CN210385691U

CN210385691U - Temperature control oscillator for biological medical treatment

Info

Publication number: CN210385691U
Application number: CN201920920636.6U
Authority: CN
Inventors: 何赏; 丁娉; 王洪
Original assignee: Diacarta Inc
Current assignee: Diacarta Inc
Priority date: 2019-06-19
Filing date: 2019-06-19
Publication date: 2020-04-24
Anticipated expiration: 2029-06-19

Abstract

The utility model relates to the technical field of medical equipment, and a temperature control oscillator for bio-medical treatment is disclosed, which comprises a housin, place the board, two spacing rings, including a motor, an end cap, a controller, and a cover plate, rotatory piece, the connecting rod, the apical wheel, two roofs, heating pipe and temperature sensor, place the middle part that the board level set up at the casing, both sides are all fixed and are equipped with the slide around placing the board, the inside wall all transversely seted up around the casing with two slide matched with spouts, two spacing rings are fixed respectively and are being set up at the upper surface of placing the board, the equal symmetry in inside of two spacing rings is equipped with two first cavities, the inside of first cavity is equipped with beaker clamping mechanism, two roofs are fixed respectively and are set up at the below surface of placing the board, the motor is fixed to be set up on the. The utility model discloses not only can stabilize the placing to the medicine beaker, can adjust the amplitude of oscillation to the medicine moreover, be favorable to the oscillation to the medicine.

Description

Temperature control oscillator for biological medical treatment

Technical Field

The utility model relates to the technical field of medical equipment, especially, relate to a temperature control oscillator for bio-medical treatment.

Background

In biomedical practice, an oscillation operation is performed in many cases, such as oscillating a sample in each department, mixing a solid medicine with a liquid medicine, and then oscillating.

The oscillator is operated in the vibration that uses at present in the biomedical practice, and the vibrations effect is relatively poor, can not adjust the range to medicine oscillation, and fixed effect is not good when medicine beaker is placed in the inside of oscillator moreover, appears empting the phenomenon easily. Therefore, the utility model designs a temperature control oscillator for biological medical treatment.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving among the prior art that the oscillator is handled in the vibration that uses in the biomedical practice, vibrations effect ratio is poor, can not adjust the range to the medicine oscillation, and the fixed effect is not good when the inside of oscillator is placed to the medicine beaker moreover, appears the problem of the phenomenon of empting easily, and the temperature control oscillator for biomedical that proposes.

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

a temperature control oscillator for biomedical treatment comprises a shell, a placing plate, two limiting rings, a motor, a rotating block, a connecting rod, a top wheel, two top plates, a heating pipe and a temperature sensor, wherein the placing plate is horizontally arranged in the middle of the shell, sliding plates are fixedly arranged on the front side and the rear side of the placing plate, sliding grooves matched with the two sliding plates are transversely formed in the front inner side wall and the rear inner side wall of the shell, the two limiting rings are respectively and fixedly arranged on the upper surface of the placing plate, two first cavities are symmetrically formed in the two limiting rings, a beaker clamping mechanism is arranged in each first cavity, the two top plates are respectively and fixedly arranged on the lower surface of the placing plate, the motor is fixedly arranged on the rear inner side wall of the shell and positioned between the two top plates, the tail end of an output shaft of the motor is fixedly connected with the rotating block, and a groove is formed in the left side of the, the connecting rod slides and sets up in the inside of recess, the one end that the connecting rod is located the recess inside is equipped with the second cavity, the inside of second cavity is equipped with chucking mechanism, the one end that the connecting rod is located the recess outside rotates with the kicking wheel to be connected, the wheel wall of kicking wheel can with two the surface contact setting of roof, heating pipe and temperature sensor are all fixed the inner chamber bottom that sets up at the casing.

