CN101811615A

CN101811615A - Electromagnetic-driven vibration conveyor

Info

Publication number: CN101811615A
Application number: CN 201010150496
Authority: CN
Inventors: 岳洪; 赵雷; 钟奉金
Original assignee: Harbin Boshi Automatic Equipment Co Ltd
Current assignee: Harbin Boshi Automatic Equipment Co Ltd
Priority date: 2010-04-20
Filing date: 2010-04-20
Publication date: 2010-08-25

Abstract

The invention relates to an electromagnetic-driven vibration conveyor suitable for the vibration conveying of scattered materials, aiming to solve the problems of high fault rate and nonadjustable frequency and amplitude of a traditional double-mass vibration conveyor. The electromagnetic-driven vibration conveyor comprises a conveying groove (1), a balance groove (3), a base (7), plate springs, electromagnets, armature irons, and the like, wherein the lower part of the front end of the conveying groove (1) is connected with the base (7) by the plate spring (13), the lower part of the rear end of the conveying groove (1) is connected with the base (7) by the plate spring (5), the balance groove (3) is arranged at the outer side of the conveying groove (1), the lower part of the front end of the balance groove (3) is connected with the base (7) by the plate spring (12), the lower part of the rear end of the balance groove (3) is connected with the base (7) by the plate spring (6), the armature iron (2) is arranged at the lower end in the middle of the conveying groove (1), the armature iron (4) is arranged at the lower end in the middle of the balance groove (3), and the electromagnets are respectively arranged at both sides of either armature iron and fixed on the base (7). By the mutual action between the electromagnets and the armature irons, non-contact driving is realized, and the reliability of vibration machinery is improved. By changing the power supply frequencies and the currents of the input electromagnets, the vibration frequency and the amplitude can be randomly adjusted to achieve the optimal vibration effect.

Description

Electromagnetic-driven vibration conveyor

Technical field

The present invention relates to a kind of vibrating transportation machinery of carrying bulk material, belong to the vibrating machine field.

Background technology

The general at present motor connection lever formula type of drive that adopts of two plastid bogie type jigging conveyers, its amplitude can reach more than the 10mm, has higher traffic capacity, can not adjust but its shortcoming is Oscillation Amplitude and oscillation frequency, when needs are adjusted amplitude and frequency, must change component of machine; In addition, the jigging conveyer that the motor connection lever formula drives, because moving parts is more, so its fault rate is higher.A kind of elemental body oscillatory type feeding machine is disclosed in patent documentation 200720041962.7, utilize the unidirectional suction of electromagnet and armature residual gap, drive chute feeder and do the vibration of high frequency short arc, but its Oscillation Amplitude has only 40um, chute feeder must downward-sloping certain angle, and base is brought bigger vibrations during its work.

Summary of the invention

Technical matters to be solved by this invention is: two plastid bogie type jigging conveyers that the prior motor connecting rod drives, its amplitude and frequency can not be adjusted, and the fault rate of driving parts is higher.

The technical solution used in the present invention is: electromagnetic-driven vibration conveyor comprises delivery chute (1), compensating groove (3), base (7), leaf spring, electromagnet, armature etc., the upper end of the front end bottom of delivery chute (1) and leaf spring (13) is fixed, the lower end of leaf spring (13) is fixed on the base (7), the upper end of the rear end lower of delivery chute (1) and leaf spring (5) is fixed, the lower end of leaf spring (5) is fixed on the base (7), the compensating groove (3) of doorframe shape structure is positioned at the periphery outside of delivery chute (1), the upper end of the front end bottom of compensating groove (3) and leaf spring (12) is fixed, the lower end of leaf spring (12) is fixed on the base (7), the upper end of the rear end lower of compensating groove (3) and leaf spring (6) is fixed, the lower end of leaf spring (6) is fixed on the base (7), all leaf springs all are not in vertical orientation, but backward tilt at an angle, the lower end, middle part of delivery chute (1) is provided with armature (2), the left side of armature (2) is provided with electromagnet (10), the right side of armature (2) is provided with electromagnet (11), the lower end, middle part of compensating groove (3) is provided with armature (4), the left side of armature (4) is provided with electromagnet (8), the right side of armature (4) is provided with electromagnet (9), all electromagnet all are fixed on the base (7), the gap of armature and left and right sides electromagnet is 5～15mm, is equipped with distance detecting switch (14) on the electromagnet.

