CN109954434A - A kind of Physiology Experiment room dynamic regulation blender - Google Patents

Abstract

The present invention relates to technical field of experiment equipment, specifically a kind of Physiology Experiment room dynamic regulation blender, including bottom block, secondary mixing component, motor and main mixing component, the cylinder body of first telescopic device is mounted on bottom block, the upper end of first telescopic device is mounted with level frame, motor is mounted on the downside motor cabinet of level frame, the downside output shaft of motor is connect with main stirring rod, the external circumferential of main stirring rod is provided with multiple secondary stirring rods, secondary stirring rod is driven by main stirring rod and is rotated, it is circumferential respectively on secondary stirring rod and main stirring rod that multiple secondary mixing components and main mixing component are installed, the upper end of secondary stirring rod is connect by rotary body with the second telescopic device.Structure of the invention design rationally, facilitates and carries out dynamic agitation regulation, promotes mixing effect and efficiency.

Description

A kind of Physiology Experiment room dynamic regulation blender

Technical field

The present invention relates to technical field of experiment equipment, specifically a kind of Physiology Experiment room dynamic regulation blender.

Background technique

Physiology is a Main Branches of biology, is the various biological phenomenas for studying living organism, especially body The function of each component part and realize its function inherent mechanism a Men Xueke.Because research object is different, physiology can divide For microbial physiology, plant physiology, Animal physiology and Human physiology.Animal physiology especially physiological mammal Learn and Human physiology it is in close relations, there are between them many common ground, may then bond together research.Usually said life Neo-Confucianism is primarily referred to as the physiology of human body and higher vertebrate.

In existing technology, traditional Physiology Experiment room blender is by bracket, transverse connecting rod, motor, stirring Stick and stirring blade are constituted, and the single tradition of stirring structure can not carry out dynamic agitation regulation, influence stirring efficiency, and stir effect Fruit is barely satisfactory.Therefore, for the above status, there is an urgent need to develop a kind of Physiology Experiment room dynamic regulation blender, with Overcome the shortcomings of in currently practical application.

Summary of the invention

The purpose of the present invention is to provide a kind of Physiology Experiment room dynamic regulation blenders, to solve above-mentioned background skill The problem of being proposed in art.

To achieve the above object, the invention provides the following technical scheme:

A kind of Physiology Experiment room dynamic regulation blender, including bottom block, secondary mixing component, motor and main stirring group The cylinder body of part, first telescopic device is mounted on bottom block, and the upper end of the first telescopic device is mounted with level Frame is mounted with motor on the downside motor cabinet of the level frame, and the downside output shaft of motor is connect with main stirring rod, described The external circumferential of main stirring rod is provided with multiple secondary stirring rods, and the pair stirring rod is driven by main stirring rod to be rotated, secondary stirring rod Multiple secondary mixing components and main mixing component are installed with circumferential respectively on main stirring rod；

The top of the main stirring rod is mounted with driving gear, and the top of secondary stirring rod is provided with support tube, support Cylinder outside be provided with support frame, the upper end of support frame is fixed on level frame, be mounted on the upside of the support tube from Movable tooth circle, the pair stirring rod are passed through from support tube and driven gear ring, and the upper end of the pair stirring rod passes through rotary body and second Telescopic device connection, the cylinder body of the second telescopic device are fixed on level frame, and the outside of the driven gear ring is equipped with and driving tooth Wheel engages the external gear teeth of connection, offers cone tank on the inside of the driven gear ring, the interior gear teeth are provided on the inner wall of cone tank, The bevel gear that can be connect with interior gear teeth meshing is also mounted on the pair stirring rod.

As a further solution of the present invention: being rotation connection between support frame as described above and support tube.

As a further solution of the present invention: connecting between the pair stirring rod and support tube and driven gear ring for cooperation sliding It connects, and secondary stirring rod can be with respect to support tube and driven ring gear against rotation.

As a further solution of the present invention: the pair mixing component include the upper stirring rod that is fixed on secondary stirring rod and Lower stirring rod, the middle part between upper stirring rod and lower stirring rod are provided with the elliptical first porous paddle, and first is porous The upper and lower ends of paddle pass through spring respectively and connect with upper stirring rod and lower stirring rod.

