CN204891937U - Medical test -tube rack - Google Patents

Abstract

The utility model discloses a medical test -tube rack, it includes: support, bottom plate and at least one test tube hole frame, wherein, test tube hole frame includes: erect around the crossbeam, two these crossbeams parallelly in on the support, the rotor, this rotor equidistance ground of a plurality of with can the pivoted mode erect in between two crossbeams, every this rotor is provided with four orifice plates along circumference uniformly, wherein two relative the concave half first hole of a plurality of that is equipped with in equidistance ground respectively on the orifice plate, other two relative concave half hole of a plurality of second that is provided with in equidistance ground respectively on the orifice plate, the diameter in half first hole is greater than the diameter in half hole of second, and rotating device, it is used for the drive a plurality of rotor rotates. The utility model discloses a rotation rotor changes the position of orifice plate to form the test tube hole in different apertures and deposit the not test tube of equidimension, with the suitability that improves the test -tube rack.

Description

Medical test-tube rack

Technical field

The utility model relates to medical tool field, particularly a kind of Medical test-tube rack.

Background technology

Test tube is the important medical tool needing in hospital to use in a large number, test tube generally needs to be positioned in rack for test tube to facilitate mobile or transport, traditional rack for test tube is generally provided with base plate and two test tube aperture frame, two test tube aperture frame abreast frame are arranged on the top of base plate, each test tube aperture frame is gone into battle and is shown test tube hole, and test tube hole corresponding in two test tube aperture frame is located along the same line, after test tube places, the lower end of test tube is by backplanes support, and test tube wall is helped by test tube hole corresponding in two test tube aperture frame, topples over to prevent test tube.

The size in the test tube hole that existing rack for test tube is arranged in test tube aperture frame is fixing, rack for test tube is only applicable to the test tube that placement diameter is less than its test tube hole, and when the diameter of the test tube deposited in rack for test tube is significantly less than the diameter in test tube hole, in movement or transportation, test tube can produce larger rocking, and test tube easily drops or is damaged by collision.Therefore, existing rack for test tube can not be used for depositing the test tube that diameter is greater than test tube hole, nor can be used for depositing the test tube that diameter is significantly less than test tube hole, and its applicability is not high, makes troubles easily to hospital's routine work.

The information being disclosed in this background technology part is only intended to increase the understanding to general background of the present utility model, and should not be regarded as admitting or imply in any form that this information structure has been prior art that persons skilled in the art are known.

Utility model content

The purpose of this utility model is to provide a kind of Medical test-tube rack, thus overcome existing rack for test tube because of the size in test tube hole be fixing and cause the shortcoming that applicability is not high.

For achieving the above object, the utility model provides a kind of Medical test-tube rack, and it comprises: support; Base plate, it is arranged at the bottom of described support; And test tube aperture frame, at least one this test tube aperture frame is arranged on described support; Wherein, described test tube aperture frame comprises: crossbeam, is set up in abreast on described support before and after two these crossbeams; Rotor, several these rotors are equidistantly rotatably set up between described two crossbeams; This rotor each is circumferentially provided with four orifice plates equably, wherein two relative described orifice plates is equidistantly arranged with several first half bore respectively, equidistantly recessedly respectively on two other relative described orifice plate is equipped with several the second half bore; The diameter of described first half bore is greater than the diameter of described second half bore; And tumbler, it rotates for driving several rotors described.

Preferably, in technique scheme, described tumbler comprises several and is respectively used to drive several rotors described to carry out the rotating mechanism rotated, and this rotating mechanism comprises: rotating shaft, and its one end is fixedly connected with one end of described rotor; Connecting rod, its one end is fixedly connected with the other end of described rotating shaft, and this connecting rod is perpendicular to described rotating shaft; Latch, is convexly equipped with a boss in the middle part of it, the other end of described connecting rod is passed in one end activity of this latch; The described crossbeam of the side corresponding with one end that rotating shaft is connected with described rotor is provided with first pin-and-hole corresponding with the other end of this latch; Spring, it to be sheathed on described latch and to be located between described boss and described connecting rod; Handle, itself and described latch are through being connected in one end of described connecting rod; And location-plate, it is fixed on the described crossbeam of the side corresponding with one end that described rotating shaft is connected with described rotor; The bottom of this location-plate is provided with second pin-and-hole corresponding with the other end of described latch, and described second pin-and-hole and the angle of described first pin-and-hole centered by the axis of described rotating shaft are 90 °.

