CN217699277U - Clinical laboratory uses test-tube rack - Google Patents

Abstract

The utility model discloses a clinical laboratory uses the test-tube rack, T style of calligraphy mount pad handstand sets up, and two pairs of spacing sleeve groups are installed to the riser side of T style of calligraphy mount pad, and two pairs of spacing sleeve groups set gradually from top to bottom, and each pair of spacing sleeve groups all includes two spacing sleeves; vertical sliding grooves are formed in the limiting sleeve and penetrate through the upper end of the limiting sleeve, a sliding connecting rod is connected in each vertical sliding groove in a sliding mode, and the sliding connecting rods can rotate to be in a horizontal arrangement state on the upper portion of each vertical sliding groove; two sliding connection pole upper ends that correspond rotate and are connected with two at least test tube mounting panels. The utility model discloses during the use, can expand the test tube mounting panel, and then make and be provided with two test tube mounting panels on the horizontal plane at least, consequently can install more test tubes, also can guarantee the stability of test tube at any time, effectively solved the problem that hospital clinical laboratory for test-tube rack occupation space on the existing market is big.

Description

Clinical laboratory uses test-tube rack

Technical Field

The utility model belongs to the technical field of medical instrument, concretely relates to clinical laboratory uses test-tube rack.

Background

The test tube is the storage household utensils that hospital clinical laboratory used often, to most of samples of clinical laboratory, the test tube need not the level place, only need guarantee the leakproofness of test tube can, horizontal area is little on the general desktop, and perpendicular space is then very big, consequently, urgently need one kind can fold the hospital clinical laboratory that accomodate, occupation of land space is little and use the test-tube rack.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a clinical laboratory uses test-tube rack for solve the above-mentioned problem that exists among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a test tube rack for a clinical laboratory comprises a T-shaped mounting seat, a limiting sleeve, a sliding connecting rod and a test tube mounting plate, wherein the T-shaped mounting seat is arranged in an inverted manner; two pairs of limiting sleeve groups are arranged on the side face of a vertical plate of the T-shaped mounting seat in sequence from top to bottom, and each pair of limiting sleeve groups comprises two limiting sleeves and is respectively arranged at two ends of the vertical plate of the T-shaped mounting seat; the limiting sleeve is internally provided with a vertical sliding chute, the vertical sliding chute penetrates through the upper end of the limiting sleeve, a sliding connecting rod is connected in each vertical sliding chute in a sliding mode, and the sliding connecting rods can rotate to be in a horizontal arrangement state on the upper portion of the vertical sliding chutes; two sliding connection pole upper ends that correspond rotate and are connected with two at least test tube mounting panels, and two arbitrary adjacent test tube mounting panels are equal to be separated and set up, and are provided with a plurality of test tube mounting holes on every test tube mounting panel.

As the utility model discloses in an optimal technical scheme, one side that the riser of T style of calligraphy mount pad was kept away from to spacing sleeve is provided with the mouth of dodging of the vertical spout of intercommunication, and sliding connection pole rotates when setting up the state to the level, and sliding connection pole's middle part joint is in dodging the mouth.

As an in the utility model discloses in an preferred technical scheme, two spacing sleeves keep away from one side each other and all are provided with vertical rectangular hole, and sliding connection rod's lower extreme is connected with the gag lever post perpendicularly, and gag lever post movable mounting is downthehole in vertical rectangular.

As a preferred technical scheme of the utility model, the gag lever post is screw rod structure, and screw rod structure is handle portion, round rod portion and screw rod portion from one end to the other end in proper order, and the diameter of handle portion, round rod portion and screw rod portion reduces in proper order, and round rod portion passes vertical rectangular hole, screw rod portion threaded connection in sliding connection pole's lower extreme.

As an in the utility model discloses in an preferred technical scheme, install first bearing on the pole portion, first bearing movable mounting is downthehole in vertical rectangular strip.

As an in the utility model discloses in an preferred technical scheme, the both ends of test tube mounting panel all are provided with the rotation axis, and two rotation axes pivot respectively are connected on two sliding connection pole.

As an in the utility model discloses in an preferred technical scheme, all install two at least second bearings on two sliding connection pole, the outer lane of every second bearing all is connected with sliding connection pole, and the inner circle of every second bearing all is connected with the rotation axis.

As an in the utility model discloses in an preferred technical scheme, two spacing sleeves all are provided with the rotation axis mounting groove near one side each other.

