CN203795101U - Knitting machine air-injection dust removing device capable of rotating clockwise and counterclockwise - Google Patents

Abstract

Disclosed is a knitting machine air-injection dust removing device capable of rotating clockwise and counterclockwise. The device is provided with a rotation mechanism (10) and a control mechanism (20) connected with the rotation mechanism (10). The rotation mechanism (10) is arranged at the center of a knitting machine body, a first air-injection dust removing device (31) and a second air-injection dust removing device (32) are connected to the rotation mechanism (10), the rotation mechanism (10) is capable of rotating clockwise and counterclockwise, rotates clockwise and counterclockwise alternately according to set time or a set angle or a set number of rotation turns under the control of the control mechanism (20) and drives an air-injection dust removing device body (30) to rotate synchronously to conduct rotary dust removing on the machine body (100). The knitting machine air-injection dust removing device can rotate clockwise and counterclockwise alternately to enable yarn fluff and dust adhering to the machine body to be thoroughly removed under the bidirectional air injection alternation effect, and is compact in structure and small in occupied space.

Description

The jet dust arrester of knitting machine that can forward and reverse rotation

Technical field

The utility model relates to the weaving dust arrester of circular cyiinder knitting machine, and particularly relating to one can alternately rotate forward or backwards, thus can high-efficient cleaning except knitting machine dust can forward and reverse rotation the jet dust arrester of knitting machine.

Background technology

In textile industry, using various types of knitting machines, it can produce a large amount of yarn hairs in weaving process, and the yarn hair of textile raw material surface attachment also can be scattered in weaving process, the yarn hair constantly producing is as cleaning not in time, will be deposited in many positions such as the needle tray, yarn feeder, yarn mouth of machine and design on fabric surface and affect the normal operation of machine, and cause time point of processing cloth to increase, and can pollute knitting machine and surrounding environment, and workman's health is impacted.For the dedusting on board surface and textile raw material surface, existing knitting machine generally adopts many desk fans dedusting method, the diverse location compartment of terrain on the annular frame of a rotation is equiped with many desk fans, and in the time that annular frame rotates, every desk fan only does Two Dimensional Rotating in specific circumference.The defect of the dedusting method of this Two Dimensional Rotating is apparent, because the dust extraction fan of this class device reaches 6～8, not only take the large quantity space of board top, seem disorderly and unsystematic, and in running, produce a large amount of noises, and consumed more electric energy.And owing to can not laying more fan, and form some dedusting dead angles, affected dust removing effects and product quality.

Summary of the invention

The utility model is intended to address the above problem, rotate forward or backwards and provide one to hocket, the yarn hair and the dust that make to be attached on board are thoroughly removed under two-way jet alternating action, and compact conformation, take up room little, can to whole board need dedusting position carry out dedusting can forward and reverse rotation the jet dust arrester of knitting machine.

For achieving the above object, the utility model provides a kind of jet dust arrester of knitting machine that can forward and reverse rotation, the controlling organization that this device is provided with rotating mechanism and is attached thereto, described rotating mechanism is arranged on knitting machine board central authorities, on rotating mechanism, be connected with the first jet dust arrester, the second jet dust arrester, described rotating mechanism is forward and reverse rotating mechanism, its under described controlling organization control with the time, angle set or rotate the number of turns forward or reverse that hockets, and drive jet dust arrester synchronously to rotate, to the formula that the is rotated dedusting of board.

Rotating mechanism comprises motor, electric machine support, column, axle sleeve, the first gear train, the second gear train and rotary body, described motor is can clockwise and anticlockwise motor, it is fixed on electric machine support, described axle sleeve is fixed on the column of board central authorities, be provided with the first air inlet and the second air inlet in axle sleeve upper end, described electric machine support is fixed on axle sleeve, described the first gear train is put in rotary body upper end, and be connected with motor and the first jet dust arrester, described the second gear train is arranged on rotary body lower end, and be connected with the second jet dust arrester, rotary body is located at the first gear train, between the second gear train.

The first gear train comprises the first driven gear that the first driving gear is engaged with, and described the first driving gear is pinion, and it is contained on the motor shaft of motor, and the first driven gear is gear wheel, and it is fixed on the top of rotary body; The fixed gear that described the second gear train comprises two the second driving gears, engage with two the second driving gears and be fixed on the first Connection Block, second Connection Block in described rotary body outside, described the second driving gear is pinion, and they are contained in respectively the bottom of the first Connection Block, the second Connection Block; Fixed gear is gear wheel, and it is placed in rotary body bottom, and affixed with column.

Rotary body comprises cylindrical shell, upper bearing (metal) and lower bearing, be formed with the annular boss of convex at the middle part of cylinder inboard wall, cylindrical shell is provided with the first gas outlet and the second gas outlet, and cylindrical shell forms and is rotatably connected by being contained in the upper bearing (metal) of the upper and lower both sides of boss and lower bearing and axle sleeve.

