CN210711867U - Blowing and sucking cleaner of non-impact reversing mechanism - Google Patents

Abstract

The utility model discloses a non-impact reversing mechanism's pressure-vaccum cleaning machine, its structure includes: the structure includes: the frame, clean fan, reversing mechanism and displacement actuating mechanism, above-mentioned reversing mechanism includes the rotation protection unit, dead lever and stable unit, rotation protection unit fixed mounting is in the bottom of clean fan, the bottom of dead lever is fixed on displacement actuating mechanism and is removed along orbital extending direction through the displacement actuating mechanism drive, the top and the rotation protection unit of dead lever are connected and cooperate the rotation protection unit to realize the switching-over that comes and goes on the track of clean fan, the rotation protection unit realizes protecting displacement actuating mechanism when cooperating the dead lever, stable unit connection is on the rotation protection unit and near clean fan, stable unit is used for realizing the stability of clean fan when removing on the track and switching-over, the utility model discloses not only can realize the round trip movement of clean fan, protected displacement actuating mechanism simultaneously.

Description

Blowing and sucking cleaner of non-impact reversing mechanism

The technical field is as follows:

the utility model belongs to the technical field of the textile manufacturing technique and specifically relates to a non-impact reversing mechanism's pressure-vaccum cleaning machine.

Background art:

the circulator is widely applied in the field of dust removal, is suitable for spinning, roving, spooling, double twisting, doubling, an air jet spinning machine and the like in a textile mill, and can effectively improve the quality of finished yarn, improve the production environment and reduce the labor. The traveller is generally placed above the textile machine, arranged on rails. The non-impact reversing mechanism of the traditional traveling cleaner cannot realize the reversing function in the middle stage.

In patent 201510190408.4, there is disclosed a blow-and-suction cleaner of the non-impact reversing mechanism: including frame, clean fan, non-impact reversing mechanism and actuating mechanism, clean fan passes through rail mounting in weaving equipment's frame to blow and draw the wind cleanness by clean actuating mechanism drive, clean fan can carry out direct movement along orbital extending direction by displacement drive mechanism drive, clean fan can realize coming and going the switching-over by displacement drive mechanism and non-impact reversing mechanism cooperation, non-impact reversing mechanism includes reversing shaft and switching-over connecting block, the reversing shaft is installed on the switching-over area, installs the switching-over connecting block that uses with the reversing shaft cooperation simultaneously at the side of clean fan, has a guide way of holding the reversing shaft and passing on the switching-over connecting block, and the extending direction of this guide way is mutually perpendicular with the moving direction of clean fan.

The structure realizes reciprocating reversing through the matching of the displacement driving mechanism and the non-impact reversing mechanism, and solves the problem that the non-impact reversing mechanism of the traditional itinerant cleaner cannot realize the reversing function in the middle stage, but when the displacement driving mechanism is matched with the non-impact reversing mechanism, when a reversing shaft travels to the reversing wheel, the reversing shaft travels from one end of the reversing wheel to the other end, the reversing shaft travels from one end of a reversing groove on a reversing connecting block to the other end, in the whole reversing process, the reversing shaft can outwards extrude a reversing belt, in the continuous extrusion process of the reversing belt, the service life of the reversing belt can be greatly reduced, the reversing belt is always scrapped about one year, and the enterprise cost is wasted.

The utility model has the following contents:

the utility model aims at providing a non-impact reversing mechanism's pressure-vaccum cleaning machine solves one or more among the above-mentioned prior art problem.

In order to solve the technical problem, the utility model provides a non-impact type reversing mechanism's pressure-vaccum cleaning machine, its structure includes: the structure includes: frame, clean fan, reversing mechanism and the displacement actuating mechanism of fixed weaving equipment, clean fan passes through the mobilizable installation of track the top of weaving equipment, clean fan passes through the displacement actuating mechanism drive and removes along orbital extending direction, and its innovation point lies in: above-mentioned reversing mechanism includes the rotation protection unit, dead lever and stable unit, rotation protection unit fixed mounting is in the bottom of clean fan, the bottom of dead lever is fixed on displacement actuating mechanism and is removed along orbital extending direction through the displacement actuating mechanism drive, the top and the rotation protection unit of dead lever are connected and cooperate the rotation protection unit to realize the switching-over that comes and goes of clean fan on the track, the rotation protection unit realizes protecting displacement actuating mechanism when the cooperation dead lever, stable unit connects on the rotation protection unit and near clean fan, stable unit is used for realizing the stability of clean fan when removing on the track and switching-over.

Furthermore, the cleaning fan is driven by the cleaning driving mechanism to blow and suck air for cleaning, the cleaning driving mechanism is a fan motor, and the cleaning driving mechanism is arranged at the upper end of the cleaning fan.