As an in the utility model discloses in an preferred technical scheme, a pair of spacing sleeve group that is located the top in two pairs of spacing sleeve groups all is provided with T type slider for upper limit sleeve group on two spacing sleeves of upper limit sleeve group, the riser side of T style of calligraphy mount pad is provided with T type spout, the slip that T type slider matches is in T type spout.

As an in the utility model discloses in an preferred technical scheme, the riser both sides of T style of calligraphy mount pad all are provided with two pairs of stop collar groups.

Has the advantages that: the utility model discloses when not using, the sliding connection pole is that the matching sets up in limit sleeve's vertical spout, all test tube mounting panel from the top down parallel arrangement in proper order this moment, can not occupy too many area, when this clinical laboratory uses the test-tube rack as needs use, can follow the interior roll-off of vertical spout with the sliding connection pole, then rotate to the horizontality, make all test tube mounting panels all expand, and then make and be provided with two test tube mounting panels on a horizontal plane at least, consequently, can install more test tubes, and because the test tube mounting panel rotates to be connected on the sliding connection pole, consequently, also can guarantee the stability of test tube at any time, the problem that hospital clinical laboratory on the existing market uses the test-tube rack occupation space big has effectively been solved.

Drawings

Fig. 1 is a side view of the present invention;

fig. 2 is a top view of the present invention.

In the figure: 1-T-shaped mounting seats; 2-a limit sleeve; 201-vertical elongated holes; 202-a rotating shaft mounting groove; 3-a sliding connecting rod; 301-a stop lever; 4-test tube mounting plate; 5-a second bearing; 6-test tube.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the accompanying drawings is only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without any inventive work. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto.

Example (b):

as shown in fig. 1 and 2, the present embodiment provides a clinical laboratory test tube rack, including a T-shaped mounting base 1, a limiting sleeve 2, a sliding connecting rod 3 and a test tube mounting plate 4, where the test tube mounting plate 4 is used for mounting a test tube 6,T-shaped mounting base 1 in an inverted arrangement, and a horizontal plate of the T-shaped mounting base 1 can be placed on the ground or a table top, etc., so as to ensure the stability of the T-shaped mounting base 1; two pairs of limiting sleeve groups are arranged on the side face of the vertical plate of the T-shaped mounting seat 1, the two pairs of limiting sleeve groups are sequentially arranged from top to bottom, the two pairs of limiting sleeve groups are arranged at intervals from top to bottom, the mounting space of the test tube 6 is fully reserved, each pair of limiting sleeve groups comprise two limiting sleeves 2 and are respectively arranged at two ends of the vertical plate of the T-shaped mounting seat 1, the stability of the two limiting sleeves 2 is guaranteed, and it needs to be explained here that the appearance of each limiting sleeve 2 is preferably of a rectangular structure, and the T-shaped mounting seat is more convenient to be installed in a matched mode with other components.

On the basis of the structure, the limiting sleeve 2 is internally provided with vertical sliding grooves, the vertical sliding grooves penetrate through the upper end of the limiting sleeve 2, each vertical sliding groove is internally connected with a sliding connecting rod 3 in a sliding manner, under normal conditions, the sliding connecting rods 3 can be vertically arranged in the vertical sliding grooves, the sliding connecting rods 3 can slide up and down along the vertical sliding grooves, the sliding connecting rods 3 can rotate to a horizontal arrangement state on the upper parts of the vertical sliding grooves, for example, the lower ends of the sliding connecting rods 3 are of arc-shaped structures, and when the lower ends of the sliding connecting rods 3 slide to the upper parts of the vertical sliding grooves, the sliding connecting rods 3 can be rotated until the sliding connecting rods 3 are rotated to the horizontal arrangement state; two sliding connection 3 upper ends that correspond rotate and are connected with two at least test tube mounting panels 4, when sliding connection 3 rotates gradually to the level and sets up the state, test tube mounting panel 4 will slow to the direction removal of keeping away from the riser of T style of calligraphy mount pad 1 slowly, simultaneously because test tube mounting panel 4 rotates to be connected on two sliding connection 3, test tube mounting panel 4's state also only changes according to its self gravity, arbitrary two adjacent test tube mounting panel 4 equal interval sets up, then can avoid two test tube mounting panel 4 collision each other after launching, and be provided with a plurality of test tube mounting holes on every test tube mounting panel 4, when installing test tube 6 in the test tube mounting hole, just can guarantee that test tube 6 is in vertical state always, and then guaranteed test tube 6's stability.