Preferably, beaker clamping mechanism includes first slider, first spring, carriage release lever and arc splint, first slider slides and sets up the inside at first cavity, first spring is located the top of first slider, the lower extreme of first spring and the upside fixed connection of first slider, the upper end of first spring and the top fixed connection of first cavity, the carriage release lever is vertical to be located the below of first slider, the upper end of carriage release lever and the downside fixed connection of first slider, the lower extreme of carriage release lever runs through the bottom of first cavity and extends to the inside of spacing ring, the arc splint are located the inside of spacing ring, the lower extreme of carriage release lever and the outside arcwall face fixed connection of arc splint.

Preferably, the inner side wall of the arc-shaped clamping plate is fixedly provided with a rubber pad.

Preferably, the clamping mechanism comprises a fixed block, two second sliders, two second springs and two clamping rods, the fixed block is vertically and fixedly arranged inside the second cavity, the two second sliders are respectively vertically positioned at the left side and the right side of the fixed block, the two second sliders are both in sliding connection with the second cavity, the two second springs are respectively positioned between the two second sliders and the fixed block, the two ends of the two second springs are respectively fixedly connected with the opposite side walls of the two second sliders and the left side and the right side walls of the fixed block, the two clamping rods are respectively and fixedly arranged on one sides of the two second sliders far away from the corresponding second springs, one ends of the two clamping rods far away from the corresponding second sliders respectively penetrate through the left side and the right side of the second cavity and extend outwards, a plurality of clamping holes which are uniformly distributed are formed in the left side and the right side of the groove, a plurality of the card hole is sharp distribution, two the kelly all passes through card hole and rotatory piece joint.

Preferably, one ends of the two clamping rods, which are positioned outside the rotating block, are arc-shaped end surfaces.

Preferably, the top of the shell is provided with a first opening, and the first opening is hinged with a first sealing cover through a first hinge.

Preferably, a second opening is formed in the front side wall of the shell and at a position corresponding to the motor, and the second opening is hinged to a second sealing cover through a second hinge.

Preferably, a transparent observation window is arranged on the front side wall of the shell and corresponds to the position of the placing plate.

Preferably, a control panel is fixedly arranged on the left side wall of the shell.

Preferably, the placing plate and the top plate are both made of light alloy.

Compared with the prior art, the utility model provides a temperature control oscillator for bio-medical treatment possesses following beneficial effect:

1. this control by temperature change oscillater for bio-medical treatment, through setting up at the inside first slider of spacing ring, first spring, carriage release lever and arc splint, the staff hand promotes two arc splint simultaneously and keeps away from the removal relatively, make two carriage release levers respectively through first slider extrusion first spring, thereby can put into the inside at the spacing ring with the medicine beaker, then loosen the arc splint, receive two first springs of extrusion this moment and can exert an external force and press from both sides the clamp tightly in the inside of spacing ring with the medicine beaker is firm for annular splint.

2. The temperature control oscillator for the biological medical treatment can lead the rotating block to rotate by turning on the motor arranged in the shell, the rotating block pushes the two top plates through the connecting rod and the top wheel, when the two top wheels are respectively contacted with the two top plates, so that the two placing plates can be moved leftwards and rightwards, thereby realizing the left-right shaking of the medicine beaker placed on the placing plate and the oscillation of the medicine, through the fixed block, the second slide block, the second spring and the clamping rods which are arranged in the connecting rod, the hands of workers press the two clamping rods simultaneously, so that the two clamping rods move to the inner part of the second cavity, thereby can adjust the connecting rod at the inside length of recess, can adjust the distance between apical wheel and the rotatory piece, increase the rotatory radius length of apical wheel, and then can move the movable plate and remove the range of removing, be favorable to the oscillation to the medicine.

The part that does not relate to among the device all is the same with prior art or can adopt prior art to realize, the utility model discloses not only can stabilize the placing to the medicine beaker, can adjust the oscillation range to the medicine moreover, be favorable to the oscillation to the medicine.

Drawings

Fig. 1 is a schematic structural view of a temperature controlled oscillator for biomedical use according to the present invention;

FIG. 2 is an enlarged view of a portion A of FIG. 1;

FIG. 3 is a schematic top view of the stop collar of FIG. 1;

FIG. 4 is a schematic view of the connection between the rotary block and the connecting rod in FIG. 1;

fig. 5 is a front view of the housing of fig. 1.