As a further solution of the present invention: the upper stirring rod and lower stirring rod are arranged in parallel, and upper stirring rod is under Stirring rod is that downward 12 ° of outer end is obliquely installed.

As a further solution of the present invention: the main mixing component includes two and half be fixedly installed on main stirring rod Circular stirring ring is mounted with the porous paddle of rectangular-shaped second on the outside of two stirring rings.

As a further solution of the present invention: the hole shape opened up on the first porous paddle and the second porous paddle Shape is different, and the hole opened up on the first porous paddle and the second porous paddle is rounded, diamond shape, regular polygon or ellipse Shape.

Compared with prior art, the beneficial effects of the present invention are:

1) whole device can be driven to go up and down by the first telescopic device, it is applied widely；

2) main stirring rod can be driven persistently to rotate by motor, the main mixing component installed on main stirring rod has preferable To sample mixing effect in container；

3) secondary stirring rod can be driven to move up and down by the second telescopic device, and then controlled on the inside of bevel gear and driven gear ring Whether the interior gear teeth being arranged engage, and may make the rotation of secondary stirring rod unaffected by rotary body；In the lubrication groove of driven gear ring When tooth is engaged with bevel gear, driving gear drives driven ring gear against rotation, and secondary stirring rod can be driven to rotate simultaneously, pass through secondary stirring rod The secondary mixing component of upper installation has preferably to sample mixing effect in container；Driven gear ring the interior gear teeth not with bevel gear When engagement, driving gear drives driven ring gear against rotation, is unable to drive secondary stirring rod rotation at this time, can carry out secondary mixing component Selection control realizes dynamic agitation regulation, promotes mixing effect and efficiency.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention.

Fig. 2 is the structural schematic diagram of secondary mixing component in the present invention.

Fig. 3 is the structural schematic diagram of main mixing component in the present invention.

Fig. 4 is the cross-sectional view of driven gear ring part in the present invention.

In figure: 1- bottom block, the first telescopic device of 2-, 3- pair mixing component, the upper stirring rod of 31-, stirring rod under 32-, 33- Spring, the porous paddle of 34- first, 4- pair stirring rod, the driven gear ring of 5-, 51- external gear teeth, the gear teeth in 52-, 53- cone tank, 6- Support frame, the second telescopic device of 7-, 8- level frame, 9- motor, 10- driving gear, 11- rotary body, 12- support tube, 13- master stir Component is mixed, 131- stirs ring, the porous paddle of 132- second, the main stirring rod of 14-, 15- bevel gear.

Specific embodiment

The technical solution of the patent is explained in further detail With reference to embodiment.

The embodiment of this patent is described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning to end Same or similar label indicates same or similar element or element with the same or similar functions.Below with reference to attached The embodiment of figure description is exemplary, and is only used for explaining this patent, and cannot be understood as a limitation of this patent.

In the description of this patent, it is to be understood that term " center ", "upper", "lower", "front", "rear", " left side ", The orientation or positional relationship of the instructions such as " right side ", "vertical", "horizontal", "top", "bottom", "inner", "outside" is based on the figure Orientation or positional relationship, be merely for convenience of description this patent and simplify description, rather than the device of indication or suggestion meaning or Element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as the limitation to this patent.

In the description of this patent, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection ", " setting " shall be understood in a broad sense, for example, it may be being fixedly linked, being arranged, may be a detachable connection, set It sets, or is integrally connected, is arranged.For the ordinary skill in the art, above-mentioned art can be understood as the case may be The concrete meaning of language in this patent.

Embodiment 1

Please refer to Fig. 1-4, in the embodiment of the present invention, a kind of Physiology Experiment room dynamic regulation blender, including bottom plate Seat 1, secondary mixing component 3, motor 9 and main mixing component 13, the cylinder body of first telescopic device 2 are mounted on bottom block 1 On, the upper end of the first telescopic device 2 is mounted with level frame 8, is mounted with electricity on the downside motor cabinet of the level frame 8 Machine 9, the downside output shaft of motor 9 are connect with main stirring rod 14, and the external circumferential of the main stirring rod 14 is provided with multiple pairs and stirs Bar 4 is mixed, the pair stirring rod 4 is driven by main stirring rod 14 to be rotated, circumferential respectively on secondary stirring rod 4 and main stirring rod 14 to be equipped with Multiple pair mixing components 3 and main mixing component 13.

