CN214553018U - Clinical laboratory's test tube vibration device of hospital - Google Patents

Abstract

The utility model discloses a clinical laboratory of hospital test tube oscillation device, including unable adjustment base, unable adjustment base's top welded mounting has the support frame, and the quantity of support frame is two sets of and is the parallel corresponding setting, and a lateral wall slidable mounting of support frame has the movable rod. Through the difference in height and the through-hole of the formation of last horizontal pole and sheer pole and inlay the groove, through two point fixing, strengthen the stationarity of test tube when rocking, and through the setting of a plurality of through-holes, can handle the test tube in batches, work efficiency has been increased, cooperate the sealed test tube mouth of pipe of protective cover board and sealed cushion simultaneously, the solution of having avoided in the test tube spills over, increase the practicality of device, through horizontal reset spring and vertical reset spring buffering vibration power, avoid the damage of test tube, improve test tube life, the while is through the setting of dead lever and fixed fixture block, improve the steadiness of device, avoid vibrations to bring wearing and tearing for the device, the practicality of device has been improved.

Description

Clinical laboratory's test tube vibration device of hospital

Technical Field

The utility model relates to a vibrations technical field especially relates to a clinical laboratory of hospital test tube vibrates device.

Background

Clinical laboratories (clinical laboratories) are a bridge between clinical medicine and basic medicine, including clinical chemistry, clinical microbiology, clinical immunology, hematology, humoral science, and transfusion science, and in the course of clinical laboratory work, test tubes are an essential basic operation tool, and when analyzing blood or other materials, it is often necessary to shake the test tubes to allow the solution in the test tubes to have sufficient physical or chemical reaction.

In the prior art, the oscillation of a single test tube is manually shaken, and a large quantity of test tubes are required to oscillate, so that the manual shaking method obviously causes the working efficiency to be low, influences the operation speed and is not beneficial to the analysis of the solution; in addition, some test tube vibrating device in batches fastening effect is not good, and at the in-process of high-speed oscillation, the reagent in the test tube spills easily, still can lead to the test tube not hard up even, breaks away from vibrating device's risk, and the practicality is not strong.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a clinical laboratory of hospital test tube vibrates device has solved the problem that above-mentioned background art provided.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a test tube oscillation device for hospital clinical laboratory comprises a fixed base, wherein support frames are welded and installed at the top of the fixed base, the support frames are arranged in two groups and are arranged in parallel and corresponding mode, movable rods are slidably installed on one side wall of each support frame, the movable rods are arranged in four groups and are arranged in a rectangular array, the free ends of the movable rods transversely penetrate through the support frames and extend to the outside to be welded and installed with movable blocks, transverse reset springs are sleeved on the movable rods and are arranged in a sliding connection mode, the movable blocks are arranged in a hollow concave structure, hydraulic rod assemblies are welded and installed at the tops of the inner parts of the movable blocks, the hydraulic rod assemblies are arranged in two groups and are arranged in corresponding mode, the same hydraulic rod assemblies are welded and installed at the bottoms of the inner sides of the movable blocks, the hydraulic rod assemblies at the tops of the inner sides of the movable blocks and the hydraulic rod assemblies at the bottoms of the inner sides of the movable blocks are arranged in opposite mode, the inner part of the movable block is provided with a vibrating piece corresponding to the side wall in an attaching way, the vibrating piece and the hydraulic rod component are arranged in a welding way, the hydraulic rod component is sleeved with a longitudinal reset spring which is respectively arranged in a welding way with the movable block and the vibrating piece, the top of the vibrating piece is provided with a groove, a vibrating motor is arranged in the groove and is arranged in a welding way with the groove, the top of the vibrating piece is welded with a central bearing rod, the outer side wall of the central bearing rod is sleeved with a lower cross rod, the lower cross rod and the central bearing rod are arranged in a welding way, the lower cross rod is provided with embedding grooves which are evenly distributed on the lower cross rod, the top of the lower cross rod is welded with a bracket, the number of the brackets is eight, the brackets are arranged in a rectangular array, the free end of the bracket is welded with an upper cross rod, the upper cross rod is provided with through holes, the through holes are evenly distributed on the upper cross rod, and the embedding grooves are arranged corresponding to the through holes, go up the articulated protective cover board of installing in top of horizontal pole, the test tube groove has been seted up to protective cover board's bottom, and the inboard top welded mounting in test tube groove has sealed cushion, and the through-hole embeds there is the test tube, and the test tube is connected the setting for the laminating with the groove with inlaying with the through-hole respectively.