Furthermore, above-mentioned displacement actuating mechanism includes the action wheel and follows the driving wheel, and the action wheel is installed at the both ends of frame with following the driving wheel symmetry, and the action wheel is connected through the conveyer belt transmission with following the driving wheel, and the bottom vertical fixation of dead lever is on the conveyer belt.

Further, above-mentioned rotation protection unit includes the fixed axle, bearing and swinging boom, and the fixed axle vertical fixation is in the bottom of clean fan, and the bottom cover of fixed axle is established and is fixed on the inner circle of bearing, and the one end of swinging boom is fixed on the outer lane of bearing, and the extending direction of the swinging boom other end and orbital extending direction are parallel and are located displacement drive mechanism's top, and the top of fixed pole is connected perpendicularly on the swinging boom, and the other end and the stable unit of swinging boom are connected.

Further, the stabilizing unit comprises a connecting rod and a damper, the bottom of the connecting rod is vertically connected to the other end of the rotating arm, the damper is installed at the top of the connecting rod, and the damper abuts against the bottom of the cleaning fan.

The beneficial effects of the utility model reside in that: the utility model provides a non-impact reversing mechanism's pressure-vaccum cleaning machine, rotatory protection unit cooperation dead lever have not only realized that clean fan can make a round trip to move on the track, and simultaneously, the stability of swinging boom and dead lever motion has been guaranteed to stable unit, has avoided swinging boom and dead lever damage conveyer belt, the effectual displacement drive mechanism that has protected.

Description of the drawings:

fig. 1 is a schematic side view of the bottom of the cleaning fan of the present invention.

Fig. 2 is a top view of the cleaning fan of the present invention moving to the left on the track.

Fig. 3 is a top view of the top of the cleaning fan of the present invention moving to the driving wheel.

Fig. 4 is a top view of the cleaning fan of the present invention moving to the right on the track.

Figure 5 is the top view of the cleaning fan of the present invention moving to the driven wheel.

The specific implementation mode is as follows:

in order to deepen the understanding of the present invention, the present invention will be further described in detail with reference to the following embodiments and the attached drawings, and the embodiments are only used for explaining the present invention, and do not constitute the limitation to the protection scope of the present invention.

As can be seen from the schematic diagrams shown in fig. 1 to fig. 2, the utility model provides a blowing and sucking cleaning machine of a non-impact reversing mechanism, its structure includes: frame 1, clean fan 2, reversing mechanism 3 and displacement drive mechanism 4 of fixed weaving equipment, clean fan 2 passes through the mobilizable top of installing at weaving equipment of track 5, and clean fan 2 passes through displacement drive mechanism 4 drive and removes along track 5's extending direction the utility model discloses in, weaving equipment can be the spinning frame, the fly frame, and the weaving machine, loom etc.

The embodiment of the utility model provides an in, above-mentioned clean fan 2 blows and induced drafts cleanly through the drive of clean actuating mechanism 6, and clean actuating mechanism 6 is the fan motor, and clean actuating mechanism 6 is installed in the upper end of clean fan 2, and the fan motor is installed in the upper end of clean fan 2, can reduce the space size that clean fan 2 wholly needed.

In the embodiment of the utility model, above-mentioned displacement drive mechanism 4 includes action wheel 41 and follows driving wheel 42, action wheel 41 and follow the both ends of driving wheel 42 symmetrical installation in frame 1, action wheel 41 and follow driving wheel 42 pass through conveyer belt 7 transmission and connect, the bottom vertical fixation of dead lever 32 is on conveyer belt 7, driving motor through the external world provides power to action wheel 41, make action wheel 41 and follow driving wheel 42 transmission through conveyer belt 7 and connect, it is preferential, action wheel 41 and follow driving wheel 42 can select sprocket or belt pulley, it is corresponding, conveyer belt 7 also can be changed into the belt.

The embodiment of the utility model provides an in, above-mentioned reversing mechanism 3 includes rotation protection unit 31, dead lever 32 and stabilizing unit 33, rotation protection unit 31 fixed mounting is in clean fan 2's bottom, the bottom of dead lever 32 is fixed on displacement actuating mechanism 4 and is removed along track 5's extending direction through displacement actuating mechanism 4 drive, the top and the rotation protection unit 31 of dead lever 32 are connected and cooperate rotation protection unit 31 to realize the round trip switching-over of clean fan 2 on track 5, rotation protection unit 31 realizes protecting displacement actuating mechanism 4 when cooperating dead lever 32.

