CN204816790U - Two plastid vibration mills of dual -frenquency excitation - Google Patents

Abstract

The utility model discloses a two plastid vibration mills of dual -frenquency excitation, including last plastid, master vibration spring and lower plastid, last plastid comprises exciting motor, a mill section of thick bamboo and last plastid body, exciting motor is including closely resonate exciting motor and high frequency exciting motor, closely resonate exciting motor grind a section of thick bamboo with high frequency exciting motor sets gradually on the horizontal direction and fixed mounting is in go up on the upper plate of plastid body, the one end of grinding a section of thick bamboo with the exciting motor that closely resonates is connected, the other end with the high frequency exciting motor be connected, the plastid passes through down master vibration spring with go up the plastid and be connected, just go up plastid, master vibration spring and the plastid sets gradually in the vertical direction down, the plastid passes through down master vibration spring with the lower plate of going up the plastid body is connected. Exciting motor through different exciting frequency can produce good strong and large amplitude simultaneously to obtain the just thinner super little powder particle of granularity that the granule distributes and concentrates.

Description

Double frequency excitation double-mass vibrating grinds

Technical field

The utility model belongs to technical field of chemical, relates to a kind of vibromill, particularly a kind of double frequency excitation double-mass vibrating mill.

Background technology

Existing vibromill is generally made up of shock electric machine, cylindrical shell, spring etc., and shock electric machine is single-frequency exciting at synchronization, even many shock electric machines vibromill is also designed to synchronous vibration.The ultra micro grinding technical method of vibromill generally has two: one to be large amplitude, low shake strong; Two is little amplitudes, Gao Zhenqiang.Large amplitude is conducive to the performance of abrasive action, the large granule of specific area can be allowed to obtain more energy, the defect of powder granule inside is constantly aggravated by fatigue effect repeatedly, thus further refinement powder granule, but the powder granule obtained distribution comparatively disperses; Gao Zhenqiang then mainly utilizes percussion, and percussion has contingency, and bulky grain is more easily impacted, and can generate new defect after powder granule is crashed to pieces in new granule interior.But single-frequency exciting can only provide a kind of vibrating effect at synchronization.

Therefore, be necessary to develop a kind of structure simple and the double frequency excitation double-mass vibrating mill of two kinds of vibrating effects can be exported simultaneously.

Utility model content

The technical problems to be solved in the utility model is, provides that a kind of structure is simple, technique is simple and can exports the double frequency excitation double-mass vibrating mill of two kinds of vibrating effects simultaneously.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: this double frequency excitation double-mass vibrating mill comprises plastid, main vibration spring and lower plastid, described upper plastid is by shock electric machine, mill tube and upper plastid body are formed, described shock electric machine comprises Near resonance oscillating shock electric machine and high-frequency excitation motor, described Near resonance oscillating shock electric machine, described mill tube and described high-frequency excitation motor set gradually in the horizontal direction and are fixedly mounted on the upper plate of described upper plastid body, one end of described mill tube is connected with described Near resonance oscillating shock electric machine, the other end is connected with described high-frequency excitation motor, described lower plastid is connected with described upper plastid by described main vibration spring, and described upper plastid, main vibration spring and described lower plastid set gradually in vertical direction, described lower plastid is connected by the lower shoe of described main vibration spring with described upper plastid body.

In technique scheme, this double frequency excitation double-mass vibrating mill is by be made up of the shock electric machine of two different excited frequencies and two shock electric machines are connected to the two ends of mill tube, wherein Near resonance oscillating shock electric machine can produce large amplitude low shake strong, and high-frequency excitation motor can produce little amplitude Gao Zhenqiang, it can be that vibromill produces good strong and large amplitude simultaneously that these two kinds of shock electric machines use simultaneously; Large amplitude is conducive to the performance of abrasive action, the large granule of specific area can be allowed to obtain more energy, the defect of powder granule inside is constantly aggravated by fatigue effect repeatedly, thus further refinement powder granule, but the powder granule obtained distribution comparatively disperses; Gao Zhenqiang then mainly utilizes percussion, and percussion has contingency, and bulky grain is more easily impacted, and can generate new defect after powder granule is crashed to pieces in new granule interior; This double frequency excitation double-mass vibrating mill large amplitude good pretend with under can obtain distribution of particles comparatively concentrate and the ultrafine powder particle that granularity is thinner; Be connected by flexible member between the upper plastid be made up of with mill tube and shock electric machine upper plastid body again with lower plastid, plastid and lower plastid can be made so in use to have different amplitudes and shake strong, thus improving mill tube to the impact of powder granule and abrasive action, double mass structure effectively can slow down the transmission of upper mass vibrating to ground simultaneously.

