CN208839496U - A kind of oscillatory type blender - Google Patents

Abstract

The utility model relates to a kind of oscillatory type blenders.The blender includes driving mechanism, two agitating shafts and stirring cylinder body；Two agitating shafts are arranged in parallel in a mixing bowl body, and one end of two agitating shafts is extended a mixing bowl in vitro and connect with driving mechanism；It is vertically fixed at least one mixing arm on every agitating shaft, is equipped with stirring blade on each mixing arm；The other end of two agitating shafts extends a mixing bowl in vitro and is respectively connected with mechnical oscillator；Mechnical oscillator includes shell, vibration motor, transmission mechanism, two mass eccentricity blocks and two transmission shafts；Vibration motor respectively drives two mass eccentricity block rotating Vortexes by transmission mechanism and transmission shaft, and agitating shaft is made to generate the higher-order of oscillation.Whipping process agitating shaft will not leave its center and move itself, vibration processes agitating shaft will not run-off the straight, not only ensure the overall performance of mixture, while also reducing the damage of agitating shaft and other power devices.

Description

A kind of oscillatory type blender

Technical field

The utility model relates to a kind of mixture Mixing Machines, and in particular to a kind of oscillatory type blender.

Background technique

The function of blender is prepared various materials in proportion to be mixed by stirring into uniform, and meets quality and wants The mixture asked.Currently used blender is generally divided into traditional type blender and oscillatory type blender.Traditional type blender is Material is sheared using the agitating shaft and its blade of rotation, is squeezed, stirs and makes the positive actions such as its rolling, convection current, so that Material is in relatively violent movement, and uniform mix is obtained in dynamic.Therefore, forced mixer be building trade with Road construction industry produces the main type of cement concrete, cement stabilized soil, asphalt.

Although traditional type Mixing Machine can produce relatively good mixture, microcosmic above there are still uneven existing As prevent the performance of material is from being not fully exerted.Its mechanism is described below:

A, for cement class mixture, cement mortar in cement concrete, microcosmic upper analysis still has 10%- There are adhesive aggregation clustering phenomenas for 30% cement granules, can still find more " cement granule " under the microscope.

B, for asphalt, in addition to bitumen, aggregate is made of coarse aggregate, fine aggregate, powder etc..Coarse aggregate Surface is relatively easily wrapped up in by pitch attached, and the surface of fine aggregate and powder is under general stirring action, then be difficult to be wrapped up in completely it is attached, It is difficult to form high performance pitch cementing material, thus reduces the cementation between coarse aggregate.

In order to solve the above technical problems, occurring following two Vibratory Mixing mode in recent years, it is mainly characterized in that:

1, on the basis of traditional forced mixer, in one end of agitating shaft (hollow or solid), a bias is connected Bearing holder (housing, cover), eccentric shaft bearing sleeve, so that agitating shaft be made to generate circular motion, realize mixture by motor driven, high speed rotation Vibratory Mixing.

2, on the basis of traditional forced mixer, by the stirring bearing block of agitating shaft both ends or one end, it is mounted on one On a floating frame, floating frame is connected using damper with rack.In the upper plane of floating frame or side installation vibration electricity Machine or other vibration excitors.When work, frame drives agitating shaft to vibrate together, to realize Vibratory Mixing.

When the common feature of this vibration stirring device is Vibratory Mixing, agitating shaft includes stirring blade, vibration when from Opened original installation center line, this just inevitably there arises a problem that

A, oscillating mass is big, needs biggish oscillation power；

B, stirring bearing load is excessive when vibrating, and especially shaft end is rotary, the inclined movement of agitating shaft, to bearing load It is more unfavorable, reduce part service life；

C, it when Vibratory Mixing, is moved since agitating shaft has left former center, will lead to agitating shaft power connector (shaft coupling Device) additional stress, acceleration components destroy；

D, it when vibrating work, since oscillating mass deviates, causes complete machine oscillation excessive, is degrading construction site.This dress It sets and installs damping block additional mostly to reduce complete machine oscillation, but be extremely difficult to ideal effect.