Preferably, a fixed clamping block is welded on one side wall of the movable rod, and the number of the fixed clamping blocks is consistent with that of the movable rod.

Preferably, the bottom of the central bearing rod is welded with two groups of fixing rods, and the fixing rods are correspondingly arranged.

Preferably, the fixing base is provided with a bolt hole.

Preferably, the transverse return spring is positioned between the support frame and the movable block, and the corresponding side wall of the transverse return spring is respectively connected with the support frame and the movable block in a welding manner.

Preferably, the length of the upper cross rod is the same as that of the lower cross rod, and the upper cross rod and the lower cross rod are correspondingly arranged.

Preferably, the number of the test tube grooves is consistent with that of the through holes, and the test tube grooves and the through holes are correspondingly arranged.

Preferably, the diameter of test tube matches with the diameter of through-hole, and the opening diameter of test tube slightly is less than the diameter of sealed cushion, and the height of test tube is greater than the distance of upper horizontal pole and sheer pole, and the height phase-match of test tube and protective cover board.

Compared with the prior art, the beneficial effects of the utility model are that: this clinical laboratory of hospital test tube vibrating device, through the difference in height and the through-hole of the formation of last horizontal pole and sheer pole and inlay the groove, through two point fixing, strengthen the stationarity of test tube when rocking, and through the setting of a plurality of through-holes, can handle the test tube in batches, work efficiency has been increased, cooperate the sealed test tube mouth of pipe of protective cover board and sealed cushion simultaneously, the solution of having avoided in the test tube spills over, the practicality of increase device, through horizontal reset spring and vertical reset spring buffering vibration power, avoid the damage of test tube, improve test tube life, the setting through dead lever and fixed fixture block simultaneously, the steadiness of improvement device, avoid vibrations to bring wearing and tearing for the device, the practicality of device has been improved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the through hole position relationship of the present invention;

fig. 3 is an enlarged schematic view of part a of the present invention.