The rotation protection unit 31 includes a fixing shaft 311, a bearing 312 and a rotating arm 313, the fixing shaft 311 is vertically fixed at the bottom of the cleaning fan 2, the bottom of the fixing shaft 311 is sleeved and fixed on an inner ring of the bearing 312, one end of the rotating arm 313 is fixed on an outer ring of the bearing 312, the arrangement can enable the rotating arm 313 to freely rotate under the action of the bearing 312, the extending direction of the other end of the rotating arm 313 is parallel to the extending direction of the track 5 and is located above the displacement driving mechanism 4, the top of the fixing rod 32 is vertically connected to the rotating arm 313, the other end of the rotating arm 313 is connected with the stabilizing unit 33, the stabilizing unit 33 is connected to the rotation protection unit 31 and abuts against the cleaning fan 2, and the stabilizing unit 33 is used for realizing the stability when the cleaning fan 2 moves.

In the embodiment of the present invention, for further explaining that the cleaning fan 2 can commutate on the track 5, and during the commuting process of the cleaning fan 2, the rotation protection unit 31 can protect the displacement driving mechanism 4, and the cleaning fan 2 has four motion states on the track 5, specifically as follows: (in the embodiment of the present invention, for the convenience of understanding the direction of the structure movement, the direction descriptions in fig. 2 to 5 are all described according to the direction marked in fig. 2)

1. As shown in fig. 2: when the external motor provides power to the driving wheel 41, the conveyor belt 7 moves towards the left, the fixing rod 32 and the rotating arm 313 move towards the left under the driving of the conveyor belt 7, so that the whole cleaning fan 2 is driven to move towards the left, in the process that the cleaning fan 2 moves towards the left, the stabilizing unit 33 can avoid the rotating arm 313 from moving, the position of the rotating arm 313 relative to the cleaning fan 2 is ensured to be stable, the extending direction of the rotating arm 313 always faces backwards, at the moment, the rotating arm 313 and the fixing rod 32 are equivalent to that the conveyor belt 7 is in a static state, and the extrusion effect on the conveyor belt 7 can not be generated.

2. As shown in fig. 3: when the cleaning fan 2 moves to the left side of the track 5 and the cleaning fan 2 needs to change direction on the track 5, the fixing rod 32 moves to the position of the driving wheel 41 along with the conveyor belt 7, the fixing rod 32 moves around the driving wheel 41 along with the conveyor belt 7, the rotating arm 313 rotates 180 degrees around the driving wheel 41 along with the fixing rod 32 under the action of the bearing 312, when the fixing rod 32 moves to the leftmost side of the driving wheel 41 along with the conveyor belt 7, the extending direction of the rotating arm 313 faces to the left, and the fixing rod 32 and the rotating arm rotate 180 degrees around the driving wheel 41

313, namely, the reversing of the cleaning fan 2 on the left side of the track 5 is realized when the driving wheel 41 is moved from the rear of the driving wheel 41, in the reversing process of the cleaning fan 2, the rotating arm 313 and the fixed rod 32 move together along with the movement of the conveyor belt 7, so that the rotating arm 313 and the fixed rod 32 are in a static state relative to the conveyor belt 7, and cannot generate a squeezing effect on the conveyor belt 7, and in the moving process of the rotating arm 313, the stabilizing unit 33 ensures the stability of the movement of the rotating arm 313.

3. As shown in fig. 4: after the cleaning fan 2 finishes reversing on the left side of the track 5, the fixed rod 32 and the rotating arm 313 move towards the right under the driving of the conveyor belt 7, so that the whole cleaning fan 2 is driven to move towards the right, in the process that the cleaning fan 2 moves towards the right, the stabilizing unit 33 can avoid the rotating arm 313 from moving, the stability of the rotating arm 313 relative to the position of the cleaning fan 2 is ensured, the extending direction of the rotating arm 313 always moves towards the front, the rotating arm 313 and the fixed rod 32 are equivalent to the conveyor belt 7 in a static state at the moment, and the conveyor belt 7 cannot be squeezed.

4. As shown in fig. 5: when the cleaning fan 2 moves to the right side of the track 5, the cleaning fan 2 needs to perform reversing again on the track 5, at this time, the fixed rod 32 moves to the position of the driven wheel 42 along with the conveyor belt 7, the fixed rod 32 moves around the driven wheel 42 along with the conveyor belt 7, the rotating arm 313 rotates 180 degrees around the driven wheel 42 along with the fixed rod 32 under the action of the bearing 312, when the fixed rod 32 moves to the rightmost side of the driven wheel 42 along with the conveyor belt 7, the extending direction of the rotating arm 313 faces to the right, when the fixed rod 32 and the rotating arm 313 move together from the front of the driven wheel 42 to the back of the driven wheel 42, the reversing of the cleaning fan 2 on the right side of the track 5 is realized, during the reversing of the cleaning fan 2, the rotating arm 313 and the fixed rod 32 rotate together along with the movement of the conveyor belt, the belt conveyor 7 is not pressed, and the stabilizing unit 33 ensures the stability of the movement of the rotating arm 313 during the movement of the rotating arm 313.