Preferably, in technique scheme, several rotors described in described test tube aperture frame are divided into several rotor set, and each described rotor set comprises at least two adjacent described rotors; One end of all rotors in each described rotor set is linked together by gears meshing, and one of them rotor in each described rotor set is power rotor; Described tumbler comprises several and is respectively used to drive the power rotor of several rotor set described to carry out the rotating mechanism rotated.

Preferably, in technique scheme, described rotating mechanism comprises: rotating shaft, and its one end is fixedly connected with one end of described power rotor; Connecting rod, its one end is fixedly connected with the other end of described rotating shaft, and this connecting rod is perpendicular to described rotating shaft; Latch, is convexly equipped with a boss in the middle part of it, the other end of described connecting rod is passed in one end activity of this latch; The described crossbeam of the side corresponding with one end that rotating shaft is connected with described power rotor is provided with first pin-and-hole corresponding with the other end of this latch; Spring, it to be sheathed on described latch and to be located between described boss and described connecting rod; Handle, itself and described latch are through being connected in one end of described connecting rod; And location-plate, it is fixed on the described crossbeam of the side corresponding with one end that described rotating shaft is connected with described power rotor; The bottom of this location-plate is provided with second pin-and-hole corresponding with the other end of described latch, and described second pin-and-hole and the angle of described first pin-and-hole centered by the axis of described rotating shaft are 90 °.

Preferably, in technique scheme, the first half bore of the rotor in each described rotor set and the size of the second half bore not identical with the size of the first half bore in rotor set described in another and the second half bore.

Preferably, in technique scheme, described support is provided with abreast two described test tube aperture frame.

Preferably, in technique scheme, two crossbeams being positioned at the described test tube aperture frame of below are arranged on described support in the mode that can slide up and down respectively; And described base plate is arranged on described support in the mode that can slide up and down.

Preferably, in technique scheme, described support comprises four columns, and the lower end of described column is provided with the leg of frustum.

Preferably, in technique scheme, the surface of described base plate is equipped with one deck padded coaming.

Preferably, in technique scheme, the quantity of the rotor of each described test tube aperture frame is 13; The quantity of described first half bore of described orifice plate and the quantity of described second half bore are 10.

Compared with prior art, the utility model has following beneficial effect:

1, the utility model changes the position of orifice plate by rotary rotor, when adjacent two orifice plates are relative with the first half bore, the test tube hole that composition aperture is larger, and time relative with the second half bore, then form less test tube hole, aperture, thus enable same rack for test tube adjust the size in test tube hole according to the test tube of different size, can be applicable to deposit the test tube of different pore size simultaneously, the applicability of rack for test tube of the present utility model is high, thus brings larger convenience for the routine work of hospital.

2, rotating mechanism of the present utility model drives rotor turns flexible, and can be controlled rotor exactly and turned over 90 ° by coordinating of latch and the first pin-and-hole and the second pin-and-hole and position, and it is easy to operate.

3, the utility model is by being divided into several rotor set rotor set, can simplify the structure of tumbler, with facilitate adjustment and cost-saving.

4, the varying in size of the first half bore and the second half bore in different rotor group of the present utility model, thus the test tube hole of multiple different-diameter size can be formed, thus improve the applicability of rack for test tube further.

5, the utility model is by arranging two test tube aperture frame, and is positioned at the test tube aperture frame of below and base plate all can slide up and down, thus can adjust for the height of test tube, to improve the applicability of rack for test tube further.