Utility model content

The purpose of the utility model is to overcome the deficiencies in the prior art, provide a kind of oscillatory type blender, when work Stirring axial terminal can apply higher-order of oscillation torque, realize oscillation stirring, and whipping process agitating shaft will not leave its center and move itself, Agitating shaft will not run-off the straight, not only ensure the overall performance of mixture, at the same decrease whipping process to agitating shaft with And the damage of other power devices.

In order to achieve the above object, the technical solution of the utility model and principle are as follows:

A kind of oscillatory type blender, including driving mechanism, two agitating shafts and stirring cylinder body；Two agitating shafts are set in parallel It sets in a mixing bowl body, and one end of two agitating shafts is extended a mixing bowl in vitro and connect with driving mechanism；Every stirring It is vertically fixed at least one mixing arm on axis, is equipped with stirring blade on each mixing arm；

It is characterized in that:

The other end of two agitating shafts extends a mixing bowl in vitro and is respectively connected with mechnical oscillator；

Mechnical oscillator includes shell, vibration motor, transmission mechanism, two mass eccentricity blocks and two transmission shafts；

Shell includes connecing disk, center disc before being fixedly connected sequentially and being followed by disk；

Before connect disk and be fixedly connected with the agitating shaft, the output shaft of vibration motor, which passes through, is followed by disk and the transmission mechanism connects It connects；

Two transmission shafts are symmetrical arranged centered on vibration motor output shaft；

Transmission shaft one end by bearing with before connect disk and connect, the other end is connect after center disc with transmission mechanism；

Two mass eccentricity blocks are separately mounted on two transmission shafts, and the output axial symmetry relative to vibration motor is set It sets；

Vibration motor respectively drives two mass eccentricity block rotating Vortexes by transmission mechanism and transmission shaft, produces agitating shaft The raw higher-order of oscillation.

Further, above-mentioned transmission mechanism is belt gear comprising the active with vibration motor output axis connection Belt wheel is driven two driven pulleys of axis connection with two and the power of driving pulley is transferred to the same of two driven pulleys Walk toothed belt.

Further, above-mentioned transmission mechanism is gear drive comprising the active with vibration motor output axis connection Gear, the driven gear for engaging and being separately mounted on two transmission shafts with driving gear.

Further, for above-mentioned vibration motor by Frequency Converter Control, its object is to be changed by frequency converter through oscillation electricity The revolving speed of machine is required to change the frequency of oscillation of mechnical oscillator with adapting to different stirring materials to the difference of frequency.

The utility model additionally provides second of oscillatory type blender structure, including driving mechanism, two agitating shafts and Stir cylinder body；Two agitating shafts are arranged in parallel in a mixing bowl body, and to extend a mixing bowl external for one end of two agitating shafts And it is connect with driving mechanism；It is vertically fixed at least one mixing arm on every agitating shaft, is equipped with and stirs on each mixing arm Mix blade；

It is characterized in that:

The other end of two agitating shafts extends a mixing bowl in vitro and is respectively connected with mechnical oscillator；

Mechnical oscillator includes shell, support, connecting shaft, transmission mechanism, two mass eccentricity blocks and two transmission shafts；

Shell includes connecing disk, center disc before being fixedly connected sequentially and being followed by disk；

Transmission mechanism includes gear wheel and two pinion gears engaged respectively with gear wheel；

Before connect disk and be fixedly connected with the agitating shaft；One end of the connecting shaft passes through the bearing that is followed by disk is set after with support It is fixedly connected, the other end is supported by setting in center disc upper bearing (metal) after fixing with the gear wheel；

Two transmission shafts are symmetrical arranged centered on connecting shaft；

Transmission shaft one end by bearing with before connect disk and connect, the other end is connect after center disc with the pinion gear；

Two mass eccentricity blocks are separately mounted on two transmission shafts, and are symmetrical arranged relative to connecting shaft；

The rotation of agitating shaft drive shell drives two mass eccentricity blocks to revolve in the same direction by two pinion gears of canine tooth wheel drive Turn, so that agitating shaft be made to generate oscillation.

