CN209952912U - Practical core-separated rotor for medical equipment - Google Patents

Abstract

The utility model discloses a practical from core rotor of medical equipment, including the rotor support frame, the bracing piece of rotor support frame one side welding No. one, form one number between the bracing piece and place the district, the bracing piece No. two of rotor support frame opposite side welding, form No. two between No. two bracing pieces and place the district, No. three bracing pieces of rotor support frame top welding, form the reserve district of placing between No. three bracing pieces, No. four bracing pieces of rotor support frame bottom welding, form No. four between No. four bracing pieces and the bracing piece No. four bracing pieces and No. three bracing pieces and No. two bracing piece junctions all weld and strengthen carving the type piece. The utility model discloses medical treatment is with separating core rotor, reasonable in design, simple structure is fit for being extensively promoted and used.

Description

Practical core-separated rotor for medical equipment

Technical Field

The utility model relates to a test tube placement rack technical field, in particular to medical equipment practical from core rotor.

Background

Present medical examination usually needs to draw blood the chemical examination to patient, and then the supplementary patient disease condition of judging, present patient draws blood sample and usually needs to save at clean in vitro, thereby make things convenient for medical blood test equipment to carry out the chemical examination, but, many test tube rack test tubes at present place the specification fixed, the test tube is used in the sample storage of drawing blood that can not place multiple specification, patient draws blood sample in-process in a plurality of test tubes on blood test equipment sample test tube rack, need manually with a plurality of test tube slopes, and then make things convenient for blood test equipment to sample, however, medical staff snatchs the quantity of test tube and is limited, once only can snatch two threes and operate, thereby blood drawing chemical examination work efficiency has been reduceed, and when snatching the long term of slope, physical demands to medical staff is also great.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a practical type of medical equipment is from core rotor, through setting up by rotor support frame, bracing piece No. two, bracing piece No. three and bracing piece No. four combination form from core rotor, can place single tube tape spool test-tube rack, double-barrelled tape spool test-tube rack and eight tube tape spool test-tube rack in the inclined groove of bracing piece No. one, bracing piece No. two, bracing piece No. three and bracing piece No. four, three kinds of tape spool test-tube rack place test tube specification size and quantity all are different, and then can make this from core rotor can place the test tube of different specification sizes, improve from core rotor suitability; the single tube area axle test-tube rack, double-barrelled area axle test-tube rack and eight pipe area axle test-tube racks can be at bracing piece one, No. two bracing pieces, the tip tank of No. three bracing pieces and No. four corresponding of bracing piece rotates to can not take place to derail because of the tip tank is the slope form, and then make things convenient for blood test equipment to once carry out a plurality of test tube samples, improve detection work efficiency, alleviate medical staff and hold the physical demands that brings with the slope test tube many times, can effectively solve the problem in the background art.

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

practical from core rotor of medical equipment, including rotor supporting frame, No. one bracing piece of rotor supporting frame one side welding, form No. one between the bracing piece and place the district, No. two bracing pieces of rotor supporting frame opposite side welding, form No. two between No. two bracing pieces and place the district, No. three bracing pieces of rotor supporting frame top welding, form reserve the district of placing between No. three bracing pieces, No. four bracing pieces of rotor supporting frame bottom welding, form No. four between No. four bracing pieces and place the district, between No. four bracing pieces and No. three bracing pieces and a bracing piece, No. four bracing pieces and No. three bracing pieces and No. two bracing piece junctions all weld and strengthen the type of carving piece.

Furthermore, a double-barrelled tape spool test-tube rack of bracing piece one end through an inclined groove installation, double-barrelled tape spool test-tube rack is located the district of placing No. one.

Furthermore, No. two bracing piece one end is through No. two tip chutes installation single tube tape spool test-tube rack, the single tube tape spool test-tube rack is located No. two and places the district.

Furthermore, one end of the third support rod is provided with a third inclined groove.

Further, No. four bracing piece one ends are through eight tub of tape spool test-tube racks of No. four inclined grooves installation, eight tub of tape spool test-tube racks are located No. four and place the district.

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

1. through setting up by rotor support frame, a bracing piece, No. two bracing pieces, No. three bracing pieces and No. four bracing pieces make up and form from the core rotor, can be at a bracing piece, No. two bracing pieces, place single tube tape spool test-tube rack in the tip tank of No. three bracing pieces and No. four bracing pieces, double-barrelled tape spool test-tube rack and eight tube tape spool test-tube racks, three kinds of tape spool test-tube rack place the specification size and the quantity homodifference of test tube, and then can make this from the core rotor can place the test tube of different specification sizes, improve from core rotor suitability.

2. The single tube area axle test-tube rack, double-barrelled area axle test-tube rack and eight pipe area axle test-tube racks can rotate in the inclined groove of a bracing piece, No. two bracing pieces, No. three bracing pieces and No. four corresponding of bracing piece to can not take place to derail because of the inclined groove is the slope form, and then make things convenient for blood test equipment to once carry out a plurality of test tube samples, improve detection achievement efficiency, alleviate medical staff and hold in hand the physical demands that brings with the slope test tube many times.

Drawings

Fig. 1 is a schematic view of the whole structure of the practical off-core rotor of the medical device.

Fig. 2 is a schematic diagram of the utility model of the three-grade oblique groove amplification structure of the core-separated rotor.

