CN113118161B - High-efficient dry cleaning device of test tube for intracavitary department of blood - Google Patents

Abstract

The invention relates to a drying and cleaning device, in particular to a test tube efficient drying and cleaning device for blood medicine. The utility model provides a can carry out dry cleaning automatically, high-efficient dry cleaning equipment of test tube for intracavitary department of blood that work efficiency is high. High-efficient dry cleaning device of test tube for blood internal medicine, including: a support frame; the placing component is arranged on the supporting frame and is placed in a sliding mode; the lifting assembly is arranged on the support frame and lifts in a sliding manner; and the cleaning assembly is arranged on the lifting assembly and is used for cleaning in a rotating mode. Can place through placing the subassembly and need carry out dry clear test tube, can drive clean subassembly reciprocates according to people's needs through lifting unit, can dry clean to the test tube through clean subassembly, can provide power when carrying out dry clean to the test tube through the cylinder, can drive the installation piece and slide down through acting as go-between, no longer need promote the installation piece through the manual work.

Description

High-efficient dry cleaning device of test tube for intracavitary department of blood

Technical Field

The invention relates to a drying and cleaning device, in particular to a test tube efficient drying and cleaning device for blood medicine.

Background

Test tubes, instruments commonly used in hospitals, are used as containers for sampling and storing samples, and are used at normal temperature or when heated. The test tube is divided into a plurality of common test tubes, branched test tubes, centrifugal test tubes and the like.

After the test tube is used, the test tube needs to be cleaned, and after the test tube is cleaned, the test tube needs to be dried and cleaned so as to be stored and avoid bacteria breeding, and the next use is affected.

Therefore, it is necessary to provide a high-efficiency drying and cleaning device for a test tube for a hematology department, which can automatically perform drying and cleaning and has high working efficiency, so as to solve the above problems.

Disclosure of Invention

In order to overcome the defects of long manual operation time and low efficiency of manually drying and cleaning test tubes, the invention aims to provide the efficient drying and cleaning equipment for the test tubes for the blood medicine, which can automatically dry and clean the test tubes and has high working efficiency.

The technical proposal is as follows: high-efficient dry cleaning device of test tube for blood internal medicine, including: a support frame; the placing component is arranged on the supporting frame and is placed in a sliding mode; the lifting assembly is arranged on the support frame and lifts in a sliding manner; and the cleaning assembly is arranged on the lifting assembly and is used for cleaning in a rotating mode.

As an improvement of the above scheme, the placement component comprises: the two first guide frames are arranged on the support frame; the two first sliding frames are arranged on the first guide frame in a sliding manner; the mounting plate is arranged between the two first sliding frames; the placing rack is arranged on the mounting plate; the supporting plate is arranged on the placing frame; and the two first springs are arranged between the first guide frame and the first sliding frame.

As an improvement of the above scheme, the lifting assembly comprises: the second guide frame is arranged on the support frame; the mounting block is slidably mounted on the second guide frame; and the second spring is arranged between the mounting block and the second guide frame.

As an improvement of the above solution, the cleaning assembly includes: the fixed plate is arranged on the mounting block; the first rotating shafts are at least two and are rotatably arranged on the fixed plate; the at least two handles are arranged on the first rotating shaft; at least two cleaning cotton are arranged on the first rotating shaft; a flat belt assembly is mounted between the first shafts.

As an improvement of the scheme, the method further comprises the following steps: the mounting rack is mounted on the support frame; the cylinder is arranged on the mounting frame; the first connecting block is arranged on the air cylinder; the first sliding rod is arranged on the first connecting block; the second connecting block is arranged on the first sliding rod in a sliding mode and is connected with the mounting plate; and the third spring is arranged between the second connecting block and the first sliding rod.

As an improvement of the scheme, the method further comprises the following steps: the sliding block is slidably arranged on the second guide frame; the fourth spring is arranged between the sliding block and the mounting block; the first connecting frame is arranged on the sliding block; the two first fixing frames are arranged on the supporting frame; the two reels are arranged on the first fixing frame; the second connecting frame is arranged on the first sliding frame; and the tail end of the pull wire bypasses the reel and is connected with the first connecting frame.

