CN218561727U - Flyer frame is with inhaling fine hair dust collector - Google Patents

Abstract

The utility model provides a roving frame is with inhaling fine hair dust collector relates to and inhales fine hair dust collector technical field, including material loading subassembly and clearance dust removal mechanism, the interior limit side top of material loading subassembly is provided with the fine hair part that inhales of bolt assembly, the inboard of material loading subassembly is provided with the clearance dust removal mechanism that the bolt cup jointed, clearance dust removal mechanism includes central box, bolt screen panel; the utility model discloses mainly utilize and set up the clearance rotation brush by driven gear connection in the inboard non-woven fabrics cover of laminating of tuber pipe, after long-time use, the rotation of starter motor output power drive driving gear, let the driving gear drive driven gear mesh the transmission, rotation through driven processing, make the rotation of clearance brush to cover adnexed a large amount of dust of plugging up the hole in the non-woven fabrics and carry out effectual cleaing away, the high-efficient operation of retaining device to dust collection efficiency that can be long-time like this, and avoided frequent clearance and the maintenance to equipment of staff.

Description

Fine hair dust collector is inhaled to fly frame

Technical Field

The utility model relates to an inhale fine hair dust collector technical field, especially relate to a roving frame is with inhaling fine hair dust collector.

Background

The roving frame is a spinning machine for making fiber slivers into roving, a large amount of fluff and dust can be generated when the roving frame works, and the impurity and dirt need to be cleaned in time so as to keep the roving frame working normally for a long time.

Present inhale fine hair dust collector when using, can keep in absorptive dust usually and place among a container, but long-time use can cause the region of dust auxiliary air circulation, leads to the efficiency variation that removes dust, consequently, the utility model provides a roving frame is with inhaling the problem that fine hair dust collector exists in order to solve prior art.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides a roving frame is with inhaling fine hair dust collector, this roving frame is with inhaling fine hair dust collector mainly utilizes the clearance rotation brush that sets up by driven gear connection in the non-cloth cover of the inboard laminating of tuber pipe, after long-time use, the rotation of starter motor output power drive driving gear, let the driving gear drive driven gear mesh the transmission, rotation through driven processing, make the rotation of clearance brush carry out effectual cleaing away to the adnexed dust of plugging up the hole in a large number in the non-woven fabrics cover, the high-efficient operation of retaining device to dust collection efficiency that can be long-time like this, and avoided the frequent clearance and the maintenance to equipment of staff.

For realizing the purpose of the utility model, the utility model discloses a following technical scheme realizes: a fluff suction and dust removal device for a roving frame comprises a feeding assembly and a cleaning and dust removal mechanism, wherein a fluff suction component assembled by bolts is arranged above the inner side of the feeding assembly, and the cleaning and dust removal mechanism sleeved by bolts is arranged on the inner side of the feeding assembly;

clearance dust removal mechanism includes central box, bolt screen panel, inboard screen panel, low tube, bolt top cap, bears box, tuber pipe, non-woven fabrics cover, powerful fan, motor base, motor, rotary rod, driving gear, driven gear, transmission shaft and clearance brush, the central box passes through bolt screen panel bolted connection and is in the inboard of material loading subassembly, the inboard of bolt screen panel is provided with inboard screen panel, the below of central box is cup jointed with the bolt top cap through the low tube and is connected, the below of bolt top cap is provided with the box that bears of bolt assembly, just the both sides of bearing the box are provided with the tuber pipe of installation non-woven fabrics cover, the one end of tuber pipe is provided with powerful fan, the top side of central box is provided with the motor base of installation motor, the output of motor runs through the motor base is connected with the rotary rod, just the one end of rotary rod is provided with the driving gear that the driven gear was connected in the meshing, driven gear's one end is provided with the transmission shaft, just the one end of transmission shaft is provided with the clearance brush.

The further improvement is that the bolt mesh enclosure and the inner side mesh enclosure are both in a latticed structure, the pore density of the inner side mesh enclosure is greater than that of the bolt mesh enclosure, and the lower pipe, the bolt top cover and the central axis of the bearing box are positioned on the same straight line.

The improved structure is characterized in that the driven gear and the transmission shaft are symmetrically distributed with the central axis of the driving gear, the cleaning brush is of a brush-shaped structure, and the cleaning brush is perpendicular to the transmission shaft.

The improved structure of the roving frame is characterized in that the feeding assembly comprises a base plate, a pore plate, a flip cover, a bearing frame and a roving barrel, the pore plate is arranged above the inner end of the base plate, the flip cover connected with a hinge is arranged on one side of the pore plate, the bearing frame is arranged below the flip cover, and the roving barrel connected with a bearing is arranged on the outer side of the bearing frame.

