other end of the first driven connecting rod (28) is rotationally connected with a second driven connecting rod (29), a first polygonal sliding strip (30) is slidably connected to the first sliding sleeve (32), and one end of the first polygonal sliding strip (30) is rotationally connected with the second driven connecting rod (29); the other end of the first polygonal sliding strip (30) is fixedly connected with a second connecting sliding rod (23), the cabinet body (1) is internally and slidably connected with a second connecting threaded sleeve (22) which is slidably connected with the second connecting sliding rod (23), the second connecting threaded sleeve (22) is fixedly connected with a first rotating rack (21), the cabinet body (1) is rotatably connected with a first rotating gear (20) which is meshed with the first rotating rack (21), the first rotating gear (20) is coaxially and fixedly connected with a first polygonal connecting column (19), and a first fixing sleeve (18) which is slidably connected with the first polygonal connecting column (19) is fixedly connected to the lower portion of the oscillating plate (5).

4. The clinical laboratory sample storage cabinet according to claim 3, wherein: the rotating shaft of the second worm wheel (24) is fixedly connected with the edge of the first eccentric wheel (25); the first polygonal connecting column (19) is a polygonal column, and a polygonal sliding groove matched with the first polygonal connecting column (19) is arranged in the first fixing sleeve (18).

5. The clinical laboratory sample storage cabinet according to claim 1, wherein: the first adjusting mechanism comprises a first adjusting worm (59) which is rotatably connected with the cabinet body (1), a first adjusting worm wheel (34) which is meshed with the first adjusting worm (59) is rotatably connected with the cabinet body (1), the first adjusting worm wheel (34) is coaxially and fixedly connected with a first driving adjusting connecting rod (35), the other end of the first driving adjusting connecting rod (35) is rotatably connected with a first driven adjusting connecting rod (36), a right-angle connecting block (37) is fixedly connected onto the second movable door panel (4), and the other end of the first driven adjusting connecting rod (36) is rotatably connected with the right-angle connecting block (37); a second active adjusting connecting rod (38) is rotatably connected to the right-angle connecting block (37), a first fixed sliding chute (40) is fixedly connected in the cabinet body (1), a first movable sliding plate (39) is slidably connected in the first fixed sliding chute (40), and a sliding chute matched with the first movable sliding plate (39) is arranged in the first fixed sliding chute (40); the second active adjusting connecting rod (38) is rotatably connected with the first movable sliding plate (39).

6. The clinical laboratory sample storage cabinet according to claim 5, wherein: the first sliding mechanism comprises a second adjusting worm (41) which is rotationally connected with the cabinet body (1), and the second adjusting worm (41) is connected with the first adjusting worm (59) through a belt; a second adjusting worm wheel (42) meshed with the second adjusting worm (41) is rotatably connected in the cabinet body (1), a first driving motion connecting rod (43) is coaxially and fixedly connected to the second adjusting worm wheel (42), a first driven motion connecting rod (44) is rotatably connected in the cabinet body (1), and the first driving motion connecting rod (43) is rotatably connected with the middle part of the first driven motion connecting rod (44); the cabinet body (1) is internally and slidably connected with a first sliding connection plate (48) which is rotatably connected with a first driven motion connecting rod (44), the first sliding connection plate (48) is rotatably connected with a second driving motion connecting rod (45), the other end of the second driving motion connecting rod (45) is rotatably connected with a second driven motion connecting rod (46), the other end of the second driven motion connecting rod (46) is rotatably connected with the first driven motion connecting rod (44), meanwhile, the other end of the second driven motion connecting rod (46) is rotatably connected with a second movable sliding plate (55), a second fixed sliding chute (47) which is slidably connected with the second movable sliding plate (55) is fixedly connected in the cabinet body (1), and a sliding chute which is matched with the second movable sliding plate (55) is arranged in the second fixed sliding chute (47).

7. The clinical laboratory sample storage cabinet according to claim 1, wherein: the second adjusting mechanism comprises a first function worm (54) rotatably connected with the cabinet body (1), a first function worm wheel (53) meshed with the first function worm (54) is rotatably connected with the cabinet body (1), first driving function connecting rods (52) are fixedly connected to two sides of the first function worm wheel (53) coaxially, a first driven function connecting rod (49) is rotatably connected to the other end of the first driving function connecting rod (52), the other end of the first driven function connecting rod (49) is rotatably connected with the first movable door panel (3), a second driving function connecting rod (51) rotatably connected with the first driven function connecting rod (49) is rotatably connected with the first movable door panel (3), and a second driven function connecting rod (50) rotatably connected with the second driving function connecting rod (51) is rotatably connected with the first movable door panel (3).

8. The clinical laboratory sample storage cabinet according to claim 1, wherein: the first fixing mechanism comprises a pair of first fixing plates (56) matched with the placing grooves, the first fixing plates (56) are arc-shaped, first telescopic sliding columns (57) are fixedly connected to the first fixing plates (56), return springs (58) are sleeved outside the first telescopic sliding columns (57), one ends of the return springs (58) are fixedly connected with the first fixing plates (56), and the other ends of the return springs (58) are fixedly connected with corresponding positions of the vibrating plate (5), the first placing plate (6) and the second placing plate (8); the vibrating plate (5), the first placing plate (6) and the second placing plate (8) are internally provided with sliding grooves matched with the first telescopic sliding columns (57).

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