In the present embodiment, the top of the main stirring rod 14 is mounted with driving gear 10, and the top of secondary stirring rod 4 is set It is equipped with support tube 12, it is rotation connection between support frame 6 and support tube 12 that the outside of support tube 12, which is provided with support frame 6, support The upper end of frame 6 is fixed on level frame 8, can be pacified to 12 rotational support of support tube, the upside of the support tube 12 by support frame 6 Dress is fixed with driven gear ring 5, and the pair stirring rod 4 is passed through from support tube 12 and driven gear ring 5, and secondary stirring rod 4 and support tube It is cooperation sliding rotation connection between 12 and driven gear ring 5, i.e., secondary stirring rod 4 can be with respect to support tube 12 and 5 turns of driven gear ring The upper end of dynamic and longitudinal movement, the pair stirring rod 4 is connect by rotary body 11 with the second telescopic device 7, the second flexible dress It sets 7 cylinder body to be fixed on level frame 8, secondary stirring rod 4 can be driven to move up and down by level frame 8, the setting of rotary body 11, no The rotation of secondary stirring rod 4 is influenced, the outside of the driven gear ring 5 is equipped with the external gear teeth 51 that connection is engaged with driving gear 10, institute The inside for stating driven gear ring 5 offers up big and down small cone tank 53, and the interior gear teeth 52 are provided on the inner wall of cone tank 53, described The bevel gear 15 that connection can be engaged with the interior gear teeth 52 is also mounted on secondary stirring rod 4, in the interior gear teeth 52 and bevel gear 15 When engagement connection, secondary stirring rod 4 can rotate under the drive of driven gear ring 5, and then the pair by installing on secondary stirring rod 4 is stirred Component 3 is mixed to stir the sample in container.

Embodiment 2

Please refer to Fig. 1-4, the present embodiment difference from example 1 is that:

In the present embodiment, the pair mixing component 3 includes the upper stirring rod 31 and lower stirring rod being fixed on secondary stirring rod 4 32, the upper stirring rod 31 and lower stirring rod 32 are arranged in parallel, and upper stirring rod 31 and lower stirring rod 32 are that downward 12 ° of outer end is inclined Tiltedly setting, the middle part between upper stirring rod 31 and lower stirring rod 32 are provided with the elliptical first porous paddle 34, and first The upper and lower ends of porous paddle 34 pass through spring 33 respectively and connect with upper stirring rod 31 and lower stirring rod 32, set through this structure The secondary mixing component 3 set has preferably to sample mixing effect in container, and container fixed placement is on bottom block 1.

In the present embodiment, the main mixing component 13 includes two semi-annular shapes being fixedly installed on main stirring rod 14 Ring 131 is stirred, the outside of two stirring rings 131 is mounted with the porous paddle 132 of rectangular-shaped second, sets through this structure The main mixing component 13 set has preferably to sample mixing effect in container, and container fixed placement is on bottom block 1.

In the present embodiment, the hole shape opened up on the first porous paddle 34 and the second porous paddle 132 is different, The hole opened up on first porous paddle 34 and the second porous paddle 132 is rounded, diamond shape, regular polygon or elliptical shape Deng.

The Physiology Experiment room dynamic regulation blender has following prominent characteristics:

1) whole device can be driven to go up and down by the first telescopic device 2, it is applied widely；

2) the main persistently rotation of stirring rod 14 can be driven by motor 9, the main mixing component 13 installed on main stirring rod 14 has Have preferably to sample mixing effect in container；

3) secondary stirring rod 4 can be driven to move up and down by the second telescopic device 7, and then controls bevel gear 15 and driven gear ring Whether the interior gear teeth 52 that 5 insides are arranged engage, and may make the rotation of secondary stirring rod 4 unaffected by rotary body 11；Driven When the interior gear teeth 52 of gear ring 5 are engaged with bevel gear 15, driving gear 10 drives driven gear ring 5 to rotate, and can drive secondary stirring simultaneously Bar 4 rotates, and has by the secondary mixing component 3 installed on secondary stirring rod 4 preferably to sample mixing effect in container；Driven When the interior gear teeth 52 of gear ring 5 are not engaged with bevel gear 15, driving gear 10 drives driven gear ring 5 to rotate, and is unable to drive pair at this time Stirring rod 4 rotates, and can carry out the selection control of secondary mixing component 3, realize dynamic agitation regulation, promote mixing effect and effect Rate.

