CN103921984B - A kind of mosaic particle folds grain machinery and folded grain method thereof - Google Patents

Abstract

A kind of mosaic particle folds grain machinery and folded grain method thereof; unified for plane mosaic particle is upward placed on particle to turn on the belt of side; particle turns over side belt and rotates; mosaic particle enters the sector channel of particle guiding groove trailing portion; mosaic particle in particle guiding groove in order arrangement come particle and turn over side belt exit end; mosaic particle turns over belt exit, side at particle and turns over side and drop on folded particle strap surface; folded particle belt rotates; the mosaic particle turning over side moves forward in order, and the parallel channels along particle guiding groove leading portion is aligned.The mosaic particle of aligning moves forward to the exit end of folded particle belt, is pressed to rebound below, build up the capable mosaic particle turning over side and come particle alignment belt arrival end by rebound by the mosaic particle turning over side constantly supplemented.When mosaic particle particle alignment strap surface building up several rows and turn over side reach be applicable to depositing the quantity into particle case one deck time, be just collected into particle case.

Description

A kind of mosaic particle folds grain machinery and folded grain method thereof

Technical field:

The present invention relates to mosaic production technical field, especially a kind of mosaic particle folds grain machinery.

Background technology:

The location mode of the particle of traditional production mosaic is by stacking at random in a reservoir for the mosaic particle that bakes.Like this, both in the process of stacking, the breakage of mosaic particle can be caused because mosaic particle collides with each other, and also make to add difficulty during paving mosaic finished product.When being the mechanical paving mosaic finished product of use by it, require that same of mosaic particle in same direction.The stacking at random of mosaic particle, makes turn-over, the arrangement that first will carry out mosaic particle during mechanical paving mosaic finished product.Cause that work capacity is large, complex procedures, the cost of production mosaic is increased.

Summary of the invention:

The object of the invention is to overcome above-mentioned shortcoming, providing a kind of and the mosaic particle baked is built up capable mosaic particle by same direction, same side folding grain machinery.

Goal of the invention of the present invention can be realized by following technical scheme:

Its equipment includes, and particle guiding groove, particle turn over side belt, swinging gear, folded particle belt, rebound, particle alignment belt, particle case.Particle guiding groove is positioned at particle and turns on side belt, folded particle belt and rebound face, and the trailing portion sector channel of particle guiding groove is connected with swinging gear (be front with arrow direction).Particle turns over side belt exit end and becomes stepped tandem array with folded particle belt arrival end, and folded particle belt exit end is connected with rebound, and maintains an equal level with rebound plane, and rebound is connected with particle alignment belt, and maintains an equal level with plane on particle alignment belt.On folded particle belt, plane becomes a horizontal surface with plane on rebound plane, particle alignment belt.

Described particle guiding groove, be arranged in by some strip of foil the passage that several rows cross particle, particle guiding groove is divided into front and back two parts, the trailing portion thin slice of particle guiding groove becomes fan-shaped array to become several rows to cross the sector channel of particle, larger than the cornerwise length of mosaic particle plane 0.5 millimeter to 1 millimeter of the entrance width of sector channel, larger than the length of the mosaic particle plane length of side 0.5 millimeter to 1 millimeter of the exit width of sector channel, the trailing portion of particle guiding groove is positioned at particle and turns over above the strap surface of side, and by the driver drives of swinging gear, left and right slight oscillatory on the strap surface of side is turned at particle.The leading portion thin slice arrangement in parallel of particle guiding groove becomes several rows to cross the parallel channels of particle, larger than the length of the mosaic particle plane length of side 0.5 millimeter to 1 millimeter of the width of parallel channels, the leading portion of particle guiding groove is positioned at above folded particle strap surface and rebound face.Forward and backward two parts of particle guiding groove turn over side belt exit end at particle and form stepped connection with folded particle belt arrival end.