The improved structure is characterized in that the down absorbing component comprises a lead screw box, an electromagnetic slide rail, an electromagnetic slide block, a bolt sleeve block and a double-layer static grid, the lead screw box is arranged above the inner side of the base plate, the electromagnetic slide rail is connected to the inner side of the lead screw box in a sliding mode, and the bolt sleeve block is arranged above the electromagnetic slide block in a bolt inserting mode.

The bolt sleeve block is further improved in that a double-layer static grid is arranged on the top side of the bolt sleeve block and is of a double-layer grid structure.

The utility model has the advantages that:

the utility model discloses mainly utilize the clearance that sets up by driven gear connection in the non-woven fabrics cover of the inboard laminating of tuber pipe to rotate the brush, after long-time use, the rotation of starter motor output power drive driving gear, let the driving gear drive driven gear mesh the transmission, rotation through driven processing, make the rotation of clearance brush to the non-woven fabrics cover adnexed a large amount of dust of plugging up the hole carry out effectual cleaing away, the high-efficient operation of retaining device to dust collection efficiency that can be long-time like this, and avoided the frequent clearance and the maintenance to equipment of staff.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic bottom perspective view of the present invention;

FIG. 3 is a schematic view of the cross-sectional three-dimensional structure of the present invention;

fig. 4 is a schematic view of a three-dimensional structure of the fluff absorbing component of the present invention.

Wherein: 1. a feeding assembly; 101. a base plate; 102. a pore plate; 103. a cover is turned; 104. a bearing bracket; 105. a roving bobbin; 2. a lint absorbing member; 201. a lead screw box; 202. an electromagnetic slide rail; 203. an electromagnetic slider; 204. a bolt bushing block; 205. a double-layer static grid; 3. a cleaning and dust removing mechanism; 301. a central box body; 302. a bolt mesh enclosure; 303. an inner mesh enclosure; 304. a lower pipe; 305. a bolt top cover; 306. a carrying box; 307. an air duct; 308. a nonwoven fabric cover; 309. a powerful fan; 3010. a motor base; 3011. an electric motor; 3012. rotating the rod; 3013. a driving gear; 3014. a driven gear; 3015. a drive shaft; 3016. a cleaning brush.

Detailed Description

In order to deepen the understanding of the present invention, the following embodiments will be combined to make the present invention do further details, and the present embodiment is only used for explaining the present invention, and does not constitute the limitation of the protection scope of the present invention.

According to the drawings of fig. 1-4, the embodiment provides a fluff suction and dust removal device for a roving frame, which comprises a feeding assembly 1 and a cleaning and dust removal mechanism 3, wherein a fluff suction component 2 assembled by bolts is arranged above the inner side of the feeding assembly 1, and the cleaning and dust removal mechanism 3 sleeved by bolts is arranged on the inner side of the feeding assembly 1;

the cleaning and dust removing mechanism 3 comprises a central box body 301, a bolt mesh enclosure 302, an inner mesh enclosure 303, a lower pipe 304, a bolt top cover 305, a bearing box 306, an air pipe 307, a non-woven fabric enclosure 308, a powerful fan 309, a motor base 3010, a motor 3011, a rotary rod 3012, a driving gear 3013, a driven gear 3014, a transmission shaft 3015 and a cleaning brush 3016, wherein the central box body 301 is connected to the inner side of the feeding assembly 1 through the bolt mesh enclosure 302 by bolts, the inner mesh enclosure 303 is arranged on the inner side of the bolt mesh enclosure 302, the lower part of the central box body 301 is connected with the bolt top cover 305 through the lower pipe 304 in a sleeved mode, the bearing box 306 assembled by bolts is arranged below the bolt top cover 305, the air pipe 307 provided with the non-woven fabric enclosure 308 is arranged on two sides of the bearing box 306, the powerful fan 309 is arranged on one end of the air pipe 307, the motor base 3010 provided with the motor 3011 on the top side of the central box body 301, the output end of the motor 3011 is connected with the rotary rod 3012 through the motor base 3010, the driving gear 3013 in a meshed mode with the driving gear 3013 connected with the driven gear 3014, one end of the cleaning brush 3015 is provided on the cleaning brush 3016.

The bolt mesh enclosure 302 and the inner mesh enclosure 303 are both of a grid structure, the pore density of the inner mesh enclosure 303 is greater than that of the bolt mesh enclosure 302, and the lower pipe 304 is aligned with the central axes of the bolt cap 305 and the bearing box 306.