In the figure: the test tube comprises a fixed base 1, a support frame 2, a movable block 3, a vibrating piece 4, a fixed clamping block 5, a movable rod 6, a transverse return spring 7, a longitudinal return spring 8, a hydraulic rod assembly 9, a fixed rod 10, a central bearing rod 11, a groove 12, a vibrating motor 13, an upper cross rod 14, a lower cross rod 15, a support 16, a protective cover plate 17, a sealing rubber pad 18, a test tube groove 19, a test tube 20, a through hole 21 and an embedding groove 22.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows: referring to fig. 1-3, comprising a fixed base 1, a bolt hole is provided on the fixed base 1, support frames 2 are welded on the top of the fixed base 1, the support frames 2 are arranged in parallel and corresponding to each other, a movable rod 6 is slidably mounted on one side wall of the support frame 2, the movable rods 6 are arranged in rectangular array, the free ends of the movable rods 6 transversely penetrate through the support frame 2 and extend to the outside to be welded with movable blocks 3, a transverse return spring 7 is sleeved on the movable rod 6, the transverse return spring 7 and the movable rod 6 are slidably connected, the transverse return spring 7 is positioned between the support frame 2 and the movable block 3, the corresponding side wall of the transverse return spring 7 is respectively welded with the support frame 2 and the movable block 3, the movable block 3 is arranged in a hollow concave structure, a hydraulic rod assembly 9 is welded on the top inside the movable block 3, the hydraulic rod assemblies 9 are arranged in two groups and are correspondingly arranged, the same hydraulic rod assemblies 9 are welded and installed at the bottom inside the movable block 3, the hydraulic rod assemblies 9 are arranged in two groups and are correspondingly arranged, the hydraulic rod assemblies 9 at the top inside the movable block 3 and the hydraulic rod assemblies 9 at the bottom inside the movable block 3 are oppositely arranged correspondingly, the vibrating piece 4 is arranged on the corresponding side wall inside the movable block 3 in a fit manner, the vibrating piece 4 and the hydraulic rod assemblies 9 are arranged in a welded manner, a longitudinal reset spring 8 is sleeved on the hydraulic rod assemblies 9, the longitudinal reset spring 8 is respectively arranged in a welded manner with the movable block 3 and the vibrating piece 4, a groove 12 is formed in the top of the vibrating piece 4, a vibrating motor 13 is arranged in the groove 12, the vibrating motor 13 and the groove 12 are arranged in a welded manner, a central bearing rod 11 is welded and installed at the top of the vibrating piece 4, and a lower transverse rod 15 is sleeved on the outer side wall of the central rod 11, the lower cross bar 15 and the central bearing bar 11 are welded and connected, the lower cross bar 15 is provided with embedding grooves 22, the embedding grooves 22 are uniformly distributed on the lower cross bar 15, the top of the lower cross bar 15 is welded and installed with supports 16, the number of the supports 16 is eight, the supports are arranged in a rectangular array, the free end of each support 16 is welded and installed with an upper cross bar 14, the upper cross bar 14 is provided with through holes 21, the through holes 21 are uniformly distributed on the upper cross bar 14, the length of the upper cross bar 14 is the same as that of the lower cross bar 15, the upper cross bar 14 and the lower cross bar 15 are correspondingly arranged, the embedding grooves 22 and the through holes 21 are correspondingly arranged, the top of the upper cross bar 14 is hinged and installed with a protective cover plate 17, the bottom of the protective cover plate 17 is provided with test tube grooves 19, the number of the test tube grooves 19 is the same as that of the through holes 21, the test tube grooves 19 and the through holes 21 are correspondingly arranged, the top of the inner side of the test tube grooves 19 is welded and installed with a sealing rubber pad 18, through-hole 21 embeds there is test tube 20, and test tube 20 is connected the setting for the laminating with through-hole 21 and inlay groove 22 respectively, and test tube 20's diameter matches with through-hole 21's diameter, and test tube 20's opening diameter slightly is less than the diameter of sealed cushion 18, and test tube 20's height is greater than the distance of entablature 14 and sheer pole 15, and test tube 20's height and protective cover 17's height phase-match.