Since the rotary power of mass eccentricity block in second of structure is that agitating shaft provides, revolving speed and frequency are by stirring The speed of agitator of axis determines, in order to which revolving speed changes when mass eccentricity block being enable to rotate, the utility model additionally provides the Three kinds of oscillatory type blender structures comprising driving mechanism, two agitating shafts and stirring cylinder body；Two agitating shafts are arranged in parallel In a mixing bowl body, and one end of two agitating shafts is extended a mixing bowl in vitro and is connect with driving mechanism；Every agitating shaft On be vertically fixed at least one mixing arm, be equipped with stirring blade on each mixing arm；

It is characterized in that: the other end of two agitating shafts extends a mixing bowl in vitro and is respectively connected with mechanical oscillation Device；

Mechnical oscillator includes shell, support, connecting shaft, transmission mechanism, two mass eccentricity blocks, two first transmission shafts And two second driving shafts；

Shell includes connecing disk, center disc before being fixedly connected sequentially and being followed by disk；

Transmission mechanism includes one-stage gear transmission mechanism and second belt transmission mechanism；

One-stage gear transmission mechanism includes gear wheel and two pinion gears engaged respectively with gear wheel；

Second belt transmission mechanism include two big belt wheels, two small pulleys and two the first transmission belts, described first Transmission belt is synchronous toothed belt；

Before connect disk and be fixedly connected with the agitating shaft；One end of the connecting shaft passes through the bearing that is followed by disk is set after with support It is fixedly connected, the other end is supported by setting in center disc upper bearing (metal) after fixing with the gear wheel；

Two first transmission shafts and two second driving shafts are alternately arranged in a circumferential direction, and two first transmission shafts with It is symmetrical arranged centered on connecting shaft, two second driving shafts are symmetrical arranged centered on connecting shaft；

First transmission shaft one end by bearing with before connect disk and connect, the other end after center disc with small pulley company It connects；

Second driving shaft one end by bearing with before connect disk and connect, big belt wheel is mounted side by side after center disc in the other end And pinion gear；

Small pulley and big belt wheel pass through the first transmission band connection；

Two mass eccentricity blocks are separately mounted on two first transmission shafts, and are symmetrical arranged relative to connecting shaft.

On the basis of above-mentioned three kinds of structure type, the utility model is also made that following optimization design:

Further, the mass eccentricity block on each transmission shaft or each first transmission shaft by being installed on transmission side by side Two panels eccentric block composition on axis or the first transmission shaft can be by rotating two panels eccentric block or one at assembly initial stage simultaneously Piece eccentric block is motionless, and the mode of another eccentric block rotation can make entire eccentric mass change.

Further, due in the course of work shell be in rotation status always, in order to ensure safety, and guarantee equipment Good appearance, above-mentioned blender further include be fixedly mounted on stirring cylinder ends shield；The shell is located at shield Interior, vibration motor is mounted on outside shield or support is arranged outside shield.

The beneficial effects of the utility model are:

1, the utility model, which is used, is arranged mechnical oscillator far from one end of driving mechanism in agitating shaft, passes through mechanical oscillation Mass eccentricity block rotation in device generates the higher-order of oscillation, and so as to apply oscillation torque to agitating shaft, whipping process agitating shaft is certainly Body will not leave its center and move, only around agitating shaft center oscillation, agitating shaft will not run-off the straight, not only ensure mixing The overall performance of material, while damage of the whipping process to agitating shaft and other power devices is decreased, it substantially increases and sets Standby reliability, improves ambient vibration and noise, and the oscillation power needed decreases compared with the prior art.

2, the utility model clamps two panels mass eccentricity block side by side on each transmission shaft, at assembly initial stage, passes through It reversely rotates two mass eccentricity blocks simultaneously or a mass eccentricity block is motionless, the mode of another mass eccentricity block rotation, Entire eccentric mass can be allowed to be adjusted from maximum position to minimum position, it is more adaptable.