Further improvement is, the lower end of described lower plastid is installed with isolation spring.Arranging like this can slow down the transmission of upper mass vibrating to ground.

Further improvement is, described main vibration spring internal fixtion is provided with lead.The transmission of upper mass vibrating to ground can be slowed down further.

Further improvement is, described mill tube comprises cylindrical shell and cover, and described cylindrical shell comprises urceolus and inner core, and described inner core is set in described urceolus, the side on the top of described cover and described urceolus by cut with scissors buckle hinged.Like this powder that can conveniently pick and place better in mill tube is set.

Further improvement is, the lower seat of described isolation spring is fixed on ground.

Further improvement is, the excited frequency of described high-frequency excitation motor is more than ten times of the excited frequency of described Near resonance oscillating shock electric machine.The shock electric machine of so different excited frequency can produce good strong and large amplitude simultaneously, thus is conducive to obtaining that distribution of particles is comparatively concentrated and the ultrafine powder particle that granularity is thinner.

Further improvement is, the intrinsic frequency of the vertical direction of the system that the excited frequency of described Near resonance oscillating shock electric machine and double frequency excitation double-mass vibrating grind is close.In the course of the work, the excited frequency of Near resonance oscillating shock electric machine can and the double frequency excitation double-mass vibrating intrinsic frequency of the vertical direction of system of grinding be more or less the same, difference is at ± 5r/min.

As preferred version of the present utility model, the quality of described upper plastid is 180 ~ 210Kg.

As preferred version of the present utility model, lateral stiffness and the axial rigidity of described main vibration spring are 160 ~ 165KN/m.

As preferred version of the present utility model, during this double frequency excitation double-mass vibrating mill steady operation, the excited frequency of described Near resonance oscillating shock electric machine is 290 ~ 300r/min; The excited frequency of described high-frequency excitation motor is 2900 ~ 3000r/min; The vibration displacement of the vertical direction of this double frequency excitation double-mass vibrating mill is 10 ~ 12mm, shakes and is at least 18 by force.

The utility model beneficial effect is compared with prior art: a kind of double frequency excitation double-mass vibrating mill that the utility model provides, and wherein shock electric machine is made up of the motor of two different excited frequencies; Near resonance oscillating shock electric machine can produce that large amplitude is low to shake strong, and high-frequency excitation motor can produce little amplitude Gao Zhenqiang, these two kinds of shock electric machines use simultaneously can be vibromill produce simultaneously good by force and large amplitude; Large amplitude is conducive to the performance of abrasive action, the large granule of specific area can be allowed to obtain more energy, the defect of powder granule inside is constantly aggravated by fatigue effect repeatedly, thus further refinement powder granule, but the powder granule obtained distribution comparatively disperses; Gao Zhenqiang then mainly utilizes percussion, and percussion has contingency, and bulky grain is more easily impacted, and can generate new defect after powder granule is crashed to pieces in new granule interior; Vibromill large amplitude good pretend with under can obtain distribution of particles comparatively concentrate and the ultrafine powder particle that granularity is thinner; Double mass structure makes this double frequency excitation double-mass vibrating mill effectively can slow down the transmission of upper mass vibrating to ground simultaneously.

Accompanying drawing explanation

Further describe below in conjunction with accompanying drawing and embodiment of the present utility model:

Fig. 1 is the structural representation of the utility model double frequency excitation double-mass vibrating mill;

Wherein: 1-isolation spring; Plastid under 2-; 3-main vibration spring; 4-lead; 5-Near resonance oscillating shock electric machine; 6-mill tube; 7-high-frequency excitation motor; The upper plastid body of 8-.