The utility model discloses when not using, sliding connection rod 3 is that the matching sets up in the vertical spout of stop sleeve 2, all test tube mounting panel 4 from the top down parallel arrangement in proper order this moment, can not occupy too much area, when need use this clinical laboratory to use the test-tube rack, can follow the interior roll-off of vertical spout with sliding connection rod 3, then rotate to the horizontality, make all test tube mounting panel 4 all expand, and then make and be provided with two test tube mounting panel 4 on a horizontal plane at least, consequently, can install more test tubes 6, and because test tube mounting panel 4 rotates to be connected on sliding connection rod 3, consequently, also can guarantee test tube 6's stability at any time, the problem that hospital clinical laboratory on the existing market is with the test-tube rack occupation space big has effectively been solved.

As a preferred embodiment in this embodiment, it should be further explained that, one side of the vertical plate of the T-shaped mounting seat 1 far away from the limiting sleeve 2 is provided with an avoiding opening of the communicating vertical chute, when the sliding connection rod 3 rotates to the horizontal setting state, the middle part of the sliding connection rod 3 is clamped in the avoiding opening, and then the stability of the sliding connection rod 3 can be ensured, it should be explained that the inner bottom surface of the avoiding opening is a horizontal plane, so that the sliding connection rod 3 can be ensured to abut against the inner bottom surface of the avoiding opening, and the sliding connection rod 3 is kept in a horizontal state.

As a preferred embodiment in this embodiment, it needs to be further described that one side of each far away from each other of the two limiting sleeves 2 is provided with a vertical long hole 201, the lower end of the sliding connecting rod 3 is perpendicularly connected with a limiting rod 301, the limiting rod 301 is movably mounted in the vertical long hole 201, the limiting rod 301 can ensure that the sliding connecting rod 3 can stably slide in a vertical sliding slot of the limiting sleeve 2, and meanwhile, when the sliding connecting rod 3 rotates to a horizontal state, the stability of the sliding connecting rod 3 can also be ensured by utilizing the limitation of the limiting rod 301 in the vertical long hole 201.

As a preferred embodiment in this embodiment, it needs to be further explained that the limiting rod 301 is a screw rod structure, the screw rod structure is a handle portion, a round rod portion and a screw rod portion in sequence from one end to the other end, the diameters of the handle portion, the round rod portion and the screw rod portion are reduced in sequence, that is, the diameter of the handle portion is greater than the diameter of the round rod portion, the diameter of the round rod portion is greater than the diameter of the screw rod portion, the round rod portion passes through the vertical strip hole 201, when the sliding connection rod 3 is vertically arranged, the screw rod portion is in threaded connection with the lower end of the sliding connection rod 3, not only can the movable connection relationship between the limiting rod 301 and the vertical strip hole 201 be ensured, but also the detachable connection relationship of the limiting rod 301 can be ensured, so that the overall assembly and disassembly are more convenient, and the later maintenance is also convenient.

As a preferred embodiment in this embodiment, it should be further described that the first bearing is mounted on the circular rod, and the first bearing is movably mounted in the vertical elongated hole 201, so that the circular rod is more flexible in the vertical elongated hole 201, and further the sliding and rotating of the sliding connecting rod 3 are more flexible.

As a preferred embodiment in this embodiment, it should be further described that rotation shafts are respectively disposed at two ends of the test tube mounting plate 4, and the two rotation shafts are respectively rotatably connected to the two sliding connecting rods 3, so as to ensure a stable rotation structure of the sliding connecting rods 3.

As a preferred embodiment in this embodiment, it should be further described that at least two second bearings 5 are installed on two sliding connecting rods 3, an outer ring of each second bearing 5 is connected to the sliding connecting rod 3, and an inner ring of each second bearing 5 is connected to the rotating shaft, so that the sliding connecting rod 3 has better flexibility, and further the sliding connecting rod 3 can be kept in a horizontal state more easily, and damage to the structure due to inaccurate structural design and friction can be avoided.

As a preferred embodiment in this embodiment, it should be further explained that the rotating shaft installation grooves 202 are arranged on both sides of the two limiting sleeves 2 close to each other. When this clinical laboratory did not expand with the test-tube rack, all rotation axes all set up in rotation axis mounting groove 202, and then make accomodating that test tube mounting panel 4 can be stable.