Accompanying drawing explanation

Fig. 1 is the perspective view according to the utility model Medical test-tube rack.

Fig. 2 is the structural representation according to test tube aperture frame of the present utility model.

Fig. 3 is the structural representation according to rotor of the present utility model.

Fig. 4 is with the relative structural representation of the first half bore according to adjacent two rotors of the present utility model.

Fig. 5 is with the relative structural representation of the second half bore according to adjacent two rotors of the present utility model.

Fig. 6 is the structural representation according to rotating mechanism of the present utility model.

Main Reference Numerals illustrates:

1-support, 11-pillar, 12-leg, 13-stiffener; 2-base plate; 3-test tube aperture frame, 31-crossbeam, 32-rotor, 321-orifice plate, 322-first half bore, 323-second half bore; 4-rotating mechanism, 41-rotating shaft, 42-connecting rod, 43-latch, 431-boss, 44-spring, 45-handle, 46-first pin-and-hole, 47-location-plate, 48-second pin-and-hole; 5-gear, 51-shell.

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail, but is to be understood that protection domain of the present utility model not by the restriction of detailed description of the invention.

Clearly represent unless otherwise other, otherwise in whole description and claims, term " comprise " or its conversion as " comprising " or " including " etc. by be understood to include the element of stating or part, and do not get rid of other element or other part.

Embodiment 1

As shown in Figures 1 to 6, a kind of embodiment according to the utility model detailed description of the invention is: a kind of Medical test-tube rack, and it comprises support 1, base plate 2 and test tube aperture frame 3, wherein:

As shown in Figure 1, base plate 2 is arranged at the bottom of support 1, and it is for holding the bottom of test tube, and preferably, the surface of base plate 2 is equipped with one deck padded coaming, thus when can cushion holding test tubes, with the impulsive force of base plate 2 bottom test tube.

At least one test tube aperture frame 3 is arranged on support 1, and test tube aperture frame 3 is positioned at the top of base plate 2.As shown in Figure 2, test tube aperture frame 3 comprises crossbeam 31, rotor 32 and tumbler, and each test tube aperture frame 3 is provided with two crossbeams 31, is set up in abreast on support 1 before and after these two crossbeams 31.Several rotors 32 are equidistantly rotatably set up between two crossbeams 31, as shown in Figure 3, each rotor 32 is circumferentially provided with four orifice plates 321 equably, wherein two relative orifice plates 321 are equidistantly arranged with several first half bore 322 respectively, on two other relative orifice plate 321, equidistantly the recessed diameter being equipped with several the second half bore 323, first half bore 322 is greater than the diameter of the second half bore 323 respectively.Tumbler rotates for driving these several rotors 32.When adjacent two rotors 32 are relative with the orifice plate 321 being arranged with the half bore of same apertures, two half bore corresponding on these two orifice plates 321 just form a complete test tube hole.

As shown in Figure 4, when on adjacent two rotors 32 with the orifice plate 321 at the first half bore 322 place relatively time, just constitute the larger test tube hole of a row diameter, for depositing the larger test tube of diameter between two orifice plates 321 corresponding on these two adjacent rotors 32.As shown in Figure 5, when on adjacent two rotors 32 with the orifice plate 321 at the second half bore 323 place relatively time, just constitute the less test tube hole of a row diameter, for depositing the less test tube of diameter between these two adjacent orifice plates 321.Owing to the relative orifice plate 321 on rotor 32 being arranged with the half bore of same apertures, as shown in Figure 2, when all rotors 32 are all relative with the orifice plate 321 being arranged with the half bore of same apertures, the test tube hole of array can between several rotors 32, just be formed.Certainly, the rotor 32 that also can be a wherein part is relative with the orifice plate 321 being arranged with the first half bore 322, the rotor 32 of another part is relative with the orifice plate 321 being arranged with the second half bore 323, to form the test tube hole of two kinds of different pore sizes, thus enable rack for test tube simultaneously for depositing the test tube of plurality of specifications.