As an improvement of the scheme, the method further comprises the following steps: the second fixing frame is arranged on the supporting frame; the second sliding frame is slidably arranged on the second fixing frame; the fifth spring is arranged between the second sliding frame and the second fixing frame; the third sliding frame is arranged on the second sliding frame in a sliding manner and is connected with the second connecting block in a sliding manner; the connecting rod is arranged between the third sliding frame and the first connecting block; a first rack mounted on the second carriage; the third fixing frame is arranged on which support frame is; the second rotating shaft is rotatably arranged on the third fixing frame; the first gear is arranged on the second rotating shaft and meshed with the first rack; the first special-shaped block is arranged on the second rotating shaft; the second sliding rod is arranged on the mounting block; the contact plate is arranged on the second sliding rod in a sliding manner and is matched with the first special-shaped block; and a sixth spring installed between the contact plate and the second sliding bar.

As an improvement of the scheme, the method further comprises the following steps: the third connecting frame is arranged on the first connecting frame; the second special-shaped block is arranged on the third connecting frame; the fourth fixing frame is arranged on the supporting frame; the fourth sliding frame is slidably arranged on the fourth fixing frame; the seventh spring is arranged between the fourth sliding frame and the fourth fixing frame and is in a compressed state; the fourth connecting frame is arranged on the fourth sliding frame; the wedge-shaped block is arranged on the fourth connecting frame; the first contact rod is arranged on the contact plate and is matched with the wedge-shaped block; a fifth carriage slidably mounted on the fourth carriage; the second rack is arranged on the fifth sliding frame; the inserted link is arranged on the second rack; the fifth fixing frame is arranged on the supporting frame; the connecting rod is slidably arranged on the fifth fixing frame; the eighth spring is arranged between the connecting rod and the fifth fixing frame; the inserting plate is arranged on the connecting rod and matched with the inserting rod; the second contact rod is arranged on the plugboard; the special-shaped frame is arranged on the fixed plate and is matched with the second contact rod; the second gear is arranged on the first rotating shaft and is matched with the second rack; and a ninth spring installed between the fifth carriage and the fourth carriage.

The beneficial effects are that: according to the invention, the test tube which needs to be dried and cleaned can be placed through the placing component, the cleaning component can be driven to move up and down according to the needs of people through the lifting component, the test tube can be dried and cleaned through the cleaning component, the air cylinder can provide power when the test tube is dried and cleaned, the mounting block can be driven to slide downwards through the stay wire, the mounting block is not required to be pushed manually, the mounting block can be clamped through the cooperation of the first special-shaped block and the contact plate, and the cleaning cotton can be enabled to rotate to clean the test tube through the cooperation of the second rack and the second gear.

Drawings

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

Fig. 2 is a schematic perspective view of a placement module according to the present invention.

Fig. 3 is a schematic perspective view of a lifting assembly according to the present invention.

Fig. 4 is a schematic perspective view of a cleaning assembly according to the present invention.

Fig. 5 is a schematic perspective view of a first part of the present invention.

Fig. 6 is a schematic perspective view of a second part of the present invention.

Fig. 7 is a schematic perspective view of a third portion of the present invention.

Fig. 8 is a schematic perspective view of a fourth part of the present invention.

Reference numerals in the figures: 1. a support frame, 2, a placement unit, 21, a first guide frame, 22, a first carriage, 23, a mounting plate, 24, a placement frame, 25, a pallet, 26, a first spring, 3, a lifting unit, 31, a second guide frame, 32, a mounting block, 33, a second spring, 4, a cleaning unit, 41, a fixing plate, 42, a first rotation shaft, 43, a handle, 44, cleaning cotton, 46, a flat belt combination, 5, a mounting frame, 6, a cylinder, 7, a first connecting block, 8, a first slide bar, 9, a second connecting block, 10, a third spring, 11, a slide block, 12, a fourth spring, 13, a first connecting frame, 14, a first fixing frame, 15, a reel, 16, a second connecting frame, 17, a stay wire, 18, a second fixing frame, 19, a second carriage, 110, fifth springs, 111, third sliding frames, 112, connecting rods, 113, first racks, 114, third fixing frames, 115, second rotating shafts, 116, first gears, 117, first profiled blocks, 118, second sliding rods, 119, contact plates, 120, sixth springs, 121, third connecting frames, 122, second profiled blocks, 123, fourth fixing frames, 124, fourth sliding frames, 125, seventh springs, 126, fourth connecting frames, 127, wedge blocks, 128, first contact rods, 129, fifth sliding frames, 130, second racks, 131, inserting rods, 132, fifth fixing frames, 133, connecting rods, 134, eighth springs, 135, inserting plates, 136, second contact rods, 137, profiled frames, 138, second gears, 139, ninth springs.