In the figure: the device comprises a shell 1, a placing plate 2, a limiting ring 3, a motor 4, a rotating block 5, a connecting rod 6, a top wheel 7, a top plate 8, a sliding plate 9, a heating pipe 10, a first sliding block 11, a first spring 12, a moving rod 13, an arc-shaped clamping plate 14, a fixed block 15, a second sliding block 16, a second spring 17, a clamping rod 18, a first sealing cover 19, a second sealing cover 20, a transparent observation window 21, an operation panel 22 and a temperature sensor 23.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1-5, a temperature controlled oscillator for biomedical use comprises a housing 1, a placing plate 2, two limit rings 3, a motor 4, a rotating block 5, a connecting rod 6, a top wheel 7, two top plates 8, a heating pipe 10 and a temperature sensor 23, wherein the placing plate 2 is horizontally arranged in the middle of the housing 1, sliding plates 9 are fixedly arranged on the front and rear sides of the placing plate 2, sliding grooves matched with the two sliding plates 9 are transversely formed in the front and rear inner side walls of the housing 1, the two limit rings 3 are respectively and fixedly arranged on the upper surface of the placing plate 2, two first cavities are symmetrically arranged in the two limit rings 3, a beaker clamping mechanism is arranged in each first cavity, the two top plates 8 are respectively and fixedly arranged on the lower surface of the placing plate 2, the motor 4 is fixedly arranged on the rear inner side wall of the housing 1 and positioned between the two top plates 8, the tail end of an output shaft of the motor 4 is fixedly connected with, the left side of rotatory piece 5 is seted up flutedly, connecting rod 6 slides and sets up the inside at the recess, the connecting rod 6 is located the inside one end of recess and is equipped with the second cavity, the inside of second cavity is equipped with chucking mechanism, connecting rod 6 is located the outside one end of recess and rotates with knock-pin 7 to be connected, the wheel wall of knock-pin 7 can set up with the surface contact of two roof 8, heating pipe 10 and temperature sensor 23 are all fixed to be set up in the inner chamber bottom of

casing

1, 4 work of motor can make rotatory piece 5 rotate, rotatory piece 5 promotes two roof 8 through connecting rod 6 and knock-pin 7, when two knock-pin 7 contact with two roof 8 respectively, thereby can make two place board 2 take place and move left and right, and then can realize rocking and oscillate the medicine beaker of placing on board 2 about producing.

The beaker clamping mechanism comprises a first sliding block 11, a first spring 12, a moving rod 13 and an arc-shaped clamping plate 14, wherein the first sliding block 11 is arranged in a first cavity in a sliding manner, the first spring 12 is positioned above the first sliding block 11, the lower end of the first spring 12 is fixedly connected with the upper side of the first sliding block 11, the upper end of the first spring 12 is fixedly connected with the top of the first cavity, the moving rod 13 is vertically positioned below the first sliding block 11, the upper end of the moving rod 13 is fixedly connected with the lower side of the first sliding block 11, the lower end of the moving rod 13 penetrates through the bottom of the first cavity and extends into the limiting ring 3, the arc-shaped clamping plate 14 is positioned in the limiting ring 3, the lower end of the moving rod 13 is fixedly connected with the outer arc-shaped surface of the arc-shaped clamping plate 14, a worker hand simultaneously pushes the two arc-shaped clamping plates 4 to move relatively away from each other, so that the two moving rods 13 respectively extrude the first spring 12, so that the medicine beaker can be placed in the limiting ring 3, then the arc-shaped clamping plate 14 is loosened, and the two first springs 12 which are extruded at the moment can apply an external force to the annular clamping plate 14 and firmly clamp the medicine beaker in the limiting ring 3.

The inner side wall of the arc-shaped clamping plate 14 is fixedly provided with a rubber pad.