Preferably, as shown in Figure 2, the quantity of the rotor 32 of each test tube aperture frame 3 is 13, and as shown in Figure 3, the quantity of the first half bore 322 of orifice plate 321 and the quantity of the second half bore 323 are 10, thus the test tube hole of 12 × 10 arrays can be formed, to make the size to fit of whole rack for test tube, and also can deposit more test tube.

Tumbler comprises several and is respectively used to drive several rotors 32 to carry out the rotating mechanism 4 rotated, as shown in Figure 6, rotating mechanism 4 comprises rotating shaft 41, connecting rod 42, latch 43, spring 44, handle 45 and fixed head 47, one end of rotating shaft 41 is fixedly connected with one end of rotor 32, one end of connecting rod 42 is fixedly connected with the other end of rotating shaft 41, and connecting rod 42 is perpendicular to rotating shaft 41.The middle part of latch 43 is convexly equipped with a boss 431, and the activity of one end of latch 43, through the other end of connecting rod 42, the crossbeam 31 of the side corresponding with one end that rotating shaft 41 is connected with rotor 32 is provided with first pin-and-hole 46 corresponding with the other end of latch 43.Spring 44 to be sheathed on latch 43 and to be located between boss 431 and connecting rod 42, and the diameter of boss 431 is greater than the aperture of latch 43 through the hole in connecting rod 42, and the diameter of boss 431 is greater than the aperture of the first pin-and-hole 46.Handle 45 and latch 43 are through being connected in one end of connecting rod 42, and the diameter of handle 45 is greater than the aperture of latch 43 through the hole in connecting rod 42.Location-plate 47 is fixed on the crossbeam 31 of the side corresponding with one end that rotating shaft 41 is connected with rotor 32, the bottom of location-plate 47 is provided with second pin-and-hole 48 corresponding with the other end of latch 43, and the second pin-and-hole 48 and the angle of the first pin-and-hole 46 centered by the axis of rotating shaft 41 are 90 °.

User can be rotated by drive shaft 41 rotor driven 32 by handle 45 and connecting rod 42, and when latch 43 is inserted in the first pin-and-hole 46, wherein a pair orifice plate 321 of rotor 32 is positioned at horizontal level; And when by rotate latch 43 is inserted in the second pin-and-hole 48 time, rotor 32 just turns over 90 °, thus another making rotor 32 is positioned at horizontal level to orifice plate 321.When rotating latch 43 between the first pin-and-hole 46 and the second pin-and-hole 48, need first from one of them pin-and-hole, to extract latch 43, boss 431 Compress Spring 44, then latch 43 is shaken the position corresponding with another pin-and-hole, now latch 43 can be sprung in corresponding pin-and-hole under the effect of spring 44, thus stably lock.Because the angle between the first pin-and-hole 46 and the second pin-and-hole 48 is 90 °, therefore when turning handle 45, only latch 43 need be switched between the first pin-and-hole 46 and the second pin-and-hole 48 position of two pairs of orifice plates 321 that just can change rotor 32.The structure of the rotating mechanism 4 of the present embodiment is simple, accurately can locate rotor 32, and flexible and convenient operation.Because each rotor 32 in the present embodiment independently controls to rotate by a rotating mechanism 4, thus relative with the orifice plate 321 of which specification between two rotors 32 that can control arbitrary neighborhood neatly, to arrange the quantity in corresponding test tube hole neatly according to the test tube of minor diameter and the quantity of large diameter test tube.Therefore, the present embodiment can make same rack for test tube adjust the quantity in suitable large small test tube hole according to the test tube of different size, can be applicable to deposit the test tube of different pore size simultaneously, its applicability is high, can bring larger convenience for the routine work of hospital.

