CN209321802U - Screw transfer transmission device - Google Patents

Abstract

The utility model provides a kind of screw transfer transmission device, has a motor, an active disk, one from movable magnetic disc, one first driven wheel, one second driven wheel and a conveyer belt.Active disk is connected to motor, and interval setting parallel with active disk from movable magnetic disc.First driven wheel is mutually fixed with from movable magnetic disc, and the second driven wheel and the first driven wheel interval are arranged, and conveyer belt is sheathed on the first driven wheel and the second driven wheel., separately and with magnetic force reciprocation, reduce the stiction and rotary inertia transferred, therefore other than transmitting power continuous and stablely, additionally provide the effect of buffering with from movable magnetic disc by active disk.Further, since active disk with from movable magnetic disc, separately, therefore the transmission of the two will not generate frictional force, make the motor of smaller power whole device can be driven to operate, can more reduce energy consumption.

Description

Screw transfer transmission device

Technical field

The utility model is filled especially with regard to a kind of in the conveying for producing online conveying parts about a kind of conveying device It sets.

Background technique

It is mostly that there is a conveyer belt, a driving wheel and a motor in the conveying device of the prior art.Conveyer belt is sheathed on On driving wheel, and motor is connected on driving wheel.Therefore, in motor operation, motor can be rotated driving wheel, and driving wheel band again Dynamic conveyer belt, convey the part being located on conveyer belt can just on conveyer belt.For example, in the field of screw manufacture, zero Part can be screw.

And this structure that driving wheel is directly sheathed on conveyer belt, conveyer belt is for will form biggish torsion on driving wheel Square, therefore motor has to smoothly drive driving wheel and conveyer belt with higher power operation.In addition, the knot being directly connected to Structure can generate biggish stiction, neglect slowly fastly so that driving wheel can neglect, it is therefore desirable to cooperate the technology of more control speed, Just conveyer belt can be made to keep stable movement at the uniform velocity.

It is industry urgent problem to be solved thus in view of this, propose a kind of more preferably improvement plan.

Utility model content

It is quiet when can be reduced transmission the main purpose of the utility model is that propose a kind of screw transfer transmission device Frictional force and rotary inertia, and can be operated with lower power.

In order to achieve the above object, the screw transfer transmission device that the utility model is proposed includes

One motor；

One active disk is connected to the motor and is driven and rotated by the motor；

One from movable magnetic disc, is arranged with the active disk dividers, and described is parallel to the master from the shaft of movable magnetic disc The shaft of movable magnetic disc；

One first driven wheel is mutually fixed with described from movable magnetic disc, and is turned with described from movable magnetic disc with same shaft is synchronous It is dynamic；

One second driven wheel is arranged with first driven wheel interval, and the shaft of second driven wheel is parallel to The shaft of first driven wheel；And

One conveyer belt is sheathed on first driven wheel and second driven wheel.

In foregoing screw transfer transmission device, the motor and the active disk are located at the conveyer belt Two sides.

In foregoing screw transfer transmission device, the motor and the active disk are located at first driven wheel And between second driven wheel.

Therefore, the utility model has the advantage of interact work separately and with magnetic force with from movable magnetic disc by active disk With reducing the stiction and rotary inertia when transferring, therefore other than transmitting power continuous and stablely, additionally provide slow The effect of punching, even if motor rotary speed is unstable, active disk and the slave movable magnetic disc under the buffering between movable magnetic disc, for output And first driven wheel be still able to maintain stabilization of speed.Further, since active disk with from movable magnetic disc separately, therefore the transmission of the two Frictional force will not be generated, makes the motor of smaller power whole device can be driven to operate, can more reduce energy consumption.

In foregoing screw transfer transmission device:

The active disk includes

One first disk body is connected to the motor and is driven and rotated by the motor；And

A plurality of first magnetic parts are fixedly arranged on the periphery of first disk body, and first magnetic part is with same magnetic Pole is towards outside, and diametrical direction deflection same angle of the direction of each first magnetic part magnetic pole relative to first disk body Degree；And

It is described to be included from movable magnetic disc

One second disk body is arranged with first disk body interval, and the shaft of second disk body is parallel to described the The shaft of one disk body；And

A plurality of second magnetic parts are fixedly arranged on the periphery of second disk body, and the second magnetic part magnetic pole direction The magnetic pole in outside and the magnetic pole in first magnetic part towards outside are homopolarity, and the direction phase of each second magnetic part magnetic pole For the same angle of diametrical direction deflection of second disk body.