The first jet dust arrester comprises the first gas passage, the first gas outlet and the first air jet pipe, described the first gas passage is by the cylinder inboard wall of rotary body, inwardly recessed the first formed annular air cavity and the first pore of being communicated with to downward-extension and with described the first annular air cavity by first air inlet on axle sleeve top form, cylindrical shell is provided with the second pore being communicated with the first gas outlet and the first annular air cavity, is connected with first air jet pipe at the dedusting position that extends to board on the first gas outlet.

The second jet dust arrester comprises the second gas passage, the second gas outlet and the second air jet pipe, described the second gas passage is by inwardly recessed on the cylinder inboard wall of rotary body, and below or above described the first annular air cavity, the second annular air cavity forming and the 3rd pore being communicated with to downward-extension and with described the second annular air cavity by second air inlet on axle sleeve top form in position, cylindrical shell is provided with the 4th pore being communicated with the second gas outlet and the second annular air cavity, is connected with second air jet pipe at the dedusting position that extends to board on the second gas outlet.

In the both sides up and down of the first annular air cavity and the upside of the second annular air cavity, the first sealing ring, the second sealing ring are housed respectively, and at the downside of the second annular air cavity, the 3rd sealing ring are housed, the binding site of annular air cavity and pore is sealed.

Controlling organization is microprocessor, and it is connected with the motor of rotating mechanism, controls motor by the time, angle set or rotates the number of turns forward or reverse that hockets.

Contribution of the present utility model is, it efficiently solves problems of the prior art.The rotating mechanism of device of the present utility model can alternately carry out (forward) and oppositely (counterclockwise) rotation clockwise by the mode of setting by controlling organization, and simultaneously jet to the dedusting position of board, the dust not being eliminated while making to a direction Rotary dust collecting is thoroughly removed in the time of reverse rotation, thereby be conducive to the yarn hair at the positions such as the needle tray, yarn feeder, yarn mouth of board and the cleaning of dust, and do not stay dead angle, greatly improve efficiency of dust collection, and can effectively ensure quality of textile products.This apparatus structure compactness, takes up room little, makes board top cleaner and tidier, and operates steadily, noiselessness.

Brief description of the drawings

Fig. 1 is overall structure schematic perspective view of the present utility model.

Fig. 2 is another overall structure schematic perspective view of the present utility model.

Fig. 3 is parts exploded perspective schematic diagram of the present utility model.

Fig. 4 is rotating mechanism structure cutaway view of the present utility model.

Fig. 5 is the use view that rotating mechanism of the present utility model turns to a certain position.

Fig. 6 is the use view that rotating mechanism of the present utility model turns to another location.

Detailed description of the invention

The following example is to further explanation of the present utility model and explanation, and the utility model is not constituted any limitation.

Consult Fig. 1～Fig. 3, the jet dust arrester of knitting machine that can forward and reverse rotation of the present utility model comprises rotating mechanism 10, controlling organization 20, the first jet dust arrester 31 and the second jet dust arrester 32.