3, the utility model increases shield in hull outside, it can be ensured that the safety of construction, and guarantee the outer of equipment Shape is beautiful, and vibration motor is mounted on outside shield, can also save installation space.

Detailed description of the invention

Fig. 1 is the structure principle chart of the utility model blender；

Fig. 2 is the cross-sectional view of mechnical oscillator when transmission mechanism is belt transmission in embodiment 1；

Fig. 3 is the cross-sectional view of mechnical oscillator when transmission mechanism is gear drive in embodiment 1；

Fig. 4 is oscillation torque and mass eccentricity block rotary phase relation schematic diagram；

Fig. 5 is the structure principle chart of the embodiment 2 of mechnical oscillator；

Fig. 6 is the A of Fig. 5 to cross-sectional view；

Fig. 7 is the structure principle chart of the embodiment 3 of mechnical oscillator；

Fig. 8 is the A of Fig. 7 to cross-sectional view；

Fig. 9 is the structural schematic diagram for installing shield on the shell of mechnical oscillator additional；

The schematic diagram that Figure 10 is mass eccentricity block when being maximum eccentric position；

The schematic diagram that Figure 11 is mass eccentricity block when being minimum eccentric position.

Appended drawing reference is as follows:

1- stirring cylinder body, 2- agitating shaft, 3- mixing arm, 4- stirring blade, 5- bearing block, 6- bearing, 7- motor, 8- subtract Connect before fast machine, 9- transmission belt, the semi-rigid shaft coupling of 10-, 11- mechnical oscillator, 12- shell, 121- disk, 122- center disc, 123- be followed by disk, 13- vibration motor, 14- transmission mechanism, 141- driven pulley, 142- driving pulley, 143- synchronous toothed belt, 144- driving gear, 145- driven gear, 146- gear wheel, 147- pinion gear, 148- big belt wheel, 149- small pulley, 150- One transmission belt, 15- mass eccentricity block, 16- transmission shaft, 17- support, 18- connecting shaft, the first transmission shaft of 19-, 20- second are driven Axis, 21- shield.

Specific embodiment

With reference to the accompanying drawing, the utility model is described in further detail.

As shown in Figure 1, a kind of oscillatory type blender, including stirring 1, two parallel agitating shaft 2 of cylinder body and its is mounted on Mixing arm 3 and stirring blade 4 on agitating shaft 2.The both ends of agitating shaft 2 are supported on bearing block 5 and bearing 6, two groups of motors 7 It is the driving mechanism of stirring power with speed reducer 8 and its transmission belt 9.Semi-rigid shaft coupling 10 transmits stirring power, has certain Slow down dynamic impact and absorbs certain oscillatory surge effect.Agitating shaft 2 passes through elasticity by stirring 1 both ends orifice plate of cylinder body Sealing device sealing, and there are certain gaps for end plate bore and stirring between centers, rub to avoid agitating shaft 2 and stirring cylinder body 1.

Two mechnical oscillators 11 are separately mounted to the other end of two agitating shaft power input.Its design principle is: stirring Its center will not be left and move by mixing process agitating shaft itself, and only around agitating shaft center oscillation, agitating shaft will not run-off the straight.

The utility model provides following three kinds of structure type according to the working principle of mechnical oscillator:

Embodiment 1

As shown in Fig. 2, mechnical oscillator 11 includes shell 12,14, two vibration motor 13, transmission mechanism mass eccentricity blocks 15 and two transmission shafts 16；

Shell 12 includes connecing disk 121, center disc 122 before being fixedly connected sequentially and being followed by disk 123；It needs to illustrate It is: it is preceding to connect disk 121, center disc 122 and be followed by disk 123 after connection, form two installation chambers.

Before connect disk 121 and be fixedly connected with (in this example using key connection by the way of) with the agitating shaft 2, vibration motor 13 it is defeated Shaft passes through and is followed by disk 123 and connect with the transmission mechanism 14；

Two transmission shafts 16 are symmetrical arranged centered on 13 output shaft of vibration motor；

16 one end of transmission shaft is connect by bearing with disk 121 is before connect, the other end after center disc 122 with transmission mechanism 14 connections；Transmission mechanism is located at center disc 122 and is followed by the installation cavity room formed between disk 123.