The above are merely the preferred embodiment of the present invention, it is noted that for those skilled in the art, not Under the premise of being detached from present inventive concept, several modifications and improvements can also be made, these also should be considered as protection model of the invention It encloses, these all will not influence the effect and patent practicability that the present invention is implemented.

Claims (7)

1. a kind of Physiology Experiment room dynamic regulation blender, including bottom block (1), secondary mixing component (3), motor (9) and Main mixing component (13), which is characterized in that the cylinder body of first telescopic device (2) is mounted on bottom block (1), and first The upper end of telescopic device (2) is mounted with level frame (8), is mounted with electricity on the downside motor cabinet of the level frame (8) The downside output shaft of machine (9), motor (9) is connect with main stirring rod (14), and the external circumferential of the main stirring rod (14) is provided with Multiple pair stirring rods (4), the pair stirring rod (4) is driven by main stirring rod (14) to be rotated, secondary stirring rod (4) and main stirring rod (14) circumferential respectively on that multiple secondary mixing components (3) and main mixing component (13) are installed；

The top of the main stirring rod (14) is mounted with driving gear (10), and the top of secondary stirring rod (4) is provided with support Cylinder (12) is provided with support frame (6) on the outside of support tube (12), and the upper end of support frame (6) is fixed on level frame (8), described It is mounted on the upside of support tube (12) driven gear ring (5), the pair stirring rod (4) is from support tube (12) and driven gear ring (5) it passes through, the upper end of the pair stirring rod (4) is connect by rotary body (11) with the second telescopic device (7), the second telescopic device (7) cylinder body is fixed on level frame (8), and the outside of the driven gear ring (5), which is equipped with, engages connection with driving gear (10) External gear teeth (51) offers cone tank (53) on the inside of the driven gear ring (5), is provided with lubrication groove on the inner wall of cone tank (53) Tooth (52), the bevel gear (15) connected can engage with the interior gear teeth (52) by being also mounted on pair stirring rod (4).

2. Physiology Experiment room dynamic regulation blender according to claim 1, which is characterized in that support frame as described above It (6) is rotation connection between support tube (12).

3. Physiology Experiment room dynamic regulation blender according to claim 1 or 2, which is characterized in that the pair is stirred It mixes and is slidably connected between bar (4) and support tube (12) and driven gear ring (5) for cooperation, and secondary stirring rod (4) being capable of opposite support Cylinder (12) and driven gear ring (5) rotation.

4. Physiology Experiment room dynamic regulation blender according to claim 3, which is characterized in that the pair stirring group Part (3) includes the upper stirring rod (31) and lower stirring rod (32) being fixed on secondary stirring rod (4), upper stirring rod (31) and lower stirring Middle part between bar (32) is provided with the elliptical first porous paddle (34), and up and down the two of the first porous paddle (34) End is connect by spring (33) with upper stirring rod (31) and lower stirring rod (32) respectively.

5. Physiology Experiment room dynamic regulation blender according to claim 4, which is characterized in that the upper stirring rod (31) it is arranged in parallel with lower stirring rod (32), and upper stirring rod (31) and lower stirring rod (32) are that downward 12 ° of outer end is obliquely installed.

6. Physiology Experiment room dynamic regulation blender according to claim 5, which is characterized in that the main stirring group Part (13) includes the stirring ring (131) for two semi-annular shapes being fixedly installed on main stirring rod (14), two stirring rings (131) Outside be mounted with the porous paddle of rectangular-shaped second (132).

7. Physiology Experiment room dynamic regulation blender according to claim 6, which is characterized in that described first is porous The hole shape opened up on paddle (34) and the second porous paddle (132) is different, the first porous paddle (34) and more than second The hole opened up on hole paddle (132) is rounded, diamond shape, regular polygon or elliptical shape.