In foregoing screw transfer transmission device, the active disk has more a balance, is set to The one side of first disk body.

In foregoing screw transfer transmission device, the motor and the active disk are located at the conveyer belt Two sides.

In foregoing screw transfer transmission device, the motor and the active disk are located at first driven wheel And between second driven wheel.

Detailed description of the invention

Fig. 1 is the stereoscopic schematic diagram of the utility model.

Fig. 2 is the schematic elevation view of the utility model.

Fig. 3 is the schematic rear view of the utility model.

Fig. 4 is the schematic top plan view of the utility model.

The corresponding relationship of appended drawing reference and component is as follows:

Motor 10；Active disk 21；First disk body 211；First magnetic part 212；Balance 213；From movable magnetic disc 22；Second disk body 221；Second magnetic part 222；First driven wheel 31；Second driven wheel 32；Conveyer belt 33；Screw A.

Specific embodiment

Referring first to Fig. 1 to 3.The utility model proposes a kind of screw A transfer transmission devices, have a motor 10, one Active disk 21, one is from movable magnetic disc 22, one first driven wheel 31, one second driven wheel 32 and a conveyer belt 33.

Active disk 21 is connected to motor 10 and is driven and rotated by motor 10, and is spaced from movable magnetic disc 22 and active disk 21 It is arranged, and is parallel to the shaft of active disk 21 from the shaft of movable magnetic disc 22.Specifically, active disk 21 with from movable magnetic disc 22 It is set on same plane.

Active disk 21 has one first disk body 211 and a plurality of first magnetic parts 212, and selectively has a counterweight Balance weight 213.First disk body 211 is connected to motor 10 and is driven and rotated by motor 10, and the first magnetic part 212, is fixedly arranged on the The periphery of one disk body 211, the first magnetic part 212 with same pole towards outside, and the direction phase of each first magnetic part, 212 magnetic pole For the same angle of diametrical direction deflection of the first disk body 211.Balance 213 is set to the one side of the first disk body 211, It and can be blocky or ring-type to increase the rotary inertia of active disk 21 and keep company's speed of active disk 21 more stable.With galassing The balance weight of the similar tire of the effect of weighing apparatus block 213, can make rotation more steady when running at high speed.

Similarly, there is one second disk body 221 and a plurality of second magnetic parts 222 from movable magnetic disc 22.Second disk body 221 with The setting of first disk body 211 interval, and the shaft of the second disk body 221 is parallel to the shaft of the first disk body 211.Second magnetic part 222 It is fixedly arranged on the periphery of the second disk body 221, and 222 magnetic pole of the second magnetic part is towards 212 direction of magnetic pole and the first magnetic part in outside The magnetic pole in outside is homopolarity, and the direction of each second magnetic part, 222 magnetic pole is same relative to the diametrical direction deflection of the second disk body 221 One angle.

First driven wheel 31 is fixed with from 22 phase of movable magnetic disc, and is rotated synchronously with from movable magnetic disc 22 with same shaft.Second Driven wheel 32 and the first driven wheel 31 interval are arranged, and the shaft of the second driven wheel 32 is parallel to the shaft of the first driven wheel 31. Conveyer belt 33 is sheathed on the first driven wheel 31 and the second driven wheel 32.

Next referring to Fig. 4.In the present embodiment, in order to reduce the occupancy volume of device, motor 10 divides with active disk 21 Not Wei Yu conveyer belt 33 two sides, and motor 10 and active disk 21 are between the first driven wheel 31 and the second driven wheel 32.