Two mass eccentricity blocks 15 are separately mounted on two transmission shafts 16, and the output shaft pair relative to vibration motor 13 Claim setting；Two mass eccentricity blocks 15 connect in the installation cavity room formed between disk 121, center disc 122 before being respectively positioned on；

Vibration motor 13 respectively drives two 15 rotating Vortexes of mass eccentricity block by transmission mechanism 14 and transmission shaft 16, makes Agitating shaft 2 generates the higher-order of oscillation.The frequency of vibration motor 13 can be changed by attached with frequency converters.

In this embodiment, transmission mechanism 14 is belt gear comprising the master with vibration motor output axis connection Movable belt pulley 141, two driven pulleys 142 connecting with two transmission shafts 16 and the power of driving pulley 141 is transferred to two The synchronous toothed belt 143 of a driven pulley 142.

In addition, gear drive also can be used in transmission mechanism 14, as shown in Figure 3 comprising exported with vibration motor 13 The driving gear 144 of axis connection, the driven gear 145 for engaging and being separately mounted on two transmission shafts 16 with driving gear 144.

The size for vibrating torque is related with structural parameters, and mass eccentricity block rotates in oscillation moment variations and mechnical oscillator Phase angle is related, referring to fig. 4.

The material and transmission system component of frequency of oscillation and mix have certain relationship, can field calibration it is preferred, generally take 18-25Hz。

The device frequency of oscillation can adjust vibration motor revolving speed by frequency converter, and motor speed is determined by formula 1:

n_d=f_z×50+n_b (1)

In formula: n_d--- vibration motor revolving speed, r/min；

f_z--- frequency of oscillation, Hz；

n_b--- agitator shaft speed, r/min.

The device can also realize that traditional type stirs, it is clear that at this moment n_d=n_b。

Embodiment 2:

Compared with Example 1, its main feature is that mechnical oscillator structure is different, the latter eliminates vibration motor 13, main belt 141, driven pulley 142, synchronous toothed belt 143 are taken turns, substitution is with three gears, intermediate gear wheel and driving mass eccentricity Two pinion gears of block.The support of end is used holding up and to fix gear wheel, referring to figs. 5 and 6.

Mechnical oscillator 11 include shell 12, support 17, connecting shaft 18,14, two mass eccentricity blocks 15 of transmission mechanism with And two transmission shafts 16；

Shell 12 includes connecing disk 121, center disc 122 before being fixedly connected sequentially and being followed by disk 123；

Transmission mechanism 14 includes gear wheel 146 and two pinion gears 147 engaged respectively with gear wheel 146；

Before connect disk 121 and be fixedly connected with (in this example using key connection by the way of) with the agitating shaft 2；It wears 18 one end of connecting shaft Cross after the bearing for being arranged in and being followed by disk 123 and be fixedly connected with support 17 (connecting shaft is rectangular with support linkage section in this example, Compatible square hole therewith is set in support), the other end passes through after fixing with the gear wheel 146 and is arranged in center disc 122 Upper bearing (metal) support；

Two transmission shafts 16 are symmetrical arranged centered on connecting shaft 18；

16 one end of transmission shaft is connect by bearing with disk 121 is before connect, the other end after center disc 122 with the small tooth 147 connection of wheel；

Two mass eccentricity blocks 15 are separately mounted on two transmission shafts 16, and are symmetrical arranged relative to connecting shaft 18；

The rotation of 2 drive shell 12 of agitating shaft, drives gear wheel 146 to rotate, so that two pinion gears 147 of driving drive two 15 rotating Vortex of mass eccentricity block, so that agitating shaft be made to generate oscillation.

The device work when gear wheel it is motionless, the preceding disk that connects rotates under the drive of agitating shaft, pinion gear be driven and along Gear wheel carries out revolution and rotation, and mass eccentricity block rotates under the driving of pinion gear rotation, and vibrates torque for generating.Oscillation Frequency is related with agitator shaft speed and size gear ratio i, and frequency of oscillation is indicated by formula 2.