In this embodiment, when the fluff absorbing component 2 assists in cleaning fluff, the powerful fan 309 at one end of the air pipe 307 is activated to output wind power, so that air containing dust around the loading module 1 is input into the central box 301 through the bolt mesh enclosure 302 and the inner mesh enclosure 303, and the air containing dust is input into the bearing box 306 below the bolt top cover 305 through the lower pipe 304 below the central box 301, so as to effectively bear the fluff, and facilitate effective cleaning of the fluff by a user after being detached.

Driven gear 3014 and transmission shaft 3015 are with the axis symmetry distribution of driving gear 3013, and cleaning brush 3016 is the brush column structure, and cleaning brush 3016 is perpendicular to transmission shaft 3015 each other.

In this embodiment, when the dust has plugged up the inboard non-woven fabrics cover 308 of tuber pipe 307, starter motor 3011 output power drives rotary rod 3012 and rotates, rotation through rotary rod 3012 drives driving gear 3013 and carries out effectual rotation, make driving gear 3013 drive driven gear 3014 and rotate, the rotation through driven gear 3014 drives transmission shaft 3015 and rotates, drive the effect of dredging air passage in order to reach in time to clear up the inboard non-woven fabrics cover 308 of tuber pipe 307 through transmission shaft 3015 and drive clearance brush 3016.

Feeding assembly 1 includes base plate 101, hole board 102, flip 103, bearing bracket 104 and roving section of thick bamboo 105, and the inner top of base plate 101 is provided with hole board 102, and one side of hole board 102 is provided with hinged joint's flip 103, and the below of flip 103 is provided with bearing bracket 104, and the outside of bearing bracket 104 is provided with roving section of thick bamboo 105 that the bearing is connected.

In this embodiment, a roving bobbin 105 carrying the roving is placed on the bearing frame 104, and the cover 103 on one side of the aperture plate 102 closes the bearing frame 104, so that the roving passes through the output device in the gap between the aperture plates 102 above the inner side of the base plate 101, and the operation effect is achieved.

The down-absorbing component 2 comprises a screw rod box 201, an electromagnetic slide rail 202, an electromagnetic slide block 203, a bolt sleeve block 204 and a double-layer static grid 205, the screw rod box 201 is arranged above the inner side of the base plate 101, the electromagnetic slide block 203 is connected to the inner side of the screw rod box 201 in a sliding mode through the electromagnetic slide rail 202, and the bolt sleeve block 204 in bolt insertion connection is arranged above the electromagnetic slide block 203.

The top side of the bolt sleeve block 204 is provided with a double-layer static grid 205, and the double-layer static grid 205 is of a double-layer grid structure.

In this embodiment, after the roving is exported, it drives electromagnetic sliding block 203 to carry out reciprocating type operation back and forth through starting inboard electromagnetism slide rail 202 output power of lead screw box 201, through utilizing bolt nest block 204 bolted connection in electromagnetic sliding block 203 with double-deck static electric wire netting 205, after starting double-deck static electric wire netting 205 operation, let double-deck static electric wire netting 205 reach the effect that produces static, make double-deck static electric wire netting 205 that possesses static possess carry out effectual attraction with the fine hair impurity when roving is exported, because electromagnetic sliding block 203 and bolt nest block 204 are bolted connection, consequently, can be convenient for the user to carry out effectual dismantlement, in order to reach the effect of the clearance of being convenient for.

The working principle of the fluff sucking and dust removing device for the roving frame is as follows: firstly, a roving barrel 105 bearing roving is placed on a bearing frame 104, a flip 103 at one side of a pore plate 102 closes the bearing frame 104, so that the roving passes through an output device in a gap between the pore plates 102 above the inner side of a base plate 101 to achieve the operation effect, after the roving is output, an electromagnetic sliding block 203 is driven to perform reciprocating back and forth operation by starting an electromagnetic sliding rail 202 at the inner side of a lead screw box 201 to output power, a double-layer static grid 205 is connected above the electromagnetic sliding block 203 through a bolt sleeve block 204 by a bolt, after the double-layer static grid 205 is started to operate, the double-layer static grid 205 achieves the effect of generating static electricity, so that the double-layer static grid 205 with static electricity has the effect of effectively absorbing fluff impurities when the roving is output, and the electromagnetic sliding block 203 and the bolt sleeve block 204 are in bolt sleeve connection, so that the effective disassembly of a user can be facilitated, when the fluff absorbing component 2 assists in cleaning fluff, by starting the powerful fan 309 at one end of the air pipe 307 to output wind power, air containing dust around the feeding assembly 1 is input into the central box 301 through the bolt mesh enclosure 302 and the inner mesh enclosure 303, and air containing dust is input into the bearing box 306 below the bolt top cover 305 through the lower pipe 304 below the central box 301, so as to effectively bear the weight, and after being detached by a user, for effective cleaning of dust, when the non-woven fabric enclosure 308 inside the air pipe 307 is blocked by dust, the starting motor 3011 outputs power to drive the rotary rod 3012 to rotate, and by rotation of the rotary rod 3012, the driving gear 3013 is driven to effectively rotate, so that the driving gear 3013 drives the driven gear 3014 to rotate, and by rotation of the driven gear 3014, the transmission shaft 3015 is driven to rotate, the cleaning brush 3016 is driven by the transmission shaft 3015 to clean the non-woven fabric cover 308 inside the air duct 307 in time to dredge the air passage.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. 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 (6)