Detailed Description

The above-described aspects are further described below in conjunction with specific embodiments. It should be understood that these examples are illustrative of the present application and are not limiting the scope of the present application. The implementation conditions used in the examples may be further adjusted according to the conditions of the specific manufacturer, and the implementation conditions not specified are generally those in routine experiments.

Example 1

The utility model provides a high-efficient dry cleaning equipment of test tube for blood internal medicine, is shown as fig. 1-8, including support frame 1, place subassembly 2, lifting unit 3 and clean subassembly 4, be equipped with on the support frame 1 place subassembly 2 of placing through gliding mode, be equipped with on the support frame 1 and go up lifting unit 3 through gliding mode, be equipped with on the lifting unit 3 and carry out clean subassembly 4 through the pivoted mode.

When using the device, the staff will need carry out clear test tube and put on placing subassembly 2, put the back, and the staff promotes and places subassembly 2 and remove to clean subassembly 4 below, and then, the staff drives clean subassembly 4 through lifting assembly 3 and removes down and clean the test tube of placing on the subassembly 2.

As shown in fig. 1 and 2, the placement component 2 includes a first guide frame 21, a first sliding frame 22, a mounting plate 23, a placement frame 24, a supporting plate 25 and a first spring 26, wherein the front side and the rear side of the left part of the support frame 1 are respectively provided with the first guide frame 21, the first guide frames 21 are respectively provided with the first sliding frame 22 in a sliding manner, the mounting plate 23 is arranged between the front and the rear first sliding frames 22, the placement frame 24 is arranged on the mounting plate 23, the supporting plate 25 is arranged at the lower part of the placement frame 24, and the first springs 26 are respectively connected between the first guide frames 21 and the first sliding frames 22 in a winding manner.

When the test tube is dried and cleaned, a worker puts the test tube to be dried and cleaned on the placing frame 24, after the test tube is placed, the worker pushes the mounting plate 23 to move rightwards, the mounting plate 23 moves rightwards to drive the placing frame 24 to move rightwards, the placing frame 24 moves rightwards to drive the supporting plate 25 to move rightwards, the mounting plate 23 moves rightwards to drive the first sliding frame 22 to slide rightwards on the first guide frame 21, the first spring 26 is stretched, after the placing frame 24 moves rightwards to a proper position, the worker drives the cleaning assembly 4 to move downwards to clean the test tube on the placing frame 24 through the lifting assembly 3, after the cleaning is completed, the worker drives the cleaning assembly 4 to move upwards to reset, then, the mounting plate 23 is loosened, under the action of resetting of the first spring 26, the first sliding frame 22 drives the mounting plate 23 to move leftwards to reset, the mounting plate 23 moves leftwards to reset the placing frame 24 to reset, and thus, the test tube to be dried and cleaned can be placed.

As shown in fig. 1, 3 and 7, the lifting assembly 3 comprises a second guide frame 31, a mounting block 32 and a second spring 33, the right part of the support frame 1 is provided with the second guide frame 31, the second guide frame 31 is provided with the mounting block 32 in a sliding manner, and the second spring 33 is wound between the mounting block 32 and the second guide frame 31.

When the test tube is dried and cleaned, after the placing frame 24 moves rightwards to a proper position, a worker pushes the mounting block 32 to slide downwards on the second guide frame 31, the second spring 33 is stretched, the mounting block 32 slides downwards to drive the cleaning assembly 4 to move downwards to clean the test tube, the cleaning is completed, the worker releases the mounting block 32, and under the reset action of the second spring 33, the mounting block 32 drives the cleaning assembly 4 to move upwards to reset, so that the cleaning assembly 4 can be driven to move up and down according to the needs of people.

As shown in fig. 1 and 4, the cleaning assembly 4 includes a fixing plate 41, a first rotating shaft 42, a handle 43, cleaning cotton 44 and a flat belt assembly 46, the fixing plate 41 is disposed on the mounting block 32, six first rotating shafts 42 are rotatably disposed on the fixing plate 41, the handle 43 is disposed on the upper portion of the first rotating shafts 42, the cleaning cotton 44 is disposed on the lower portion of the first rotating shafts 42, and the flat belt assembly 46 is disposed between the first rotating shafts 42.

