CN212283807U - Clinical laboratory uses test tube oscillator - Google Patents

Abstract

The utility model provides a clinical laboratory uses test tube oscillator. The test tube oscillator for the clinical laboratory comprises an oscillator base, a switch structure, an oscillation structure and a placement structure, wherein the switch structure is connected to the oscillator base; an oscillating structure connected to the oscillator base; a placement structure connected to the oscillating structure; the utility model discloses a test tube box, including placing the structure, place the structure and include fixed slot, fixed block, test tube box, handle, hole and fixed frame, the fixed block install in the top surface of oscillating structure, the fixed slot is located the top surface of fixed block, test tube box install in the inside of fixed block, the handle install in the lateral wall of test tube box, the hole is located the top surface of test tube box, fixed frame install in the inner wall of fixed block. The utility model provides a clinical laboratory uses test tube oscillator has the test tube box that can the push-and-pull, labour saving and time saving's advantage.

Description

Clinical laboratory uses test tube oscillator

Technical Field

The utility model relates to a geothermal energy development technical field especially relates to a clinical laboratory uses test tube oscillator.

Background

The test tube oscillator is suitable for porous plates and microporous plates in laboratories such as scientific research units, medical institutions, disease control centers and medical health units in molecular biology, virology, microbiology, pathology, immunology and the like, and has the advantages of low noise, uniform mixing, convenience, rapidness and the like.

However, when the traditional test tube oscillator is used, in order to oscillate and mix different test vessels such as conical flasks and test tubes, the oscillation plate of the suitable oscillator needs to be replaced, which wastes time and labor and affects the inspection efficiency.

Therefore, there is a need to provide a new test tube oscillator for clinical laboratory to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a clinical laboratory uses test tube oscillator with test tube box that can the push-and-pull, labour saving and time saving.

The utility model provides a clinical laboratory uses test tube oscillator includes: an oscillator base; a switch structure connected to the oscillator base; an oscillating structure connected to the oscillator base; place the structure, place the structural connection in the oscillation structure, place the structure and include fixed slot, fixed block, test tube box, handle, hole, fixed frame, third dead lever and second fixed plate, the fixed block install in the top surface of oscillation structure, the fixed slot is located the top surface of fixed block, test tube box install in the inside of fixed block, the handle install in the lateral wall of test tube box, the hole is located the top surface of test tube box, fixed frame install in the inner wall of fixed block, the second fixed plate install in the bottom of test tube box, the third dead lever install in the lateral wall of second fixed plate.

Preferably, the switch structure includes a switch and an adjusting knob, the switch is mounted on the side wall of the oscillator base, and the adjusting knob is mounted on the side wall of the oscillator base.

Preferably, the oscillating structure includes damping spring, first dead lever, second dead lever, first fixed plate, bull stick and motor, first dead lever install in the bottom of fixed block, damping spring's one end with first dead lever symmetry install in the bottom of fixed block, second dead lever fixed connection damping spring's the other end, first fixed plate install in the bottom of first dead lever, the bull stick install in the lateral wall of first fixed plate, the motor install in the lateral wall of bull stick.

Preferably, the section of the adjusting knob is arc-shaped, and the side wall of the adjusting knob is provided with anti-skidding fine lines.

Preferably, the section of the rotating rod is L-shaped, and the rotating rod and the first fixing plate are in a perpendicular relation.

Compared with the prior art, the utility model provides a clinical laboratory uses test tube oscillator has following beneficial effect:

the utility model provides a test tube oscillator for clinical laboratory, install the fixed block at the top surface of oscillating structure, the fixed slot is located the top surface of fixed block, in order to place large capacity laboratory glassware such as beaker, erlenmeyer flask in the inside of fixed slot, make things convenient for the vibration to shake the solution of the inside of large capacity laboratory glassware such as even beaker, erlenmeyer flask, the test tube box is installed in the inside of fixed block, in order to place the small-size laboratory glassware of test tube class, make things convenient for the vibration to shake the solution of the inside of the small-size laboratory glassware of test tube class, the handle is installed in the lateral wall of test tube box, the hole is located the top surface of test tube box, the fixed frame is installed in the inner wall of fixed block, the second fixed plate is installed in the bottom of test tube box, the third fixed rod is installed in the lateral wall of second fixed plate, after the solution vibration of large capacity laboratory glassware such as beaker, erlenmeyer flask, when small-size laboratory glassware of even test tube class is shaken in the vibration of needs, pull the handle, drive the test tube box removes, the test tube box drives the second fixed plate removes, the second fixed plate drives the third dead lever removes, the third dead lever remove to inside the fixed frame, the test tube box exposes, then places the test tube in the hole, open the switch structure begins the vibration and shakes the solution of even test tube inside, avoids changing the swing board, improves work efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a test tube oscillator for clinical laboratory provided by the present invention;

FIG. 2 is a schematic structural view of the placement structure shown in FIG. 1;

fig. 3 is a schematic structural diagram of the oscillation structure shown in fig. 1.