Described particle turns over side belt, that rear end rotating shaft diameter is large, the belt conveyor of the rotation capable of circulation that front end rotating shaft diameter is little, particle turns over side belt and is positioned at folded particle belt back upper place, and particle turns over side belt exit end and becomes stepped tandem array with folded particle belt arrival end.

Described swinging gear connects together by the device of actuator left and right slight oscillatory by the sector channel of particle guiding groove trailing portion, and actuator can take cylinder as power, also can with the eccentric wheel rotated for power.

Described folded particle belt is the belt conveyor of rotation capable of circulation, and be positioned at the front lower place that particle turns over side belt, exit end is connected with rebound, and on folded particle belt, plane becomes a horizontal surface with rebound plane.

Described rebound is the one flat plate being positioned at folded particle belt exit end, for the mosaic particle folded particle strap surface turning over side is transitioned into particle alignment belt.

Described particle alignment belt, is the belt conveyor of rotation capable of circulation, is connected with rebound, on particle alignment belt, plane becomes a horizontal surface with rebound face, and particle alignment belt builds up capable mosaic particle for parking.

Described particle case is a kind of square container, for depositing mosaic particle multilayered particles arrangement belt having built up several rows.

Its method is, by what bake, the unified mosaic particle upward of plane is placed on particle and turns on the belt of side, rotate along with particle turns over side belt, flat supine mosaic particle enters the sector channel of particle guiding groove trailing portion, the sector channel part of particle guiding groove is by the driver drives left and right slight oscillatory of swinging gear, flat supine mosaic particle in particle guiding groove in order arrangement come particle and turn over side belt exit end, flat supine mosaic particle turns over belt exit, side at particle and turns over side and drop on folded particle strap surface, folded particle belt rotates, the mosaic particle turning over side moves forward in order, parallel channels along particle guiding groove part is aligned.The mosaic particle of aligning moves forward to the exit end of folded particle belt, is pressed to rebound below and folds tight, build up the capable mosaic particle turning over side and come particle alignment belt arrival end by rebound by the mosaic particle turning over side constantly supplemented.Particle alignment belt slowly rotates, when mosaic particle particle alignment strap surface building up several rows and turn over side reach be applicable to depositing the quantity into particle case one deck time, be just collected into particle case.Then, another particle case is changed again after collecting a full particle case successively.

The invention has the beneficial effects as follows: after adopting such scheme, the mosaic particle baked is built up row by same direction, same side, and neat discharge can avoid the interparticle mutual collision of mosaic, decreases the breakage rate of mosaic particle.Meanwhile, for next step use mechanical paving mosaic time, do not need again same direction to be translated in the same face of mosaic particle.Thus decrease a large amount of work, make the cost reduction of production mosaic.

Accompanying drawing illustrates:

Fig. 1, mosaic particle of the present invention fold the schematic top plan view of grain machinery;

Fig. 2, the present invention equal the sector channel schematic side view that supine mosaic particle enters particle guiding groove;

Fig. 3, the present invention put down supine mosaic particle and turn over the parallel channels schematic side view that rear flank enters particle guiding groove;

The mosaic particle that Fig. 4, the present invention turn over side builds up the schematic side view of row on particle alignment belt by rebound;

[figure number explanation]

1. particle turn over side belt, 2. flat supine mosaic particle, 3. swinging gear, 4. particle guiding groove sector channel,

5. turn over the parallel channels of the mosaic particle of side, 6. particle guiding groove, 7. folded particle belt, 8. rebound,

9. build up capable mosaic particle, 10. particle alignment belt,

Detailed description of the invention:

Below in conjunction with accompanying drawing, embodiments of the present invention is further illustrated.