Example two: referring to fig. 1-3, the device comprises a fixed base 1, wherein the fixed base 1 is provided with bolt holes, the top of the fixed base 1 is welded with two sets of support frames 2, the support frames 2 are arranged in parallel and correspondingly, one side wall of the support frame 2 is slidably provided with movable rods 6, the movable rods 6 are arranged in a rectangular array, one side wall of each movable rod 6 is welded with a fixed fixture block 5, the number of the fixed fixture blocks 5 is equal to that of the movable rods 6, the free end of each movable rod 6 transversely penetrates through the support frame 2 and extends to the outside to be welded with a movable block 3, the movable rod 6 is sleeved with a transverse return spring 7, the transverse return spring 7 and the movable rod 6 are arranged in a sliding connection manner, the transverse return spring 7 is positioned between the support frame 2 and the movable block 3, and the corresponding side wall of the transverse return spring 7 is respectively welded with the support frame 2 and the movable block 3, the movable block 3 is arranged in a hollow concave structure, the hydraulic rod assemblies 9 are welded and installed at the top inside the movable block 3, the hydraulic rod assemblies 9 are arranged in two groups and are arranged correspondingly, the same hydraulic rod assemblies 9 are welded and installed at the bottom inside the movable block 3, the hydraulic rod assemblies 9 are arranged in two groups and are arranged correspondingly, the hydraulic rod assemblies 9 at the top inside the movable block 3 and the hydraulic rod assemblies 9 at the bottom inside the movable block 3 are arranged correspondingly in an opposite mode, the vibrating piece 4 is attached to the corresponding side wall inside the movable block 3, the vibrating piece 4 and the hydraulic rod assemblies 9 are arranged in a welding mode, a longitudinal reset spring 8 is sleeved on the hydraulic rod assemblies 9, the longitudinal reset spring 8 is respectively arranged in a welding mode with the movable block 3 and the vibrating piece 4, a groove 12 is formed in the top of the vibrating piece 4, a vibration motor 13 is arranged in the groove 12, and the vibration motor 13 and the groove 12 are arranged in a welding mode, the top of the vibration piece 4 is welded with a central bearing rod 11, the bottom of the central bearing rod 11 is welded with fixed rods 10, the number of the fixed rods 10 is two groups and is arranged correspondingly, the outer side wall of the central bearing rod 11 is sleeved with a lower cross rod 15, the lower cross rod 15 and the central bearing rod 11 are arranged in a welding connection mode, the lower cross rod 15 is provided with an embedding groove 22, the embedding grooves 22 are uniformly distributed on the lower cross rod 15, the top of the lower cross rod 15 is welded with a support 16, the number of the support 16 is eight groups and is arranged in a rectangular array mode, the free end of the support 16 is welded with an upper cross rod 14, the upper cross rod 14 is provided with a through hole 21, the through hole 21 is uniformly distributed on the upper cross rod 14, the length of the upper cross rod 14 is the same as that of the lower cross rod 15, the upper cross rod 14 is arranged correspondingly to the lower cross rod 15, the embedding groove 22 is arranged correspondingly to the through hole 21, the top of the upper cross rod 14 is hinged with a protective cover plate 17, test tube groove 19 has been seted up to protective cover 17's bottom, test tube groove 19's quantity is unanimous with through-hole 21's quantity, and test tube groove 19 sets up for corresponding with through-hole 21, test tube groove 19's inboard top welded mounting has sealed cushion 18, through-hole 21 embeds there is test tube 20, test tube 20 is connected the setting for the laminating with through-hole 21 and inlay groove 22 respectively, test tube 20's diameter matches with through-hole 21's diameter, and test tube 20's opening diameter slightly is less than the diameter of sealed cushion 18, test tube 20 highly is greater than the distance of upper horizontal pole 14 and sheer pole 15, and test tube 20's height and protective cover 17's high phase-match.