As a preferred embodiment in this embodiment, it should be further explained that, one of the two pairs of limiting sleeve groups located above is an upper limiting sleeve group, two limiting sleeves 2 of the upper limiting sleeve group are both provided with a T-shaped slider, a T-shaped chute is provided on a side surface of a vertical plate of the T-shaped mounting base 1, the T-shaped slider is matched with the T-shaped chute and slides in the T-shaped chute, so that the mounting and dismounting are facilitated, and then whether to mount the one of the two pairs of limiting sleeve groups located above can be selected according to actual conditions, so as to improve flexibility.

As a preferred embodiment in this embodiment, it should be further described that two pairs of limiting sleeve groups are respectively disposed on two sides of a vertical plate of the T-shaped mounting base 1, so that the test tube rack for the clinical laboratory can mount more test tubes 6.

Finally, it should be noted that: the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A test tube rack for a clinical laboratory is characterized by comprising a T-shaped mounting seat (1), a limiting sleeve (2), a sliding connecting rod (3) and a test tube mounting plate (4), wherein the T-shaped mounting seat (1) is arranged in an inverted manner; two pairs of limiting sleeve groups are arranged on the side face of a vertical plate of the T-shaped mounting seat (1) in sequence from top to bottom, and each pair of limiting sleeve groups comprises two limiting sleeves (2) and are respectively arranged at two ends of the vertical plate of the T-shaped mounting seat (1); vertical sliding grooves are formed in the limiting sleeve (2) and penetrate through the upper end of the limiting sleeve (2), a sliding connecting rod (3) is connected in each vertical sliding groove in a sliding mode, and the sliding connecting rods (3) can rotate to be in a horizontal arrangement state on the upper portion of the vertical sliding grooves; two sliding connection pole (3) upper ends that correspond rotate and are connected with two at least test tube mounting panels (4), and two arbitrary adjacent test tube mounting panels (4) are equal to be separated and set up, and are provided with a plurality of test tube mounting holes on every test tube mounting panel (4).

2. The test tube rack for the clinical laboratory according to claim 1, characterized in that one side of the vertical plate of the limiting sleeve (2) far away from the T-shaped mounting base (1) is provided with an avoiding opening communicated with the vertical chute, and when the sliding connecting rod (3) rotates to a horizontal arrangement state, the middle part of the sliding connecting rod (3) is clamped in the avoiding opening.

3. The clinical laboratory test tube rack according to claim 1, wherein one side of each of the two limiting sleeves (2) away from each other is provided with a vertical elongated hole (201), the lower end of the sliding connecting rod (3) is vertically connected with a limiting rod (301), and the limiting rod (301) is movably mounted in the vertical elongated hole (201).

4. The clinical laboratory uses test-tube rack according to claim 3, characterized in that, gag lever post (301) is the screw rod structure, and the screw rod structure is handle portion, round rod portion and screw rod portion from one end to the other end in proper order, and the diameter of handle portion, round rod portion and screw rod portion reduces in proper order, and round rod portion passes vertical rectangular hole (201), screw rod portion threaded connection is in the lower extreme of sliding connection pole (3).

5. The clinical laboratory test tube rack according to claim 4, wherein the round rod part is provided with a first bearing, and the first bearing is movably arranged in the vertical elongated hole (201).

6. The clinical laboratory test tube rack according to claim 1, wherein the test tube mounting plate (4) is provided with two rotating shafts at both ends, and the two rotating shafts are respectively connected to the two sliding connecting rods (3).

7. The clinical laboratory test tube rack according to claim 6, wherein at least two second bearings (5) are mounted on each of the two sliding connecting rods (3), the outer ring of each second bearing (5) is connected with the sliding connecting rod (3), and the inner ring of each second bearing (5) is connected with the rotating shaft.

8. The clinical laboratory test-tube rack according to claim 6, characterized in that the rotation axis mounting groove (202) is provided on the side of each of two limiting sleeves (2) close to each other.

9. The test tube rack for the clinical laboratory according to claim 1, wherein the upper one of the two pairs of limiting sleeve groups is an upper limiting sleeve group, the two limiting sleeves (2) of the upper limiting sleeve group are both provided with T-shaped sliding blocks, the side surface of the vertical plate of the T-shaped mounting seat (1) is provided with a T-shaped sliding groove, and the T-shaped sliding blocks are matched and slide in the T-shaped sliding grooves.

10. The clinical laboratory test tube rack according to any one of claims 1 to 9, wherein two pairs of limiting sleeve sets are arranged on two sides of a vertical plate of the T-shaped mounting base (1).

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