As shown in Figure 1 to 4, described rotating mechanism 10 comprises motor 11, electric machine support 12, column 13, axle sleeve 14, the first gear train 15, the second gear train 16 and rotary body 17.Described motor 11 is can clockwise and anticlockwise motor, and it is fixed on electric machine support 12, in the present embodiment, electric machine support 12 by connecting ring 121 and with it the connecting plate 122 of one form, connecting plate 122 is provided with connecting hole 1221.Described connecting ring 121 is socketed on the axle sleeve 14 on rotating mechanism 30 tops, and fixing with screw and axle sleeve 14.Motor 11 is screwed on connecting plate 122, and motor shaft 111 extends to connecting plate bottom through the connecting hole 1221 of connecting plate 122.Described column 13 is made up of stainless steel tube, and it is vertically fixed on board 100 central authorities, on this column 13, is fixed with axle sleeve 14.As shown in Figure 4, these axle sleeve 14 upper ends are provided with the annular edge of the evagination corresponding with the top endoporus of the cylindrical shell 171 of rotary body along 143, be provided with the first air inlet 141 and second air inlet 142 of two protrusions in axle sleeve upper end, on side wall of shaft sleeve, be provided with the first axial pore 113 that is extended downward the first annular air cavity 1714 by first air inlet 141 on axle sleeve top.In the present embodiment, the first air inlet 141 and the second air inlet 142 are pipe joint, and it is threadedly connected on axle sleeve upper end, and its projection is used for being socketed air induction hose.This first air inlet 141 and the second air inlet 142 are connected with the first gas passage 311 and second gas passage 321 of axle sleeve inside.Described axle sleeve 14 is socketed on described column 13, and fixes with screw and column.Described the first gear train 15 is made up of the first driving gear 151 and the first driven gear 152 of being engaged with, and described the first driving gear 151 is pinion, and it is fixed in motor shaft 111 bottoms of motor.The first driven gear 152 is gear wheel, and it is ring bodies, and this first driven gear is contained in the loop order place at cylindrical shell 171 tops of rotary body, and fixing with screw and cylindrical shell 171.Described the second gear train 16 comprises two the second driving gears 161,162, the fixed gear 163 engaging with two the second driving gears and the first Connection Block 164, the second Connection Block 165, wherein, the first Connection Block 164 and the second Connection Block 165 are blocks, their symmetries are fixed on described rotary body 17 outsides, for connecting two the second driving gears 161,162 and the first air jet pipe 312 and the second air jet pipe 322.The second driving gear 161,162 is pinion, and they are contained in respectively the bottom of the first Connection Block 164 and the second Connection Block 165.Fixed gear 163 is gear wheel, and it is placed in rotary body 17 bottoms, and affixed by welding or alternate manner and axle sleeve 14, and therefore, fixed gear 163 itself does not rotate, but engages rotation by two the second driving gears 161,162 around fixed gear 163.Described rotary body 17 comprises cylindrical shell 171, upper bearing (metal) 172 and lower bearing 173, be formed with the annular boss 1711 of convex at the middle part of cylindrical shell 171 inwalls, between the upside of described annular boss 1711 and the annular edge of axle sleeve are along 143, upper bearing (metal) 172 is housed, at the downside of described annular boss 1711, lower bearing 173 is housed, cylindrical shell 171 is rotatably connected with axle sleeve 14 by described upper bearing (metal) 172, lower bearing 173.On cylindrical shell 171, be provided with symmetrically the first gas outlet 1712 and the second gas outlet 1713, wherein, the first gas outlet 1712 is connected with described the first gas passage 311, and the second gas outlet 1713 is connected with described the second gas passage 321.This rotary body 17 is driven around described column 13 and is rotated by motor 11.When dedusting, drive the first driving gear 151 and the first driven gear 152 to rotate by motor 11, and rotated by the first driven gear 152 driven rotary bodies 17,17 of rotary bodies drive the second driving gear 161,162 to rotate around fixed gear 163, and drive the first jet dust arrester 31 and the second jet dust arrester 32 to rotate dedusting by the second driving gear 161,162.

As shown in Figure 1 to 4, on described rotating mechanism 10, be connected with the first jet dust arrester 31 and the second jet dust arrester 32.Described the first jet dust arrester 31 comprises the first gas passage 311, the first gas outlet 1712 and the first air jet pipe 312; The second jet dust arrester 32 comprises the second gas passage 321, the second gas outlet 1713 and the second air jet pipe 322.The first gas passage 311 in the first jet dust arrester and the second jet dust arrester and the second gas passage 321 for by the compressed air delivery from source of the gas (not shown) to the first air jet pipe 312 and the second air jet pipe 322.Rotate with rotating mechanism 10 and be wound around for avoiding connecting the flexible pipe 50 of source of the gas, this flexible pipe must be connected on nonrotational member.For this reason, described the first gas passage 311 comprises the first annular air cavity 1714 on the cylindrical shell 171 of being located at rotary body and is located at the first pore 113 on static axle sleeve 14, wherein, the first annular air cavity 1714 is radially inwardly recessed on cylindrical shell 171 inwalls, forms the annular air cavity around whole circumference.The first pore 113 is joined and form to downward-extension and with described the first annular air cavity 1714 by first air inlet 141 on axle sleeve 14 tops.Cylindrical shell 171 is provided with the second pore 1715 being communicated with the first gas outlet 1712 and the first annular air cavity 1714, described the first annular air cavity 1714 is communicated with the first gas outlet 1712 on cylindrical shell 171 by the second pore 1715, and this second pore 1715 can be arranged on the arbitrary position on annular air cavity 1714.

Described the second gas passage 321 comprises the second annular air cavity 1716 on the cylindrical shell 171 of being located at rotary body and is located at the 3rd pore 144 on static axle sleeve 14, wherein, the second annular air cavity 1716 is by inwardly recessed on the inwall of cylindrical shell 171, form the annular air cavity around whole circumference, but the position of the second annular air cavity 1716 must, below or above described the first annular air cavity 1714, stagger both positions mutually.Described the 3rd pore 144 is joined and forms to downward-extension and with described the second annular air cavity 1716 by second air inlet 142 on axle sleeve 14 tops.Cylindrical shell 171 is provided with the 4th pore 1718 being communicated with the second gas outlet 1713 and the second annular air cavity 1716.Described the second annular air cavity 1716 is communicated with the second gas outlet 1713 on cylindrical shell 171 by the 4th pore 1718.In Fig. 4, in the both sides up and down of the first annular air cavity 1714 and the upside of the second annular air cavity 1716, the first sealing ring 41, the second sealing ring 42 are housed respectively, and at the downside of the second annular air cavity 1716, the 3rd sealing ring 43 is housed, in case gas is leaked by the binding site of annular air cavity and pore.