When the test tube is dried and cleaned, the mounting block 32 slides downwards to drive the fixing plate 41 to move downwards, the fixing plate 41 moves downwards to drive the cleaning cotton 44 to move downwards through the first rotating shaft 42, after the cleaning cotton 44 moves downwards to a proper position, a worker rotates one of the handles 43, the handle 43 rotates to drive the first rotating shaft 42 to rotate, the first rotating shaft 42 rotates to drive the cleaning cotton 44 to rotate, and other first rotating shafts 42 rotate to drive the cleaning cotton 44 to rotate to clean the test tube under the action of the flat belt combination 46, so that the test tube can be dried and cleaned.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 5 and 7, the device further comprises a mounting frame 5, a cylinder 6, a first connecting block 7, a first sliding rod 8, a second connecting block 9 and a third spring 10, wherein the mounting frame 5 is arranged at the left part of the mounting frame 1, the cylinder 6 is arranged on the mounting frame 5, the first connecting block 7 is arranged on the cylinder 6, the first sliding rod 8 is arranged on the first connecting block 7, the second connecting block 9 is arranged on the first sliding rod 8 in a sliding mode, the second connecting block 9 is connected with the mounting plate 23, and the third spring 10 is connected between the second connecting block 9 and the first sliding rod 8 in a winding mode.

When carrying out dry cleaning to the test tube, staff control cylinder 6 extension, cylinder 6 extension drives first connecting block 7 and moves to the right, first connecting block 7 moves to the right and drives second connecting block 9 through first slide bar 8 and move to the right, second connecting block 9 moves to the right and drives mounting panel 23 to move, after the test tube is clean, staff control cylinder 6 shortens, cylinder 6 shortens and drives first slide bar 8 through first connecting block 7 and moves to reset to the left, first slide bar 8 moves to reset to the left and drives mounting panel 23 to move to reset through second connecting block 9, so, can provide power when carrying out dry cleaning to the test tube, during which third spring 10 can play the cushioning effect.

On the basis of embodiment 1, as shown in fig. 1, 6 and 8, the device further comprises a sliding block 11, a fourth spring 12, a first connecting frame 13, a first fixing frame 14, a winding wheel 15, a second connecting frame 16 and a pull wire 17, wherein the sliding block 11 is arranged on the second guiding frame 31 in a sliding manner, the fourth spring 12 is wound between the sliding block 11 and the mounting block 32, the first connecting frame 13 is arranged on the sliding block 11, the first fixing frames 14 are respectively arranged at the left part and the right part of the front side of the supporting frame 1, the winding wheel 15 is respectively arranged on the first fixing frames 14, the second connecting frame 16 is arranged on the first sliding frame 22 at the front part, the pull wire 17 is arranged on the second connecting frame 16, and the tail end of the pull wire 17 bypasses the winding wheel 15 to be connected with the first connecting frame 13.

When the test tube is dried and cleaned, a worker firstly fixes the mounting block 32 through a tool, the first sliding frame 22 slides rightwards to drive the second connecting frame 16 to move rightwards, the second connecting frame 16 moves rightwards to pull the first connecting frame 13 downwards through the pull wire 17, the first connecting frame 13 moves downwards to drive the sliding block 11 to slide downwards on the second guide frame 31, the fourth spring 12 is stretched, after the placing frame 24 moves rightwards to a proper position, the worker releases the mounting block 32, under the action of the fourth spring 12, the mounting block 32 slides downwards, after the test tube is cleaned, the worker pushes the mounting block 32 to slide upwards to reset, the fourth spring 12 is stretched, at this time, the first sliding frame 22 slides leftwards to reset to drive the second connecting frame 16 to move leftwards, the pull wire 17 is relaxed to loose to not pull the first connecting frame 13 any more, and the sliding block 11 is driven upwards to reset to pull the pull wire 17 to be tensioned under the action of the fourth spring 12, so that the mounting block 32 can be driven to slide downwards, and the mounting block 32 does not need to be pushed manually.