Principle of work of the present invention is: electromagnet (9) and electromagnet (10) be energized simultaneously, attract armature (2) to left movement and armature (4) moves right, when distance detecting switch (14) detects gap between armature and electromagnet less than the numerical value set, electromagnet (9) and electromagnet (10) be power cut-off simultaneously, while electromagnet (8) and electromagnet (11) be energized simultaneously, attract armature (2) to move right and armature (4) to left movement, when distance detecting switch (14) detects gap between armature and electromagnet less than the numerical value set, electromagnet (8) and electromagnet (11) be power cut-off simultaneously, while electromagnet (9) and electromagnet (10) be energized simultaneously, repeat next working cycle, thus under the drive of armature (2) and armature (4), delivery chute (1) and compensating groove (3) are made oppositely directed reciprocal sling movement, thereby realize the function of convey materials.

The invention has the beneficial effects as follows: application force driving delivery chute (1) and compensating groove (3) with electromagnet and armature residual gap are made oppositely directed reciprocal sling movement, the type of drive that has replaced the motor connection lever formula, it is a kind of touchless type of drive, do not had driving parts, improved the reliability of vibrating machine greatly; In addition,, can change the oscillation frequency and the amplitude of conveyer arbitrarily, thereby reach best vibrating effect by change feeding the frequency and the size of current of power supply in the electromagnet, but both energy savings, the service life that can improve vibrating machine again.

Description of drawings

Fig. 1 is a front view of the present invention, and Fig. 2 is that three-dimensional axle of the present invention is surveyed view, and Fig. 3 is that the three-dimensional axle of delivery chute is surveyed view, and Fig. 4 is that the three-dimensional axle of compensating groove is surveyed view, and Fig. 5 is that the three-dimensional axle of electromagnet is surveyed view.

The specific embodiment

The specific embodiment of the present invention is referring to Fig. 1～Fig. 5, the present invention includes delivery chute (1), compensating groove (3), base (7), leaf spring, electromagnet, armature etc., the upper end of the front end bottom of delivery chute (1) and leaf spring (13) is fixed, the lower end of leaf spring (13) is fixed on the base (7), the upper end of the rear end lower of delivery chute (1) and leaf spring (5) is fixed, the lower end of leaf spring (5) is fixed on the base (7), the compensating groove (3) of doorframe shape structure is positioned at the periphery outside of delivery chute (1), the upper end of the front end bottom of compensating groove (3) and leaf spring (12) is fixed, the lower end of leaf spring (12) is fixed on the base (7), the upper end of the rear end lower of compensating groove (3) and leaf spring (6) is fixed, the lower end of leaf spring (6) is fixed on the base (7), all leaf springs all recede 30 the degree, the lower end, middle part of delivery chute (1) is provided with armature (2), the left side of armature (2) is provided with electromagnet (10), the right side of armature (2) is provided with electromagnet (11), the lower end, middle part of compensating groove (3) is provided with armature (4), the left side of armature (4) is provided with electromagnet (8), the right side of armature (4) is provided with electromagnet (9), all electromagnet all are fixed on the base (7), the gap of armature and left and right sides electromagnet is 10mm, is equipped with distance detecting switch (14) on the electromagnet.

Claims

1. electromagnetic-driven vibration conveyor, it comprises delivery chute (1), compensating groove (3), base (7), leaf spring etc., it is characterized in that: it also comprises electromagnet and armature, the upper end of the front end bottom of delivery chute (1) and leaf spring (13) is fixed, the lower end of leaf spring (13) is fixed on the base (7), the upper end of the rear end lower of delivery chute (1) and leaf spring (5) is fixed, the lower end of leaf spring (5) is fixed on the base (7), the compensating groove (3) of doorframe shape structure is positioned at the periphery outside of delivery chute (1), the upper end of the front end bottom of compensating groove (3) and leaf spring (12) is fixed, the lower end of leaf spring (12) is fixed on the base (7), the upper end of the rear end lower of compensating groove (3) and leaf spring (6) is fixed, the lower end of leaf spring (6) is fixed on the base (7), the lower end, middle part of delivery chute (1) is provided with armature (2), the left side of armature (2) is provided with electromagnet (10), the right side of armature (2) is provided with electromagnet (11), the lower end, middle part of compensating groove (3) is provided with armature (4), the left side of armature (4) is provided with electromagnet (8), the right side of armature (4) is provided with electromagnet (9), and all electromagnet all are fixed on the base (7).

2. electromagnetic-driven vibration conveyor according to claim 1 is characterized in that: all leaf springs all are not in vertical orientation, but backward tilt at an angle.

3. electromagnetic-driven vibration conveyor according to claim 1 is characterized in that: armature (2) and armature (4) all are in vertical orientation, and the gap of armature and left and right sides electromagnet is 5～15mm.

4. electromagnetic-driven vibration conveyor according to claim 1 is characterized in that: electromagnet is provided with distance detecting switch (14).