Preferably, as shown in Figure 1, support 1 be provided with two test tube aperture frame 3 upper parallelly, the test tube hole that the rotor 32 of upper and lower two test tube aperture frame 3 correspondences is formed is identical, thus by the test tube hole in two test tube aperture frame 3, test tube can be helped, so that can stability be improved.Further preferably, two crossbeams 31 being positioned at the test tube aperture frame 3 of below are arranged on support 1 in the mode that can slide up and down respectively; And base plate 2 is arranged on support 1 in the mode that can slide up and down.Be positioned at the test tube aperture frame 3 of below and the height of base plate 2 by adjustment, just may be used for the test tube depositing differing heights, to improve the applicability of rack for test tube further.

Preferably, as shown in Figure 1, support 1 is made up of four pillars 11, the lower end of these four pillars 11 is respectively arranged with four legs 12, leg 12 is in frustum, and the middle part of two of front and back correspondence pillars 11 is connected by a stiffener 13, and support 1 can be placed more reposefully by four legs 12, and two stiffeners 13 are except strengthening the intensity of rack for test tube, rack for test tube can also be carried as handle person easy to use.The crossbeam 31 of test tube aperture frame 3 is arranged on pillar 11 in the mode that can slide up and down, and base plate 2 is also arranged on pillar 11 in the mode that can slide up and down, and after Height Adjustment is suitable, crossbeam 31 and base plate 2 are all fixed by bolt-locking.

Embodiment 2

According to the technical scheme in embodiment 1, several rotors 32 in each test tube aperture frame 1 are divided into several rotor set, and each rotor set comprises at least two adjacent rotors 32, thus make each rotor set at least can form a row test tube hole.As shown in Figure 2, one end of each rotor 32 in each rotor set is provided with a gear 5, all rotors in group are connected with a joggle togather by gear 5, and one of them rotor 32 in each rotor set is power rotor, tumbler comprises several and is respectively used to drive the power rotor of several rotor set to carry out the rotating mechanism rotated.The rotating mechanism of the present embodiment 2 is identical with the rotating mechanism 4 of embodiment 1, and it is connected with power rotor by rotating shaft 41.When rotating mechanism 4 drives power rotor to rotate, just rotate by other rotors 32 in gear 5 driving group simultaneously.Due to all rotors 32 be divide into several rotor set, each rotor set only needs a rotating mechanism 4, thus need not drive by a driving mechanism 4 by each rotor 32, it can simplify structure, cost-saving, and different rotor group independently can adjust the size in composition test tube hole, its use is more flexible.And, when using rotors 32 all in test tube aperture frame 1 as a rotor set time, then only need a driving mechanism 4 just can complete and the rotor 32 in whole test tube aperture frame 1 driven.As shown in Figure 2, the gear 5 of each rotor set and rotating mechanism 4 can before and after to stagger setting, make compact conformation and avoid mutual interference.Preferably, as shown in Figure 1, crossbeam 31 is provided with shell 51 for being covered with gear 5.

Further preferably, first half bore 322 of the rotor 32 in each rotor set and the size of the second half bore 323 not identical with the size of the first half bore 322 in another rotor set and the second half bore 323, thus the size in the test tube hole that the rotor 32 in each rotor set is formed is all not identical, thus the applicability of rack for test tube can be improved further.

The aforementioned description to concrete exemplary of the present utility model is to illustrate and the object of illustration.These descriptions not want the utility model to be defined as disclosed precise forms, and obviously, according to above-mentioned instruction, can much change and change.The object selected exemplary embodiment and describe is to explain certain principles of the present utility model and practical application thereof, thus those skilled in the art can be realized and utilize various different exemplary of the present utility model and various different selection and change.Scope of the present utility model is intended to limited by claims and equivalents thereof.

Claims (10)

1. a Medical test-tube rack, it comprises:

Support;

Base plate, it is arranged at the bottom of described support; And

Test tube aperture frame, at least one this test tube aperture frame is arranged on described support;

It is characterized in that, described test tube aperture frame comprises:

Crossbeam, is set up in before and after two these crossbeams on described support abreast;

Rotor, several these rotors are equidistantly rotatably set up between described two crossbeams; This rotor each is circumferentially provided with four orifice plates equably, wherein two relative described orifice plates is equidistantly arranged with several first half bore respectively, equidistantly recessedly respectively on two other relative described orifice plate is equipped with several the second half bore; The diameter of described first half bore is greater than the diameter of described second half bore; And

Tumbler, it rotates for driving several rotors described.