On the basis of the embodiment 1, as shown in fig. 1 and 7, the device further comprises a second fixing frame 18, a second sliding frame 19, a fifth spring 110, a third sliding frame 111, a connecting rod 112, a first rack 113, a third fixing frame 114, a second rotating shaft 115, a first gear 116, a first special-shaped block 117, a second sliding rod 118, a contact plate 119 and a sixth spring 120, wherein the second fixing frame 18 is arranged at the front part of the supporting frame 1, the second sliding frame 19 is arranged on the second fixing frame 18 in a sliding manner, the fifth spring 110 is wound between the second sliding frame 19 and the second fixing frame 18, the third sliding frame 111 is in sliding connection with the second connecting block 9, the connecting rod 112 is rotatably arranged between the third sliding frame 111 and the first connecting block 7, the first rack 113 is arranged at the right end of the second sliding frame 19, the third fixing frame 114 is rotatably provided with the second rotating shaft 115, the first gear 116 is arranged at the bottom of the second rotating shaft 115, the first gear 116 is meshed with the first special-shaped block 113, the second sliding frame 115 is arranged at the top of the second fixing frame 114, the contact plate 118 is in sliding fit with the second rotating shaft 119, and the contact plate 118 is arranged on the second rotating shaft 119.

When the test tube is dried and cleaned, the second connecting block 9 moves rightwards to drive the third sliding frame 111 to slide rightwards on the second sliding frame 19, when the second connecting block 9 moves rightwards to a certain distance, the cylinder 6 continues to stretch to drive the first connecting block 7 to move rightwards, the first connecting block 7 moves rightwards to drive the first sliding rod 8 to slide rightwards on the second connecting block 9, the third spring 10 is compressed, the first connecting block 7 moves rightwards to drive the third sliding frame 111 to move forwards through the connecting rod 112, the third sliding frame 111 moves forwards to drive the second sliding frame 19 to slide forwards on the second fixing frame 18, the fifth spring 110 is stretched, the second sliding frame 19 moves forwards to drive the first rack 113 to move forwards, the first rack 113 moves forwards to drive the first gear 116 to rotate, the first gear 116 rotates to drive the first special-shaped block 117 to rotate through the second rotating shaft 115 to not block the contact plate 119 any more, at this time, the mounting block 32 slides downwards to drive the contact plate 119 to move downwards through the second slide bar 118, when the test tube is cleaned, the cylinder 6 shortens to drive the first connecting block 7 to move leftwards, the first connecting block 7 moves leftwards to drive the first slide bar 8 to slide leftwards, the third spring 10 resets, the first connecting block 7 moves leftwards to push the third sliding frame 111 no longer through the connecting rod 112, at this time, under the action of the reset of the fifth spring 110, the second sliding frame 19 drives the first rack 113 to move backwards to reset, the first rack 113 moves backwards to reset to drive the first gear 116 to reversely reset, the first gear 116 reversely reset drives the first special-shaped block 117 to reversely reset through the second rotating shaft 115, meanwhile, the mounting block 32 slides upwards to reset to drive the contact plate 119 to move upwards through the second slide bar 118, when the contact plate 119 moves upwards to be in contact with the first special-shaped block 117, the first special-shaped block 117 pushes the contact plate 119 to slide backwards on the second slide bar 118, the sixth spring 120 is stretched, and after the contact plate 119 moves upwards to be separated from the first special-shaped block 117, the contact plate 119 slides forwards to reset under the reset action of the sixth spring 120, so that the mounting block 32 can be clamped.

On the basis of the embodiment 1, as shown in fig. 1 and 8, the novel multifunctional electric power tool further comprises a third connecting frame 121, a second special-shaped block 122, a fourth fixing frame 123, a fourth sliding frame 124, a seventh spring 125, a fourth connecting frame 126, a wedge block 127, a first contact rod 128, a fifth sliding frame 129, a second rack 130, a plug rod 131, a fifth fixing frame 132, a connecting rod 133, an eighth spring 134, a plug board 135, a second contact rod 136, a special-shaped frame 137, a second gear 138 and a ninth spring 139, wherein the first connecting frame 13 is provided with a third connecting frame 121, the third connecting frame 121 is provided with a second special-shaped block 122, the front side of the right part of the supporting frame 1 is provided with a fourth fixing frame 123, the fourth fixing frame 123 is provided with a fourth sliding frame 124 in a sliding manner, a seventh spring 125 is wound between the fourth sliding frame 124 and the fourth fixing frame 123, the seventh spring 125 is in a compressed state, the fourth carriage 124 is provided with a fourth connecting frame 126, the upper part of the fourth connecting frame 126 is provided with a wedge block 127, the contact plate 119 is provided with a first contact rod 128, the first contact rod 128 is matched with the wedge block 127, the upper part of the fourth carriage 124 is slidably provided with a fifth carriage 129, the fifth carriage 129 is provided with a second rack 130, the left side of the bottom of the second rack 130 is provided with a plug rod 131, the front side of the support frame 1 is provided with a fifth fixed frame 132, the fifth fixed frame 132 is slidably provided with a connecting rod 133, an eighth spring 134 is wound between the connecting rod 133 and the fifth fixed frame 132, the connecting rod 133 is provided with a plug plate 135, the plug plate 135 is matched with the plug rod 131, the plug plate 135 is provided with a second contact rod 136, the front part of the fixed plate 41 is provided with a special-shaped frame 137, the special-shaped frame 137 is matched with the second contact rod 136, the first rotating shaft 42 at the center of the front part is provided with a second gear 138, the second gear 138 is matched with the second rack 130, a ninth spring 139 is wound between the fifth carriage 129 and the fourth carriage 124.