The embodiment of the utility model provides an in, through above-mentioned clean fan 2 at track 5's four kinds of motion states, accomplish a complete switching-over process that comes and goes, when realizing that clean fan 2 can come and go the motion in succession on track 5, stabilizing unit 33 has kept the stability of swinging boom 313 motion throughout, swinging boom 313 has been avoided because bearing 312 moves about, make swinging boom 313 and dead lever 32 be in quiescent condition for conveyer belt 7 throughout, can not produce the squeezing action to conveyer belt 7, thereby avoided swinging boom 313 and dead lever 32 to produce the harm to conveyer belt 7, the effectual displacement drive mechanism 4 that has protected.

In the embodiment of the present invention, in order to realize the stability of the movement of the rotating arm 313, the above-mentioned stabilizing unit 33 includes a connecting rod 331 and a damper 332, the bottom of the connecting rod 331 is vertically connected to the other end of the rotating arm 313, the damper 332 is installed at the top of the connecting rod 331, the damper 332 is close to the bottom of the cleaning fan 2, preferably, the damper 332 is selected as a magnetic damper, the enterprise can obtain the magnetic damper by outsourcing, the rotating arm 313 is under the action of the bearing 312, it is easy to freely rotate on the bearing 312 due to the inertia of the movement or the shaking of the frame 1, thereby causing the instability of the movement of the rotating arm 313, and the damper 332 eliminates the free rotation of the rotating arm 313.

It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. A blowing and sucking cleaning machine with a non-impact reversing mechanism structurally comprises: frame (1), clean fan (2), reversing mechanism (3), displacement actuating mechanism (4) and clean actuating mechanism (6), install that clean fan (2) are mobilizable through guide rail (5) in frame (1), clean fan (2) are passed through displacement actuating mechanism (4) drive and along the extending direction of guide rail (5) removes, reversing mechanism (3) cooperation displacement actuating mechanism (4) are realized clean fan (2) are in reciprocal switching-over on guide rail (5), its characterized in that: the reversing mechanism (3) comprises a rotary protection unit (31), a fixed rod (32) and a stabilizing unit (33), the rotary protection unit (31) is fixedly installed at the bottom of the cleaning fan (2), the bottom of the fixed rod (32) is fixed on the displacement driving mechanism (4) and is driven by the displacement driving mechanism (4) to move along the extending direction of the guide rail (5), the top of the fixed rod (32) is connected with the rotary protection unit (31) and matched with the rotary protection unit (31) to realize the reciprocating reversing of the cleaning fan (2) on the guide rail (5), the rotary protection unit (31) is used for realizing the protection of the displacement driving mechanism (4) when being matched with the fixed rod (32), and the stabilizing unit (33) is connected on the rotary protection unit (31) and is close to the cleaning fan (2), the stabilizing unit (33) is used for stabilizing the cleaning fan (2) during movement and reversing on the guide rail (5).

2. The blow-and-suction cleaning machine of the non-impact reversing mechanism according to claim 1, characterized in that: the cleaning fan (2) is driven by the cleaning driving mechanism (6) to blow and suck air for cleaning, the cleaning driving mechanism (6) is a fan motor, and the cleaning driving mechanism (6) is installed at the upper end of the cleaning fan (2).

3. The blow-and-suction cleaning machine of the non-impact reversing mechanism according to claim 1, characterized in that: displacement actuating mechanism (4) are including action wheel (41) and follow driving wheel (42), action wheel (41) with follow driving wheel (42) symmetry and install the both ends of frame (1), action wheel (41) with follow driving wheel (42) and pass through conveyer belt (7) transmission connection, the bottom vertical fixation of dead lever (32) is in on conveyer belt (7).

4. The blow-and-suction cleaning machine of the non-impact reversing mechanism according to claim 1, characterized in that: rotatory protection unit (31) include fixed axle (311), bearing (312) and swinging boom (313), fixed axle (311) vertical fixation is in the bottom of clean fan (2), the bottom cover of fixed axle (311) is established and is fixed on the inner circle of bearing (312), the one end of swinging boom (313) is fixed on the outer lane of bearing (312), the extending direction of the swinging boom (313) other end with the extending direction of guide rail (5) is parallel and is located the top of displacement drive mechanism (4), the top of dead lever (32) is connected perpendicularly on swinging boom (313), the other end of swinging boom (313) with stable unit (33) are connected.

5. The blow-and-suction cleaning machine of the non-impact reversing mechanism according to claim 4, characterized in that: the stabilizing unit (33) comprises a connecting rod (331) and a damper (332), the bottom of the connecting rod (331) is vertically connected to the other end of the rotating arm (313), the damper (332) is installed at the top of the connecting rod (331), and the damper (332) abuts against the bottom of the cleaning fan (2).

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