In the figure: 1. a rotor support frame; 2. a third support rod; 3. a spare placement area; 4. a second support rod; 5. a second placement area; 6. a single-tube test tube rack with a shaft; 7. a fourth placement area; 8. an eight-tube test tube rack with shafts; 9. a first placement area; 10. a first support rod; 11. a double-tube test tube rack with shafts; 12. reinforcing the wedge-shaped block; 13. a fourth inclined groove; 14. a fourth support rod; 15. a first inclined groove; 16. a third inclined groove; 17. and a second inclined groove.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-2, the practical from-core rotor of medical equipment, including rotor supporting frame 1, rotor supporting frame 1 one side welding bracing piece 10 No. one, it places district 9 to form one between the bracing piece 10, No. two bracing pieces 4 of rotor supporting frame 1 opposite side welding, it places district 5 to form No. two between No. 4 bracing pieces, No. three bracing pieces 2 of rotor supporting frame 1 top welding, it places district 3 to form reserve between No. 2 bracing pieces, No. four bracing pieces 14 of rotor supporting frame 1 bottom welding, it places district 7 to form No. four between No. 14 bracing pieces, No. four bracing pieces 14 and No. 3 bracing pieces 2 and No. 10, No. four bracing pieces 14 and No. 2 bracing pieces 2 and No. two bracing pieces 4 junctions all weld and strengthen wedge type piece 12.

Wherein, a double-barrelled tape spool test-tube rack 11 of bracing piece 10 one end through a tip tank 15 installation, double-barrelled tape spool test-tube rack 11 is located and places district 9 No. one.

In this embodiment, as shown in fig. 1, the first inclined groove 15 at one end of the first support bar 10 can rotatably mount the double tube test tube rack 11 with shaft.

Wherein, No. two bracing pieces 4 one end is through No. two inclined grooves 17 installation single tube tape spool test-tube rack 6, single tube tape spool test-tube rack 6 is located No. two and places district 5.

In this embodiment, as shown in fig. 1, the second inclined groove 17 at one end of the second support rod 4 can rotatably mount the single-tube test tube rack 6 with the shaft.

Wherein, No. three inclined groove 16 is seted up to No. three bracing piece 2 one end.

In this embodiment, as shown in fig. 1 and 2, a third inclined groove 16 is formed at one end of the third support rod 2, so that the stand-by rack can be used for standby, and test tubes of other specifications can be conveniently placed.

Wherein, No. four 14 one ends of bracing piece are through No. four inclined grooves 13 eight pipe tape spool test-tube racks 8 of installation, eight pipe tape spool test-tube racks 8 are located No. four and place district 7.

In this embodiment, as shown in fig. 1, the four-angled groove 13 at one end of the four-support rod 14 can rotate the eight-tube test tube rack 8 with shaft.

It should be noted that the utility model relates to a practical off-core rotor for medical equipment, when in operation, the medical staff samples the blood sample of a patient and places the test tubes of different specifications on the corresponding test tube racks (the single tube with shaft test tube rack 6, the double tube with shaft test tube rack 11 and the eight tube with shaft test tube rack 8), then the medical staff places the single tube with shaft test tube rack 6, the double tube with shaft test tube rack 11 and the eight tube with shaft test tube rack 8 in the first inclined groove 15, the second inclined groove 17, the third inclined groove 16 and the fourth inclined groove 13 respectively, the single tube with shaft test tube rack 6, the double tube with shaft test tube rack 11 and the eight tube with shaft test tube rack 8 can rotate in the corresponding inclined grooves of the first support rod 10, the second support rod 4, the third support rod 2 and the fourth support rod 14, and the test tubes can not derail because the inclined grooves are inclined, thereby facilitating the blood inspection equipment to take multiple samples at one time, improve detection work efficiency, alleviate medical staff and hold the physical demands that the test tube brought with the slope many times.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. Practical from core rotor of medical equipment, including rotor support frame (1), its characterized in that: one side of the rotor supporting frame (1) is welded with a first supporting rod (10), a first placing area (9) is formed between the first supporting rods (10), a second support rod (4) is welded on the other side of the rotor support frame (1), a second placing area (5) is formed between the second support rods (4), a third support rod (2) is welded on the top of the rotor support frame (1), a standby placing area (3) is formed between the third support rods (2), a fourth support rod (14) is welded at the bottom of the rotor support frame (1), a fourth placing area (7) is formed between the fourth support rods (14), the reinforced wedge-shaped blocks (12) are welded at the joints of the fourth supporting rod (14), the third supporting rod (2) and the first supporting rod (10) and the joints of the fourth supporting rod (14), the third supporting rod (2) and the second supporting rod (4).

2. The medical device utility off-core rotor of claim 1, wherein: a double-barrelled tape spool test-tube rack (11) of bracing piece (10) one end through an inclined groove (15) installation, double-barrelled tape spool test-tube rack (11) are located one and place district (9).

3. The medical device utility off-core rotor of claim 1, wherein: no. two bracing pieces (4) one end is through No. two inclined grooves (17) installation single tube area axle test-tube rack (6), single tube area axle test-tube rack (6) are located No. two and place district (5).

4. The medical device utility off-core rotor of claim 1, wherein: one end of the third support rod (2) is provided with a third inclined groove (16).

5. The medical device utility off-core rotor of claim 1, wherein: no. four bracing pieces (14) one end is through No. four inclined grooves (13) eight pipe tape spool test-tube racks (8) of installation, eight pipe tape spool test-tube racks (8) are located No. four and place district (7).