When the test tube is dried and cleaned, the first connecting frame 13 moves downwards to drive the third connecting frame 121 to move downwards, the third connecting frame 121 moves downwards to drive the second special-shaped block 122 to move downwards, the second special-shaped block 122 moves downwards to push the fifth sliding frame 129 to slide leftwards on the fourth sliding frame 124, the ninth spring 139 is stretched, the fifth sliding frame 129 slides leftwards to drive the second rack 130 to move leftwards, the second rack 130 moves leftwards to drive the inserting rod 131 to move leftwards, when the inserting rod 131 moves leftwards to be in contact with the inserting plate 135, the inserting rod 131 pushes the inserting plate 135 to move forwards, the inserting plate 135 moves forwards to drive the connecting rod 133 to slide forwards on the fifth fixing frame 132, the eighth spring 134 is stretched, when the inserting rod 131 moves leftwards to be matched with the inserting plate 135, the connecting rod 133 drives the inserting plate 135 to move backwards to clamp the inserting rod 131 under the reset action of the eighth spring 134, the contact plate 119 moves downwards to drive the first contact rod 128 to move downwards so as not to push the wedge block 127 any more, at this time, under the action of the reset of the seventh spring 125, the fourth sliding frame 124 drives the second rack 130 to move backwards to be meshed with the second gear 138 through the fifth sliding frame 129, the fixed plate 41 drives the special-shaped frame 137 to move downwards while the contact plate 119 moves downwards, when the special-shaped frame 137 moves downwards to be in contact with the second contact rod 136, the special-shaped frame 137 pushes the second contact rod 136 to move forwards, the second contact rod 136 moves forwards to drive the inserting plate 135 to move forwards so as not to clamp the inserting rod 131 any more, at this time, under the action of the reset of the ninth spring 139, the fifth sliding frame 129 drives the second rack 130 to move rightwards to reset, the second rack 130 moves rightwards to drive the second gear 138 to rotate, the second gear 138 rotates to drive the first rotating shaft 42 to rotate, and further drive the cleaning cotton 44 to rotate to clean the test tube, after cleaning, the contact plate 119 moves upwards to reset and drive the first contact rod 128 to move upwards, when the first contact rod 128 moves upwards to be in contact with the wedge block 127, the wedge block 127 is pushed by the first contact rod 128 to move forwards, the fourth sliding frame 124 is driven by the wedge block 127 to slide forwards through the fourth connecting frame 126, the seventh spring 125 is compressed, the fourth sliding frame 124 slides forwards, the second rack 130 is driven by the fifth sliding frame 129 to move forwards to reset and separate from the second gear 138, and therefore the cleaning cotton 44 can be enabled to rotate to clean a test tube.

The foregoing description is only illustrative of the present invention and is not intended to limit the scope of the invention, and all equivalent structures or equivalent processes or direct or indirect application in other related arts are included in the scope of the present invention.