In formula:

f_z--- frequency of oscillation, Hz；

n_j--- agitator shaft speed, r/min；

I --- transmission ratio.

In order to reduce drive noise and improve transmission stability, usual pinion gear is using high-strength nylon material or other are non- Metal material production.

Embodiment 3:

Compared with Example 2, its main feature is that the revolving speed of mass eccentricity block is adjustable, the latter uses two gear-stage velocity ratios, the first order It is gear drive, the second level is belt transmission；

As shown in FIG. 7 and 8, mechnical oscillator includes 14, two shell 12, support 17, connecting shaft 18, transmission mechanism quality 15, two first transmission shafts 19 of eccentric block and two second driving shafts 20；

Shell 12 includes connecing disk 121, center disc 122 before being fixedly connected sequentially and being followed by disk 123；

Transmission mechanism 14 includes one-stage gear transmission mechanism and second belt transmission mechanism；

One-stage gear transmission mechanism includes gear wheel 146 and two pinion gears 147 engaging respectively with gear wheel 146；

Second belt transmission mechanism includes two big belt wheels, 148, two small pulleys 149 and two the first transmission belts 150, First transmission belt 150 is synchronous toothed belt；

Before connect disk 121 and be fixedly connected with the agitating shaft 2；18 one end of connecting shaft, which passes through, is arranged in the axis being followed by disk 123 It is fixedly connected after holding with support 17, the other end passes through after fixing with the gear wheel 146 and is arranged in 122 upper bearing (metal) of center disc Support；

Two first transmission shafts 19 and two second driving shafts 20 are alternately arranged in a circumferential direction, and two first transmissions Axis 19 is symmetrical arranged centered on connecting shaft 18, and two second driving shafts 20 are symmetrical arranged centered on connecting shaft 18；

First transmission shaft, 19 one end is connect by bearing with disk 121 is before connect, the other end after center disc 122 with it is described Small pulley 149 connects；

20 one end of second driving shaft is connect by bearing with disk 121 is before connect, and the other end is pacified side by side after passing through center disc 122 Fill big belt wheel 148 and pinion gear 147；

Small pulley 149 and big belt wheel 148 are connected by the first transmission belt 150；

Two mass eccentricity blocks 15 are separately mounted on two first transmission shafts 19, and are symmetrically set relative to connecting shaft 18 It sets.

Wherein, speed ratio is i in first order gear drive₁；Speed ratio is i in the transmission of second level belt₂, stirring working condition with Embodiment 2 is similar, and gear wheel is motionless when which works, and the preceding disk that connects rotates under the drive of agitating shaft, and pinion gear is driven simultaneously Along gear wheel carry out revolution and rotation, under the driving of pinion gear rotation big belt wheel rotate, big belt wheel drive small pulley to The rotation of mass eccentricity block is driven, and generates oscillation torque.Its frequency of oscillation is not only related with agitator shaft speed, and also and speed ratio i₁、i₂ It is related.Frequency of oscillation is indicated by formula 3.

The usual pinion gear of this example also uses high-strength nylon material to make.To reduce drive noise and improve stable drive Property.

On the basis of above three implements structure, following optimization design also can be used:

1, the shield 21 of stirring cylinder ends setting；Shell 12 is located in shield 21, vibration motor 13 or support 17 It is fixed on outside shield, referring to Fig. 9.

2, the mass eccentricity block on each transmission shaft or each first transmission shaft by being installed on transmission shaft or side by side Two panels eccentric block composition on one transmission shaft passes through on a transmission shaft at assembly initial stage while reversely rotating two panels bias Block or a piece of eccentric block are motionless, and the mode of another eccentric block rotation can make entire eccentric mass change.It is logical The angular displacement between two panels eccentric block is crossed, eccentric mass can be continuously regulated to eccentric mass minimum from eccentric mass maximum position Position, and can stop any position wherein, referring to Figure 10 and Figure 11.