The clamping mechanism comprises a fixed block 15, two second sliders 16, two second springs 17 and two clamping rods 18, the fixed block 15 is vertically and fixedly arranged inside the second cavity, the two second sliders 16 are respectively vertically positioned at the left side and the right side of the fixed block 15, the two second sliders 16 are both in sliding connection with the second cavity, the two second springs 17 are respectively positioned between the two second sliders 16 and the fixed block 15, two ends of the two second springs 17 are respectively and fixedly connected with the opposite side walls of the two second sliders 16 and the left side and the right side walls of the fixed block 15, the two clamping rods 18 are respectively and fixedly arranged on one sides of the two second sliders 16 far away from the corresponding second springs 17, one ends of the two clamping rods 18 far away from the corresponding second sliders 16 respectively penetrate through the left side and the right side of the second cavity and extend outwards, a plurality of clamping holes which are uniformly distributed are respectively formed in the left side and the right side of the groove, and the plurality of clamping holes are linearly distributed, two kellies 18 all through calorie hole and 5 joints of rotatory piece, and staff's hand presses two kellies 18 simultaneously for two kellies 18 all move to the inside of second cavity, thereby can adjust the length of connecting rod 6 in the recess inside, can adjust the distance between apical wheel 7 and the rotatory piece 5, have increased apical wheel 7 rotatory radius length, and then can move the amplitude that removes about 2, are favorable to the oscillation to the medicine.

The ends of the two clamping rods 18, which are positioned outside the rotating block 5, are both arc-shaped end surfaces.

The top of the housing 1 is provided with a first opening, and the first opening is hinged with a first sealing cover 19 through a first hinge.

A second opening is formed in the front side wall of the casing 1 and at a position corresponding to the motor 4, and the second opening is hinged to a second sealing cover 20 through a second hinge.

A transparent observation window 21 is provided at a position corresponding to the position of the placement plate 2 on the front side wall of the housing 1.

A control panel 22 is fixedly arranged on the left side wall of the shell 1.

The placing plate 2 and the top plate 8 are both made of light alloy.

In the utility model, when in use, the hands of the staff push the two arc-shaped clamping plates 4 to move away from each other, so that the two moving rods 13 respectively extrude the first springs 12 through the first sliding blocks 11, thereby placing the medicine beaker inside the limiting ring 3, then the arc-shaped clamping plates 14 are loosened, the two extruded first springs 12 can apply an external force to the annular clamping plates 14 and firmly clamp the medicine beaker inside the limiting ring 3, the motor 4 arranged inside the shell 1 is turned on to rotate the rotating block 5, the rotating block 5 pushes the two top plates 8 through the connecting rods 6 and the top wheels 7, when the two top wheels 7 are respectively contacted with the two top plates 8, thereby the two placing plates 2 can move leftwards and rightwards, and further the medicine beaker placed on the placing plate 2 can shake leftwards and rightwards and oscillate the medicine, two kellies 18 are pressed simultaneously to staff's hand for two kellies 18 all move to the inside of second cavity, thereby can adjust connecting rod 6 at the inside length of recess, can adjust the distance between apical wheel 7 and the rotatory piece 5, have increased the rotatory radius length of apical wheel 7, and then can move the amplitude that removes about board 2, are favorable to the oscillation to the medicine.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. A temperature control oscillator for biomedical treatment comprises a shell (1), a placing plate (2), two limiting rings (3), a motor (4), a rotating block (5), a connecting rod (6), a top wheel (7), two top plates (8), a heating pipe (10) and a temperature sensor (23), and is characterized in that the placing plate (2) is horizontally arranged in the middle of the shell (1), sliding plates (9) are fixedly arranged on the front side and the rear side of the placing plate (2), sliding grooves matched with the two sliding plates (9) are transversely formed in the front inner side wall and the rear inner side wall of the shell (1), the two limiting rings (3) are respectively and fixedly arranged on the upper surface of the placing plate (2), two first cavities are symmetrically arranged in the limiting rings (3), a beaker clamping mechanism is arranged in the first cavities, the two top plates (8) are respectively and fixedly arranged on the lower surface of the placing plate (2), motor (4) are fixed to be set up on the back inside wall of casing (1) and are located two between roof (8), the output shaft end and rotatory piece (5) fixed connection of motor (4), the left side of rotatory piece (5) is seted up flutedly, connecting rod (6) slide and set up in the inside of recess, the one end that connecting rod (6) are located recess inside is equipped with the second cavity, the inside of second cavity is equipped with chucking mechanism, connecting rod (6) are located the outside one end of recess and are rotated with top wheel (7) and be connected, the wheel wall of top wheel (7) can with two the surface contact setting of roof (8), heating pipe (10) and temperature sensor (23) are all fixed to be set up in the inner chamber bottom of casing (1).