Claims (1)

1. High-efficient dry cleaning device of test tube for blood internal medicine, its characterized in that includes: a support (1); the placement component (2) is arranged on the support frame (1) and is placed in a sliding mode; the lifting assembly (3) is arranged on the support frame (1) and lifts in a sliding manner; the cleaning component (4) is arranged on the lifting component (3) and cleans in a rotating mode; the placement component (2) comprises: the two first guide frames (21) are arranged on the support frame (1); the first sliding frames (22) are two, and are arranged on the first guide frame (21) in a sliding manner; a mounting plate (23) mounted between the two first carriages (22); a placement frame (24) mounted on the mounting plate (23); a pallet (25) mounted on the placement frame (24); the two first springs (26) are arranged between the first guide frame (21) and the first sliding frame (22); the lifting component (3) comprises: the second guide frame (31) is arranged on the support frame (1); a mounting block (32) slidably mounted on the second guide frame (31); a second spring (33) mounted between the mounting block (32) and the second guide frame (31); the cleaning component (4) comprises: a fixing plate (41) mounted on the mounting block (32); the first rotating shafts (42) are at least two, and are rotatably arranged on the fixed plate (41); at least two handles (43), which are arranged on the first rotating shaft (42); at least two cleaning cotton (44) are arranged on the first rotating shaft (42); a flat belt assembly (46) mounted between the first shafts (42); the mounting frame (5) is mounted on the support frame (1); the air cylinder (6) is arranged on the mounting frame (5); a first connecting block (7) mounted on the cylinder (6); the first sliding rod (8) is arranged on the first connecting block (7); the second connecting block (9) is arranged on the first sliding rod (8) in a sliding mode, and the second connecting block (9) is connected with the mounting plate (23); the third spring (10) is arranged between the second connecting block (9) and the first sliding rod (8); a slider (11) slidably mounted on the second guide frame (31); a fourth spring (12) mounted between the slider (11) and the mounting block (32); a first connecting frame (13) mounted on the slider (11); the two first fixing frames (14) are arranged on the support frame (1); the two reels (15) are arranged on the first fixing frame (14); a second link (16) mounted on the first carriage (22); the stay wire (17) is arranged on the second connecting frame (16), and the tail end of the stay wire (17) bypasses the reel (15) and is connected with the first connecting frame (13); the second fixing frame (18) is arranged on the supporting frame (1); the second sliding frame (19) is slidably arranged on the second fixing frame (18); a fifth spring (110) mounted between the second carriage (19) and the second mount (18); the third sliding frame (111) is slidably arranged on the second sliding frame (19), and the third sliding frame (111) is slidably connected with the second connecting block (9); a link (112) mounted between the third carriage (111) and the first connection block (7); a first rack (113) mounted on the second carriage (19); a third fixing frame (114) which is installed on the support frame (1); a second rotating shaft (115) rotatably mounted on the third fixing frame (114); a first gear (116) mounted on the second rotating shaft (115), the first gear (116) being engaged with the first rack (113); a first special-shaped block (117) mounted on the second rotating shaft (115); a second slide bar (118) mounted on the mounting block (32); the contact plate (119) is slidably arranged on the second sliding rod (118), and the contact plate (119) is matched with the first special-shaped block (117); a sixth spring (120) mounted between the contact plate (119) and the second slide bar (118); a third connecting frame (121) mounted on the first connecting frame (13); a second special-shaped block (122) mounted on the third connecting frame (121); the fourth fixing frame (123) is arranged on the supporting frame (1); a fourth carriage (124) slidably mounted on the fourth mount (123); a seventh spring (125) installed between the fourth carriage (124) and the fourth fixing frame (123), the seventh spring (125) being in a compressed state; a fourth link (126) mounted on the fourth carriage (124); a wedge block (127) mounted on the fourth link (126); a first contact bar (128) mounted on the contact plate (119), the first contact bar (128) cooperating with the wedge block (127); a fifth carriage (129) slidably mounted on the fourth carriage (124); a second rack (130) mounted on a fifth carriage (129); the inserted link (131) is arranged on the second rack (130); a fifth fixing frame (132) which is arranged on the supporting frame (1); the connecting rod (133) is slidably arranged on the fifth fixing frame (132); an eighth spring (134) installed between the connection rod (133) and the fifth fixing frame (132); the inserting plate (135) is arranged on the connecting rod (133), and the inserting plate (135) is matched with the inserting rod (131); a second contact lever (136) mounted on the insert plate (135); the special-shaped frame (137) is arranged on the fixed plate (41), and the special-shaped frame (137) is matched with the second contact rod (136); a second gear (138) mounted on the first shaft (42), the second gear (138) being engaged with the second rack (130); and a ninth spring (139) mounted between the fifth carriage (129) and the fourth carriage (124).

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