Reference numbers in the figures: 1. oscillator base, 2, switch structure, 21, switch, 22, adjust knob, 3, oscillating structure, 31, damping spring, 32, first dead lever, 33, second dead lever, 34, first fixed plate, 35, bull stick, 36, motor, 4, place the structure, 41, fixed slot, 42, fixed block, 43, test tube box, 44, handle, 45, hole, 46, fixed frame, 47, third dead lever, 48, second fixed plate.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2 and fig. 3 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of a tube oscillator for clinical laboratory according to the present invention; FIG. 2 is a schematic structural view of the placement structure shown in FIG. 1; fig. 3 is a schematic structural diagram of the oscillation structure shown in fig. 1. The test tube oscillator for clinical laboratory includes: oscillator base 1, switch structure 2, oscillating structure 3 and place structure 4, switch structure 2 connect in oscillator base 1, oscillating structure 3 connect in oscillator base 1, it connects in to place structure 4 in oscillating structure 3.

In the specific implementation process, as shown in fig. 1 and 2, the placing structure 4 is connected to the oscillating structure 3, the placing structure 4 includes a fixing groove 41, a fixing block 42, a test tube box 43, a handle 44, a hole 45, a fixing frame 46, a third fixing rod 47 and a second fixing plate 48, the fixing block 42 is installed on the top surface of the oscillating structure 3, the fixing groove 41 is installed on the top surface of the fixing block 42, the test tube box 43 is installed inside the fixing block 42, the handle 44 is installed on the side wall of the test tube box 43, the hole 45 is installed on the top surface of the test tube box 43, the fixing frame 46 is installed on the inner wall of the fixing block 42, the second fixing plate 48 is installed on the bottom end of the test tube box 43, and the third fixing rod 47 is installed on the side wall of the second fixing plate 48.

Referring to fig. 1, the switch structure 2 includes a switch 21 and an adjusting knob 22, the switch 21 is installed on a side wall of the oscillator base 1, the adjusting knob 22 is installed on a side wall of the oscillator base 1, the switch 21 is turned on by connecting a power supply, the adjusting knob 22 is rotated, and the vibration frequency of the oscillating structure 3 is adjusted as required.

Referring to fig. 1 and 3, the oscillating structure 3 includes a damping spring 31, a first fixing rod 32, a second fixing rod 33, a first fixing plate 34, a rotating rod 35 and a motor 36, the first fixing rod 32 is installed at the bottom end of the fixing block 42, one end of the damping spring 31 and the first fixing rod 32 are symmetrically installed at the bottom end of the fixing block 42, the second fixing rod 33 is fixedly connected to the other end of the damping spring 31, the first fixing plate 34 is installed at the bottom end of the first fixing rod 32, the rotating rod 35 is installed at the side wall of the first fixing plate 34, the motor 36 is installed at the side wall of the rotating rod 35, by opening the switch structure 2, the motor 36 rotates to drive the rotating rod 35 to rotate, the rotating rod 35 drives the first fixing plate 34 to vibrate up and down to drive the first fixing rod 32 to vibrate, first dead lever 32 drives place structure 4 vibration, it extrudees or stretches to place structure 4 during vibration damping spring 31, damping spring 31 extrudees or pulls second dead lever 33, reaches absorbing purpose, prevents place structure 4 vibration acutely.

Referring to fig. 1, the section of the adjusting knob 22 is arc-shaped, and the side wall of the adjusting knob 22 is provided with anti-slip fine lines, so as to increase the friction force contacting with the adjusting knob 22 when the adjusting knob 22 is rotated, and prevent the hand from slipping.

Referring to fig. 3, the section of the rotating rod 35 is L-shaped, the rotating rod 35 and the first fixing plate 34 are perpendicular to each other, the rotating rod 35 is driven to rotate by the rotation of the motor 36, and the rotating rod 35 drives the first fixing plate 34 to move up and down to achieve the purpose of vibration.

The utility model provides a clinical laboratory uses test tube oscillator's theory of operation as follows:

when the device is used, firstly, a power supply is connected, then large-capacity experimental instruments such as beakers and erlenmeyer flasks are placed in the fixed groove 41, then the switch 21 is opened, the adjusting knob 22 is rotated by hands to adjust to a proper vibration frequency, the motor 36 rotates to drive the rotating rod 35 to rotate, the rotating rod 35 drives the first fixing plate 34 to vibrate up and down to drive the first fixing rod 32 to vibrate, the first fixing rod 32 drives the fixing block 42 to vibrate, the damping spring 31 is squeezed or stretched when the fixing block 42 vibrates, the damping spring 31 squeezes or pulls the second fixing rod 33 to achieve the damping purpose, then after the solution in the large-capacity experimental instruments such as the beakers and the erlenmeyer flasks vibrates uniformly, the switch 21 is closed, and the large-capacity experimental instruments such as the beakers and the erlenmeyer flasks are taken away from the fixed groove 41, then, the handle 44 is pulled by hand to drive the test tube box 43 to move, the test tube box 43 drives the second fixing plate 48 to move, the second fixing plate 48 drives the third fixing rod 47 to move, the third fixing rod 47 moves to the inside of the fixing frame 46, the test tube box 43 is exposed, then a test tube type small-sized experimental instrument is placed in the hole 45, the switch 21 is opened, the adjusting knob 22 is rotated by hand to adjust to a proper vibration frequency, the motor 36 rotates to drive the rotating rod 35 to rotate, the rotating rod 35 drives the first fixing plate 34 to vibrate up and down to drive the first fixing rod 32 to vibrate, the first fixing rod 32 drives the fixing block 42 to vibrate, the damping spring 31 is squeezed or stretched when the fixing block 42 vibrates, the damping spring 31 squeezes or pulls the second fixing rod 33, after the solution of the test tube type small-scale test instrument is shaken evenly, the switch 21 is closed, and the test tube type small-scale test instrument is taken away from the fixing groove 41.

Compared with the prior art, the utility model provides a clinical laboratory uses test tube oscillator has following beneficial effect:

the utility model provides a test tube oscillator for clinical laboratory installs the fixed block 42 on the top surface of oscillating structure 3, fixed slot 41 is located the top surface of fixed block 42, in order to place large capacity laboratory glassware such as beaker, erlenmeyer flask in the inside of fixed slot 41, the solution in large capacity laboratory glassware such as the even beaker of convenient vibration, erlenmeyer flask, etc., test tube box 43 is installed in the inside of fixed block 42, in order to place the small-size laboratory glassware of test tube class, the solution in the small-size laboratory glassware of convenient vibration even test tube class, handle 44 is installed in the lateral wall of test tube box 43, hole 45 is located the top surface of test tube box 43, fixed frame 46 is installed in the inner wall of fixed block 42, second fixed plate 48 is installed in the bottom of test tube box 43, third fixed rod 47 install in the lateral wall of second fixed plate 48, after the solution inside large capacity laboratory glassware such as beaker, erlenmeyer flask vibrates to shake evenly, when the small-size laboratory glassware of even test tube class is shaken in the vibration of needs, pull handle 44, drive test tube box 43 removes, test tube box 43 drives second fixed plate 48 removes, second fixed plate 48 drives third dead lever 47 removes, third dead lever 47 removes to inside fixed frame 46, test tube box 43 exposes, then places the test tube in the hole 45, opens switch 21, begins the vibration and shakes the inside solution of even test tube, avoids changing the oscillating plate, improves work efficiency.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (5)

1. A clinical laboratory test tube oscillator, comprising:

an oscillator base (1);

a switch structure (2), the switch structure (2) being connected to the oscillator base (1);

an oscillating structure (3), said oscillating structure (3) being connected to said oscillator base (1);

placing structure (4), placing structure (4) connect in oscillating structure (3), placing structure (4) including fixed slot (41), fixed block (42), test tube box (43), handle (44), hole (45), fixed frame (46), third fixed lever (47) and second fixed plate (48), fixed block (42) install in the top surface of oscillating structure (3), fixed slot (41) are located the top surface of fixed block (42), test tube box (43) install in the inside of fixed block (42), handle (44) install in the lateral wall of test tube box (43), hole (45) are located the top surface of test tube box (43), fixed frame (46) install in the inner wall of fixed block (42), second fixed plate (48) install in the bottom of test tube box (43), the third fixing rod (47) is installed at a side wall of the second fixing plate (48).

2. The cuvette shaker of claim 1, wherein the switch structure (2) comprises a switch (21) and an adjusting knob (22), the switch (21) being mounted to a side wall of the shaker base (1), the adjusting knob (22) being mounted to a side wall of the shaker base (1).

3. The test tube oscillator for clinical laboratory according to claim 1, wherein said oscillating structure (3) comprises a damping spring (31), a first fixing rod (32), a second fixing rod (33), a first fixing plate (34), a rotating rod (35) and a motor (36), said first fixing rod (32) is mounted at the bottom end of said fixing block (42), one end of said damping spring (31) and said first fixing rod (32) are symmetrically mounted at the bottom end of said fixing block (42), said second fixing rod (33) is fixedly connected with the other end of said damping spring (31), said first fixing plate (34) is mounted at the bottom end of said first fixing rod (32), said rotating rod (35) is mounted at the side wall of said first fixing plate (34), and said motor (36) is mounted at the side wall of said rotating rod (35).

4. The clinical laboratory test tube oscillator according to claim 2, wherein the section of said adjusting knob (22) is arc-shaped, and the side wall of said adjusting knob (22) is provided with anti-slip fine lines.

5. The cuvette shaker of claim 3, wherein the cross-section of the rotating bar (35) is L-shaped, and the rotating bar (35) and the first fixing plate (34) are in a perpendicular relationship.

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