2. The temperature controlled oscillator for biomedical use according to claim 1, wherein the beaker clamping mechanism comprises a first slider (11), a first spring (12), a moving rod (13) and an arc-shaped clamping plate (14), the first slider (11) is slidably disposed inside the first cavity, the first spring (12) is located above the first slider (11), the lower end of the first spring (12) is fixedly connected with the upper side of the first slider (11), the upper end of the first spring (12) is fixedly connected with the top of the first cavity, the moving rod (13) is vertically located below the first slider (11), the upper end of the moving rod (13) is fixedly connected with the lower side of the first slider (11), the lower end of the moving rod (13) penetrates through the bottom of the first cavity and extends to the inside of the limit ring (3), the arc-shaped clamping plate (14) is located inside the limit ring (3), the lower end of the movable rod (13) is fixedly connected with the outer arc-shaped surface of the arc-shaped clamping plate (14).

3. The temperature controlled oscillator for biomedical use according to claim 2, wherein a rubber pad is fixed to an inner side wall of the arc-shaped clamping plate (14).

4. The temperature-controlled oscillator for biomedical use according to claim 1, wherein the clamping mechanism comprises a fixed block (15), two second sliders (16), two second springs (17) and two clamping rods (18), the fixed block (15) is vertically and fixedly disposed inside the second cavity, the two second sliders (16) are vertically disposed at the left and right sides of the fixed block (15), the two second sliders (16) are slidably connected with the second cavity, the two second springs (17) are disposed between the two second sliders (16) and the fixed block (15), the two ends of the two second springs (17) are fixedly connected with the opposite side walls of the two second sliders (16) and the left and right side walls of the fixed block (15), the two clamping rods (18) are fixedly disposed on the sides of the two second sliders (16) far away from the corresponding second springs (17), two card pole (18) are kept away from and are corresponded the left and right sides of second cavity is run through respectively to the one end of second slider (16) and outwards extend, a plurality of evenly distributed's card hole is all seted up to the left and right sides of recess, and is a plurality of the card hole is sharp distribution, two card pole (18) are all through card hole and rotatory piece (5) joint.

5. The temperature-controlled oscillator for biomedical use according to claim 4, wherein the ends of the two clamping bars (18) located outside the rotating block (5) are both arc-shaped end surfaces.

6. The temperature controlled oscillator for biomedical use according to claim 1, wherein the top of the housing (1) is provided with a first opening, and the first opening is hinged with a first sealing cover (19) through a first hinge.

7. The temperature-controlled oscillator for biomedical use according to claim 1, wherein a second opening is formed in a front side wall of the housing (1) at a position corresponding to the motor (4), and the second opening is hinged to a second sealing cover (20) through a second hinge.

8. The temperature-controlled oscillator for biomedical use according to claim 1, wherein a transparent observation window (21) is provided at a position corresponding to a position of the placement plate (2) on the front side wall of the housing (1).

9. The temperature-controlled oscillator for biomedical use according to claim 1, wherein a control panel (22) is fixedly provided on a left side wall of the housing (1).

10. The temperature-controlled oscillator for biomedical use according to claim 1, wherein the placing plate (2) and the top plate (8) are made of light alloy.