Some same flat supine mosaic particles 2 are laid in particle to turn on side belt 1, particle turns over side belt 1 and rotates, because sector channel 4 entrance width of particle guiding groove is than flat large 0.5 millimeter to 1 millimeter of the cornerwise length of supine mosaic particle 2 plane, single flat supine mosaic particle 2 can enter at any angle, flat supine mosaic particle 2 enters the sector channel 4 of particle guiding groove, sector channel 4 swing that left and right is slight under the driver drives of swinging gear 3 of particle guiding groove, the angle of the supine mosaic particle 2 in continuous pendulum Shunping County, make flat supine mosaic particle 2 in particle guiding groove in order arrangement come particle and turn over side belt 3 exit end, flat supine mosaic particle 2 turns over side belt 3 front end exit place at particle and turns over side and fall, fall in the parallel channels 6 of the particle guiding groove on folded particle belt 7.The rotating shaft diameter turning over side belt 3 front end exit due to particle is little, and the drop of the folded particle belt 7 of distance is also little, can reduce the breakage of flat supine mosaic particle 2 when turning over side and falling.Folded particle belt 7 rotates, and the mosaic particle 5 turning over side moves forward in order in the parallel channels 6 of particle guiding groove, and the parallel channels 6 along particle guiding groove is aligned.The mosaic particle 5 turning over side moves forward to the exit end of folded particle belt 7, rebound 8 is pressed to below by the mosaic particle 5 turning over side constantly supplemented, rebound 8 builds up row, builds up the capable mosaic particle 5 turning over side and come particle alignment belt 10 arrival end by rebound 8.Particle alignment belt 10 slowly rotates, when the mosaic particle 9 particle alignment belt 10 building up several rows reach be applicable to depositing the quantity into particle case one deck time, be just collected into particle case.Then, another particle case is changed again after collecting a full particle case successively.

The above is only preferred embodiment of the present invention, not does any pro forma restriction to the present invention.Any those of ordinary skill in the art, do not departing under technical solution of the present invention ambit, the Method and Technology content of above-mentioned announcement all can be utilized to make many possible variations and modification to technical solution of the present invention, or be revised as the Equivalent embodiments of equivalent variations.Therefore every content not departing from technical solution of the present invention, the equivalence done according to the shape of the present invention, structure and principle change, all should be covered by protection scope of the present invention.

Claims (2)

1. a mosaic particle folds grain machinery, its equipment includes, particle guiding groove, particle turns over side belt, swinging gear, folded particle belt, rebound, particle alignment belt, particle case, particle guiding groove is positioned at particle and turns over side belt, fold on particle belt and rebound face, the trailing portion sector channel of particle guiding groove is connected with swinging gear, particle turns over side belt and is connected with folded particle belt, folded particle belt exit end is connected with rebound, rebound is connected with particle alignment belt, it is characterized in that: particle turns over side belt exit end and becomes stepped tandem array with folded particle belt arrival end, before particle guiding groove, rear two parts are turned over side belt exit end at particle and are formed stepped connection with folded particle belt arrival end.

2. the method using the mosaic particle of claim 1 to fold the folded particle of grain machinery, it is characterized in that: step is as follows, (1) will to bake, the unified mosaic particle upward of plane is placed on particle and turns on the belt of side, rotate along with particle turns over side belt, plane upward mosaic particle enters the sector channel of particle guiding groove trailing portion, (2) the sector channel part of particle guiding groove is by the driver drives left and right slight oscillatory of swinging gear, plane upward mosaic particle in the sector channel of particle guiding groove in order arrangement come particle and turn over side belt exit end, (3) flat supine mosaic particle turns over belt exit, side at particle and turns over side and drop on folded particle strap surface, folded particle belt rotates, the mosaic particle turning over side moves forward in order, parallel channels along particle guiding groove leading portion is aligned, (4) the mosaic particle turning over side of aligning moves forward to the exit end of folded particle belt, pressed to rebound by the mosaic particle turning over side constantly supplemented below and fold tight, (5) build up the capable mosaic particle turning over side and come particle alignment belt arrival end by rebound, particle alignment belt slowly rotates, when the mosaic particle turning over side particle alignment strap surface building up several rows reach be applicable to depositing the quantity into particle case one deck time, just particle case is collected into.