Detailed description of the invention

Embodiment one: as shown in Figure 1, this double frequency excitation double-mass vibrating mill comprises plastid, main vibration spring 3 and lower plastid 2, upper plastid is made up of shock electric machine, mill tube 6 and upper plastid body 8, shock electric machine comprises Near resonance oscillating shock electric machine 5 and high-frequency excitation motor 7, Near resonance oscillating shock electric machine 5, mill tube 6 and high-frequency excitation motor 7 set gradually in the horizontal direction and are fixedly mounted on the upper plate of plastid body 8, one end of mill tube 6 is connected with Near resonance oscillating shock electric machine 5, and the other end is connected with high-frequency excitation motor 7; Lower plastid 2 is connected with upper plastid by main vibration spring 3, and upper plastid, main vibration spring 3 and lower plastid 2 set gradually in vertical direction, and lower plastid 2 is connected by the lower shoe of main vibration spring 3 with upper plastid body 8; The lower end of lower plastid 2 is installed with isolation spring 1; Main vibration spring 3 internal fixtion is provided with lead 4; Mill tube 6 comprises cylindrical shell and cover, and cylindrical shell comprises urceolus and inner core, and inner core is set in urceolus, the side on the top of cover and urceolus by cut with scissors buckle hinged; The lower seat of isolation spring 1 is fixed on ground; The excited frequency of high-frequency excitation motor 7 is ten times of the excited frequency of Near resonance oscillating shock electric machine 5; The intrinsic frequency of the vertical direction of the system that the excited frequency of Near resonance oscillating shock electric machine 5 and double frequency excitation double-mass vibrating grind is close; The quality of upper plastid is 200Kg; Lateral stiffness and the axial rigidity of main vibration spring 3 are 163KN/m; Near resonance oscillating shock electric machine 5 is 0.3kfm with the inclined block mass-radius product of high-frequency excitation motor 7 and the product of inclined block quality and eccentric throw, and during this double frequency excitation double-mass vibrating mill steady operation, the excited frequency of Near resonance oscillating shock electric machine is 290r/min; The excited frequency of high-frequency excitation motor is 2900r/min; Due to the coupling of master, isolation spring, the vibration displacement of vertical direction after vibromill steady operation, the large amplitude that reflection mill tube has, can reach 12mm; The vibration acceleration of vertical direction after vibromill steady operation, it is by force good that reflection mill tube has, and shakes and can reach 18 by force.

Above-described specific embodiment, further describes the purpose of this utility model, technical scheme and beneficial effect, and institute it should be understood that and the foregoing is only specific embodiment of the utility model, is not limited to the utility model; All within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a double frequency excitation double-mass vibrating mill, it is characterized in that, comprise plastid, main vibration spring and lower plastid, described upper plastid is made up of shock electric machine, mill tube and upper plastid body, described shock electric machine comprises Near resonance oscillating shock electric machine and high-frequency excitation motor, described Near resonance oscillating shock electric machine, described mill tube and described high-frequency excitation motor set gradually in the horizontal direction and are fixedly mounted on the upper plate of described upper plastid body, one end of described mill tube is connected with described Near resonance oscillating shock electric machine, and the other end is connected with described high-frequency excitation motor; Described lower plastid is connected with described upper plastid by described main vibration spring, and described upper plastid, main vibration spring and described lower plastid set gradually in vertical direction; Described lower plastid is connected by the lower shoe of described main vibration spring with described upper plastid body.

2. double frequency excitation double-mass vibrating mill according to claim 1, it is characterized in that, the lower end of described lower plastid is installed with isolation spring.

3. double frequency excitation double-mass vibrating mill according to claim 1, it is characterized in that, described main vibration spring internal fixtion is provided with lead.

4. the double frequency excitation double-mass vibrating mill according to Claims 2 or 3, it is characterized in that, described mill tube comprises cylindrical shell and cover, and described cylindrical shell comprises urceolus and inner core, described inner core is set in described urceolus, the side on the top of described cover and described urceolus by cut with scissors buckle hinged.

5. double frequency excitation double-mass vibrating mill according to claim 2, it is characterized in that, the lower seat of described isolation spring is fixed on ground.

6. double frequency excitation double-mass vibrating mill according to claim 2, it is characterized in that, it is characterized in that, the excited frequency of described high-frequency excitation motor is about ten times of the excited frequency of described Near resonance oscillating shock electric machine.

7. double frequency excitation double-mass vibrating mill according to claim 6, it is characterized in that, the intrinsic frequency of the vertical direction of the system that the excited frequency of described Near resonance oscillating shock electric machine and double frequency excitation double-mass vibrating grind is close.

8. double frequency excitation double-mass vibrating mill according to claim 7, it is characterized in that, the quality of described upper plastid is 180 ~ 210Kg.

9. double frequency excitation double-mass vibrating mill according to claim 8, it is characterized in that, lateral stiffness and the axial rigidity of described main vibration spring are 160 ~ 165KN/m.

10. double frequency excitation double-mass vibrating mill according to claim 8, is characterized in that, during this double frequency excitation double-mass vibrating mill steady operation, the excited frequency of described Near resonance oscillating shock electric machine is 290 ~ 300r/min; The excited frequency of described high-frequency excitation motor is 2900 ~ 3000r/min; The vibration displacement of this double frequency excitation double-mass vibrating mill vertical direction is 10 ~ 12mm, shakes and is at least 18 by force.