Through above structure, when motor 10 operates, it will drive active disk 21 first and rotate, and the magnetic of active disk 21 Power will push to be rotated from movable magnetic disc 22, and the first driven wheel 31 is rotated synchronously with from movable magnetic disc 22.Then, by conveyer belt 33, First driven wheel 31 will drive the rotation of the second driven wheel 32.In other words, conveyer belt 33 can the first driven wheel 31 and second from It detours and rotates on driving wheel 32.Whereby, conveyer belt 33 just can be operated with stable speed, and steadily can convey spiral shell with conveyer belt 33 Silk A or other objects.

The utility model also penetrates active disk 21 and from movable magnetic disc 22 all with same pole towards outside, active disk 21 With just can be mutually exclusive from the magnetic force on movable magnetic disc 22, and active disk 21 by motor 10 drive rotation after, repulsive force can push away It is dynamic.Still further, active disk 21 can generate repulsion with being not required to be in contact from the magnetic force on movable magnetic disc 22, therefore turn It will not there is a phenomenon where pauses and transitions in rhythm or melody during dynamic；Even if motor 10 drive active disk 21 when speed it is unstable, active disk 21 with It can provide the effect of buffering from the gap between movable magnetic disc 22, therefore can still be less than active disk from a turn degree variation for movable magnetic disc 22 21 rotation speed change and it is more stable.

In other embodiments, active disk 21 with can be on the contrary, therefore actively from pole orientation of the movable magnetic disc 22 outside Disk 21 with from movable magnetic disc 22 be the rotation that influenced each other with attraction.

In conclusion the utility model by active disk 21 with from movable magnetic disc 22 separately and with magnetic force reciprocation, Reduce the stiction and rotary inertia when transferring, therefore other than transmitting power continuous and stablely, additionally provides buffering Effect.Even if the timing of motor 10 rotary speed unstabilization, active disk 21 and under the buffering between movable magnetic disc 22, for output from Movable magnetic disc 22 and the first driven wheel 31 are still able to maintain stabilization of speed.Further, since active disk 21 with from movable magnetic disc 22 separately, Therefore the transmission of the two will not generate frictional force, make the motor 10 of smaller power whole device can be driven to operate, can more reduce Energy consumption.

Claims (6)

1. a kind of screw transfer transmission device comprising:

One motor；

One active disk is connected to the motor and is driven and rotated by the motor；

One from movable magnetic disc, is arranged with the active disk dividers, and described is parallel to the active magnetic from the shaft of movable magnetic disc The shaft of disk；

One first driven wheel is mutually fixed with described from movable magnetic disc, and is rotated synchronously with described from movable magnetic disc with same shaft；

One second driven wheel is arranged with first driven wheel interval, and the shaft of second driven wheel be parallel to it is described The shaft of first driven wheel；And

One conveyer belt is sheathed on first driven wheel and second driven wheel.

2. screw transfer transmission device as described in claim 1, it is characterised in that:

The active disk includes

One first disk body is connected to the motor and is driven and rotated by the motor；And

A plurality of first magnetic parts are fixedly arranged on the periphery of first disk body, and first magnetic part is with same pole court Outward, diametrical direction deflection same angle of the direction of each first magnetic part magnetic pole relative to first disk body； And

It is described to be included from movable magnetic disc

One second disk body is arranged with first disk body interval, and the shaft of second disk body is parallel to first disk The shaft of body；And

A plurality of second magnetic parts, are fixedly arranged on the periphery of second disk body, and the second magnetic part magnetic pole is towards outside Magnetic pole and first magnetic part towards outside magnetic pole be homopolarity, and the direction of each second magnetic part magnetic pole relative to The same angle of diametrical direction deflection of second disk body.

3. screw transfer transmission device as claimed in claim 2, which is characterized in that the active disk is balanced with a counterweight Block is set to the one side of first disk body.

4. screw transfer transmission device as claimed any one in claims 1 to 3, which is characterized in that the motor with it is described Active disk is located at the two sides of the conveyer belt.

5. screw transfer transmission device as claimed any one in claims 1 to 3, which is characterized in that the motor with it is described Active disk is between first driven wheel and second driven wheel.

6. screw transfer transmission device as claimed in claim 4, which is characterized in that the motor is located at the active disk Between first driven wheel and second driven wheel.