Claims (12)

1. a kind of oscillatory type blender, including driving mechanism, two agitating shafts (2) and stirring cylinder body (1)；Two agitating shafts (2) be arranged in parallel in stirring cylinder body (1) in, and one end of two agitating shafts (2) extend stirring cylinder body (1) outside and with driving Mechanism connection；It is vertically fixed at least one mixing arm (3) on every agitating shaft (2), is equipped with and stirs on each mixing arm (3) Mix blade (4)；

It is characterized by:

The other end of two agitating shafts (2) extends stirring cylinder body (1) outside and is respectively connected with mechnical oscillator (11)；

Mechnical oscillator (11) include shell (12), vibration motor (13), transmission mechanism (14), two mass eccentricity blocks (15) with And two transmission shafts (16)；

Shell (12) includes connecing disk (121), center disc (122) before being fixedly connected sequentially and being followed by disk (123)；

Before connect disk (121) and be fixedly connected with the agitating shaft (2), the output shaft of vibration motor (13) pass through be followed by disk (123) with Transmission mechanism (14) connection；

Two transmission shafts (16) are symmetrical arranged centered on vibration motor (13) output shaft；

Transmission shaft (16) one end is connect by bearing with disk (121) is before connect, the other end across center disc (122) afterwards and driver Structure (14) connection；

Two mass eccentricity blocks (15) are separately mounted on two transmission shafts (16), and the output shaft relative to vibration motor (13) It is symmetrical arranged；

Vibration motor (13) respectively drives two mass eccentricity blocks (15) by transmission mechanism (14) and transmission shaft (16) and revolves in the same direction Turn, agitating shaft (2) is made to generate the higher-order of oscillation.

2. oscillatory type blender according to claim 1, it is characterised in that: the transmission mechanism is belt gear, It include with the driving pulley (142) of vibration motor (13) output axis connection, connect with two transmission shafts (16) two it is driven Belt wheel (141) and the synchronous toothed belt (143) that the power of driving pulley (142) is transferred to two driven pulleys (141).

3. oscillatory type blender according to claim 1, it is characterised in that: the transmission mechanism is gear drive, It includes engaging and being separately mounted to the driving gear (144) of vibration motor (13) output axis connection, with driving gear (144) Driven gear (145) on two transmission shafts (16).

4. oscillatory type blender according to claim 2 or 3, it is characterised in that: the quality on each transmission shaft (16) Eccentric block (15) is made of the two panels eccentric block being installed on transmission shaft side by side.

5. oscillatory type blender according to claim 4, it is characterised in that: further include being fixedly mounted on stirring cylinder body (1) The shield (21) of end；The shell (12) is located in shield (21), and vibration motor (13) is fixedly mounted on shield (21) external.

6. oscillatory type blender according to claim 5, it is characterised in that: the vibration motor (13) is by frequency converter control System.

7. a kind of oscillatory type blender, including driving mechanism, two agitating shafts (2) and stirring cylinder body (1)；Two agitating shafts (2) be arranged in parallel in stirring cylinder body (1) in, and one end of two agitating shafts (2) extend stirring cylinder body (1) outside and with driving Mechanism connection；It is vertically fixed at least one mixing arm (3) on every agitating shaft (2), is equipped with and stirs on each mixing arm (3) Mix blade (4)；

It is characterized by: the other end of two agitating shafts (2) extends stirring cylinder body (1) outside and is respectively connected with mechanical vibration Swing device (11)；

Mechnical oscillator (11) includes shell (12), support (17), connecting shaft (18), transmission mechanism (14), two mass eccentricities Block (15) and two transmission shafts (16)；

Shell (12) includes connecing disk (121), center disc (122) before being fixedly connected sequentially and being followed by disk (123)；

Transmission mechanism (14) includes gear wheel (146) and two pinion gears (147) engaging respectively with gear wheel (146)；