1. The utility model provides a roving frame is with inhaling fine hair dust collector, includes feeding component (1) and clearance dust removal mechanism (3), its characterized in that: a down sucking component (2) assembled by bolts is arranged above the inner side of the feeding component (1), and a cleaning and dust removing mechanism (3) sleeved by bolts is arranged on the inner side of the feeding component (1);

the cleaning and dust removing mechanism (3) comprises a central box body (301), a bolt mesh enclosure (302), an inner side mesh enclosure (303), a lower pipe (304), a bolt top cover (305), a bearing box (306), an air pipe (307), a non-woven fabric cover (308), a powerful fan (309), a motor base (3010), a motor (3011), a rotary rod (3012), a driving gear (3013), a driven gear (3014), a transmission shaft (3015) and a cleaning brush (3016), wherein the central box body (301) is connected to the inner side of the feeding assembly (1) through bolts of the bolt mesh enclosure (302), the inner side mesh enclosure (303) is arranged on the inner side of the bolt mesh enclosure (302), the lower portion of the central box body (301) is connected with the bolt top cover (305) through the lower pipe (304) in a sleeved mode, the bearing box (306) assembled with bolts is arranged below the bolt top cover (302), the air pipe (307) provided with the non-woven fabric cover (308) is arranged on two sides of the bearing box (306), the air pipe (307) is provided with the powerful fan (309), the top cover (307), the top side of the central box body (301) is provided with the motor base (3011), the motor base (3010) and the motor base (3010) penetrates through the motor base (3010), and one end of the rotary rod (3012) is provided with a driving gear (3013) engaged with a driven gear (3014), one end of the driven gear (3014) is provided with a transmission shaft (3015), and one end of the transmission shaft (3015) is provided with a cleaning brush (3016).

2. The fluff suction and dust removal device for the roving frame according to claim 1, characterized in that: the bolt mesh enclosure (302) and the inner side mesh enclosure (303) are both in a latticed structure, the pore density of the inner side mesh enclosure (303) is larger than that of the bolt mesh enclosure (302), and the lower pipe (304) is positioned on the same straight line with the bolt top cover (305) and the central axis of the bearing box (306).

3. The fluff suction and dust removal device for the roving frame according to claim 1, characterized in that: the driven gear (3014) and the transmission shaft (3015) are symmetrically distributed on the basis of the central axis of the driving gear (3013), the cleaning brush (3016) is of a brush-shaped structure, and the cleaning brush (3016) is perpendicular to the transmission shaft (3015).

4. The fluff suction and dust removal device for the roving frame according to claim 1, characterized in that: material loading subassembly (1) is including base plate (101), pore board (102), flip (103), bearing bracket (104) and roving section of thick bamboo (105), the inner top of base plate (101) is provided with pore board (102), just one side of pore board (102) is provided with hinged joint's flip (103), the below of flip (103) is provided with bearing bracket (104), just the outside of bearing bracket (104) is provided with roving section of thick bamboo (105) that the bearing is connected.

5. The fluff suction and dust removal device for the roving frame according to claim 4, characterized in that: inhale fine hair spare (2) and include lead screw box (201), electromagnetism slide rail (202), electromagnetism slider (203), bolt cover piece (204) and double-deck static electricity net (205), lead screw box (201) set up the inboard top of base plate (101), the inboard of lead screw box (201) has electromagnetism slider (203) through electromagnetism slide rail (202) sliding connection, just the top of electromagnetism slider (203) is provided with bolt cover piece (204) that the bolt was pegged graft.

6. The fluff suction and dust removal device for the roving frame according to claim 5, characterized in that: the top side of the bolt sleeve block (204) is provided with a double-layer static grid (205), and the double-layer static grid (205) is of a double-layer grid structure.

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