The working principle is as follows: when the device needs to use, place most test tube 20 in through-hole 21 and inlay groove 22, the difference in height of the formation of cooperation upper cross rod 14 and sheer pole 15, two fixed test tube 20's positions, cooperation hinge structure closes protective cover 17 this moment, through the sealed test tube mouth of sealed cushion 18, drive vibrating motor 13 this moment drives vibrations 4, the laminating setting through movable block 3 and vibrations 4 and the sliding connection setting of movable rod 6 and support frame 2, cooperate horizontal reset spring 7 and vertical reset spring 8, buffering vibrating force.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a hospital clinical laboratory test tube oscillation device, including unable adjustment base (1), a serial communication port, unable adjustment base (1)'s top welded mounting has support frame (2), the quantity of support frame (2) is two sets of and be parallel corresponding arrangement, a lateral wall slidable mounting of support frame (2) has movable rod (6), the quantity of movable rod (6) is four groups and be the rectangle permutation and arrange, the free end of movable rod (6) transversely runs through support frame (2) and extends to outside welded mounting has movable block (3), the cover is equipped with horizontal reset spring (7) on movable rod (6), horizontal reset spring (7) and movable rod (6) are sliding connection setting, movable block (3) are hollow concave structure setting, hydraulic stem subassembly (9) are installed in the top welded mounting of movable block (3) inside, the quantity of hydraulic stem subassembly (9) is two sets of and is corresponding setting, the bottom of the inner part of the movable block (3) is welded with the same hydraulic rod assemblies (9), the number of the hydraulic rod assemblies (9) is two, the hydraulic rod assemblies (9) are arranged correspondingly, the hydraulic rod assemblies (9) at the top of the inner side of the movable block (3) and the hydraulic rod assemblies (9) at the bottom of the inner side of the movable block (3) are arranged correspondingly in an opposite mode, the inner corresponding side wall of the movable block (3) is provided with a vibration piece (4) in an attaching mode, the vibration piece (4) and the hydraulic rod assemblies (9) are arranged in a welding mode, the hydraulic rod assemblies (9) are sleeved with longitudinal reset springs (8), the longitudinal reset springs (8) are respectively arranged in a welding mode with the movable block (3) and the vibration piece (4), the top of the vibration piece (4) is provided with a groove (12), a vibration motor (13) is arranged in the groove (12), the vibration motor (13) and the groove (12) are arranged in a welding mode, the top of the vibration piece (4) is welded with a central rod (11), the outer side wall of the central bearing rod (11) is sleeved with a lower cross rod (15), the lower cross rod (15) and the central bearing rod (11) are arranged in a welding mode, embedding grooves (22) are formed in the lower cross rod (15), the embedding grooves (22) are uniformly distributed in the lower cross rod (15), supports (16) are welded and installed at the top of the lower cross rod (15), the supports (16) are eight groups and are arranged in a rectangular array mode, upper cross rods (14) are welded and installed at the free ends of the supports (16), the upper cross rods (14) are provided with same through holes (21), the through holes (21) are uniformly distributed in the upper cross rods (14), the embedding grooves (22) and the through holes (21) are correspondingly arranged, a protective cover plate (17) is hinged to the top of the upper cross rods (14), a test tube groove (19) is formed in the bottom of the protective cover plate (17), and a sealing rubber gasket (18) is welded and installed at the top of the inner side of the test tube groove (19), the through hole (21) is internally provided with a test tube (20), and the test tube (20) is respectively connected with the through hole (21) and the embedding groove (22) in a laminating way.

2. The test tube shaking device for the clinical laboratory of hospital according to claim 1, wherein a side wall of the movable rod (6) is welded with fixed blocks (5), and the number of the fixed blocks (5) is the same as the number of the movable rod (6).

3. The test tube shaking device for the clinical laboratory of hospital as claimed in claim 1, wherein the bottom of the central bearing rod (11) is welded with two groups of fixing rods (10), and the number of the fixing rods (10) is two and the fixing rods are arranged correspondingly.

4. The hospital clinical laboratory test tube shaking device according to claim 1, characterized in that the fixing base (1) is provided with bolt holes.

5. The test tube vibrating device for the clinical laboratory of hospital according to claim 1, wherein the horizontal return spring (7) is located in the middle of the support frame (2) and the movable block (3), and the corresponding side wall of the horizontal return spring (7) is welded to the support frame (2) and the movable block (3) respectively.

6. The test tube shaking device for the clinical laboratory in hospital according to claim 1, wherein the upper cross bar (14) and the lower cross bar (15) have the same length, and the upper cross bar (14) and the lower cross bar (15) are correspondingly arranged.

7. The test tube shaking device for the clinical laboratory of hospital as claimed in claim 1, wherein the number of the test tube slots (19) is the same as the number of the through holes (21), and the test tube slots (19) and the through holes (21) are correspondingly arranged.

8. The hospital clinical laboratory test tube shaking device according to claim 1, wherein the diameter of the test tube (20) matches the diameter of the through hole (21), the opening diameter of the test tube (20) is slightly smaller than the diameter of the sealing rubber pad (18), the height of the test tube (20) is larger than the distance between the upper cross bar (14) and the lower cross bar (15), and the height of the test tube (20) matches the height of the protective cover plate (17).

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