Before connect disk (121) and be fixedly connected with the agitating shaft (2)；Connecting shaft (18) one end, which passes through, to be arranged on being followed by disk (123) Bearing after be fixedly connected with support (17), by being arranged in center disc after the other end and the gear wheel (146) are fixed (122) upper bearing (metal) supports；

Two transmission shafts (16) are symmetrical arranged centered on connecting shaft (18)；

Transmission shaft (16) one end is connect by bearing with disk (121) is before connect, the other end across center disc (122) afterwards with it is described small Gear (147) connection；

Two mass eccentricity blocks (15) are separately mounted on two transmission shafts (16), and are symmetrical arranged relative to connecting shaft (18)；

Agitating shaft (2) drive shell (12) rotation drives two pinion gears (147) to drive two quality by gear wheel (146) Eccentric block (15) rotating Vortex, so that agitating shaft (2) be made to generate oscillation.

8. oscillatory type blender according to claim 7, it is characterised in that:

Mass eccentricity block (15) on each transmission shaft (16) is made of the two panels eccentric block being installed on transmission shaft side by side.

9. oscillatory type blender according to claim 8, it is characterised in that: further include being fixedly mounted on stirring cylinder body (1) The shield (21) of end；The shell (12) is located in shield (21), and support (17) setting is external in shield (21).

10. a kind of oscillatory type blender, including driving mechanism, two agitating shafts (2) and stirring cylinder body (1)；Two agitating shafts (2) be arranged in parallel in stirring cylinder body (1) in, and one end of two agitating shafts (2) extend stirring cylinder body (1) outside and with driving Mechanism connection；It is vertically fixed at least one mixing arm (3) on every agitating shaft (2), is equipped with and stirs on each mixing arm (3) Mix blade (4)；

It is characterized by: the other end of two agitating shafts (2) extends stirring cylinder body (1) outside and is respectively connected with mechanical vibration Swing device (11)；

Mechnical oscillator includes shell (12), support (17), connecting shaft (18), transmission mechanism (14), two mass eccentricity blocks (15), two first transmission shafts (19) and two second driving shafts (20)；

Shell (12) includes connecing disk (121), center disc (122) before being fixedly connected sequentially and being followed by disk (123)；

Transmission mechanism includes one-stage gear transmission mechanism and second belt transmission mechanism；

One-stage gear transmission mechanism includes gear wheel (146) and two pinion gears engaging respectively with gear wheel (146) (147)；

Second belt transmission mechanism includes two big belt wheels (148), two small pulleys (149) and two the first transmission belts (150), first transmission belt (150) is synchronous toothed belt；

Before connect disk (121) and be fixedly connected with the agitating shaft (2)；Connecting shaft (18) one end, which passes through, to be arranged on being followed by disk (123) Bearing after be fixedly connected with support (17), by being arranged in center disc after the other end and the gear wheel (146) are fixed (122) upper bearing (metal) supports；

Two first transmission shaft (19) He Lianggen second driving shafts (20) are alternately arranged in a circumferential direction, and two first transmissions Axis (19) is symmetrical arranged centered on connecting shaft (18), and two second driving shafts (20) are symmetrically set centered on connecting shaft (18) It sets；

First transmission shaft (19) one end is connect by bearing with disk (121) is before connect, the other end across center disc (122) afterwards and institute State small pulley (149) connection；

Second driving shaft (20) one end is connect by bearing with disk (121) is before connect, the other end after center disc (122) side by side Big belt wheel (148) and pinion gear (147) are installed；

Small pulley (149) and big belt wheel (148) are connected by the first transmission belt (150)；

Two mass eccentricity blocks (15) are separately mounted on two first transmission shafts (19), and symmetrically set relative to connecting shaft (18) It sets.

11. oscillatory type blender according to claim 10, it is characterised in that: the matter on each first transmission shaft (19) Amount eccentric block (15) is made of the two panels eccentric block being installed on the first transmission shaft (19) side by side.

12. oscillatory type blender according to claim 11, it is characterised in that: further include being fixedly mounted on stirring cylinder body (1) shield (21) of end；The shell (12) is located in shield (21), support (17) setting shield (21) outside Portion.