2. Medical test-tube rack according to claim 1, is characterized in that, described tumbler comprises several and is respectively used to drive several rotors described to carry out the rotating mechanism rotated, and this rotating mechanism comprises:

Rotating shaft, its one end is fixedly connected with one end of described rotor;

Connecting rod, its one end is fixedly connected with the other end of described rotating shaft, and this connecting rod is perpendicular to described rotating shaft;

Latch, is convexly equipped with a boss in the middle part of it, the other end of described connecting rod is passed in one end activity of this latch; The described crossbeam of the side corresponding with one end that rotating shaft is connected with described rotor is provided with first pin-and-hole corresponding with the other end of this latch;

Spring, it to be sheathed on described latch and to be located between described boss and described connecting rod;

Handle, itself and described latch are through being connected in one end of described connecting rod; And

Location-plate, it is fixed on the described crossbeam of the side corresponding with one end that described rotating shaft is connected with described rotor; The bottom of this location-plate is provided with second pin-and-hole corresponding with the other end of described latch, and described second pin-and-hole and the angle of described first pin-and-hole centered by the axis of described rotating shaft are 90 °.

3. Medical test-tube rack according to claim 1, is characterized in that, several rotors described in described test tube aperture frame are divided into several rotor set, and each described rotor set comprises at least two adjacent described rotors; One end of all rotors in each described rotor set is linked together by gears meshing, and one of them rotor in each described rotor set is power rotor; Described tumbler comprises several and is respectively used to drive the power rotor of several rotor set described to carry out the rotating mechanism rotated.

4. Medical test-tube rack according to claim 3, is characterized in that, described rotating mechanism comprises:

Rotating shaft, its one end is fixedly connected with one end of described power rotor;

Connecting rod, its one end is fixedly connected with the other end of described rotating shaft, and this connecting rod is perpendicular to described rotating shaft;

Latch, is convexly equipped with a boss in the middle part of it, the other end of described connecting rod is passed in one end activity of this latch; The described crossbeam of the side corresponding with one end that rotating shaft is connected with described power rotor is provided with first pin-and-hole corresponding with the other end of this latch;

Spring, it to be sheathed on described latch and to be located between described boss and described connecting rod;

Handle, itself and described latch are through being connected in one end of described connecting rod; And

Location-plate, it is fixed on the described crossbeam of the side corresponding with one end that described rotating shaft is connected with described power rotor; The bottom of this location-plate is provided with second pin-and-hole corresponding with the other end of described latch, and described second pin-and-hole and the angle of described first pin-and-hole centered by the axis of described rotating shaft are 90 °.

5. Medical test-tube rack according to claim 3, is characterized in that, the first half bore of the rotor in each described rotor set and the size of the second half bore not identical with the size of the first half bore in rotor set described in another and the second half bore.

6. Medical test-tube rack according to claim 1, is characterized in that, described support is provided with abreast two described test tube aperture frame.

7. Medical test-tube rack according to claim 6, is characterized in that, two crossbeams being positioned at the described test tube aperture frame of below are arranged on described support in the mode that can slide up and down respectively; And described base plate is arranged on described support in the mode that can slide up and down.

8. Medical test-tube rack according to claim 1, is characterized in that, described support comprises four columns, and the lower end of described column is provided with the leg of frustum.

9. Medical test-tube rack according to claim 1, is characterized in that, the surface of described base plate is equipped with one deck padded coaming.

10. Medical test-tube rack according to claim 1, is characterized in that, the quantity of the rotor of each described test tube aperture frame is 13; The quantity of described first half bore of described orifice plate and the quantity of described second half bore are 10.