As shown in Figure 5, Figure 6, on the first gas outlet 1712, be connected with the first air jet pipe 312 that extends to dedusting position inside board edge, on the second gas outlet 1713, be connected with the second air jet pipe 322 that extends to dedusting position outside board edge, one end of the first air jet pipe 312 and the second air jet pipe 322 is fixed in respectively on the first Connection Block 164, the second Connection Block 165, and the other end extends to board edge.On the first air jet pipe 312 and the second air jet pipe 322, be respectively equipped with two air jet pipe internal run-throughs and protrude from the first joint 3121 outside pipe by link, 3221, the first air jet pipe 312 and the second air jet pipe 322 are used respectively by the first flexible pipe 313 by this joint, the first gas outlet 1712 and the second gas outlet 1713 on the cylindrical shell 171 of the second flexible pipe 323 and rotary body are communicated with, compressed air from source of the gas (not shown) is transported to the first air jet pipe 312 and the second air jet pipe 322 through the first gas passage 311 and the second gas passage 321, when rotating mechanism 10 rotates forward or backwards, spraying gas by the first air jet pipe 312 and the second air jet pipe 322 removes clean by the yarn hair on board and dust.

The rotation mode of rotating mechanism 10 is controlled by described controlling organization 20, and this controlling organization 20 is microprocessor, and it is built-in with control program, for the rotation mode to motor 11, comprises time, the angle of forward or reverse or rotates the number of turns and set or revise.Described controlling organization 20 is connected with the motor 11 of rotating mechanism, control motor by the time, angle set or rotate the number of turns forward or reverse that hockets, for example, motor 11 rotates counterclockwise two circles or 720 degree after often clockwise rotating two circles or 720 degree again, so hocket, can remove yarn hair and dust on board.

Jet dust arrester operation principle of the present utility model can be illustrated with reference to figure 5, Fig. 6.When after starter motor 11, the first driving gear 151 being contained on motor shaft drives the first driven gear 152 and rotary body 17 to rotate.Be contained in the first jet dust arrester 31 on rotary body 17 and the second jet dust arrester 32 and synchronize rotation with rotary body 17, the compressed air of being carried through the first gas passage 311, the second gas passage 321, the first flexible pipe 313, the second flexible pipe 323 by source of the gas is sprayed onto to the dedusting position of board frontside edge and dedusting by the first air jet pipe 312, the second air jet pipe 322.When rotary body 17 is to certain direction, for example, when (forward) rotates clockwise, the first jet dust arrester 31 and the second jet dust arrester 32 can be removed major part and be scattered or be attached to yarn hair and the dust on board, wherein still have part yarn hair and dust to be attached on board because of former carrying on as before such as board surface roughness and jet angles.In the time that rotary body 17 rotates with counterclockwise (oppositely) again, owing to having there is change in jet direction and angle, while making to turn clockwise, fail the yarn hair removed and dust and taken away completely due to jet jet power and suction, therefore can thoroughly remove yarn hair and the dust on board.

Although the utility model is disclosed by above embodiment; but protection domain of the present utility model is not limited to this; do not departing under the condition of the utility model design, distortion, the replacement etc. that above each member is done all will fall within the scope of claim of the present utility model.

Claims (8)

1. One kind can forward and reverse rotation the jet dust arrester of knitting machine, it is characterized in that, the controlling organization (20) that this device is provided with rotating mechanism (10) and is attached thereto, described rotating mechanism (10) is arranged on knitting machine board central authorities, on rotating mechanism (10), be connected with the first jet dust arrester (31), the second jet dust arrester (32), described rotating mechanism (10) is forward and reverse rotating mechanism, it is the time to set under described controlling organization (20) is controlled, angle or rotate the number of turns forward or reverse that hockets, and drive jet dust arrester (30) synchronously to rotate, board (100) is rotated to formula dedusting.
2. 2. the jet dust arrester of knitting machine that can forward and reverse rotation as claimed in claim 1, it is characterized in that, described rotating mechanism (10) comprises motor (11), electric machine support (12), column (13), axle sleeve (14), the first gear train (15), the second gear train (16) and rotary body (17), described motor (11) is can clockwise and anticlockwise motor, it is fixed on electric machine support (12), described axle sleeve (14) is fixed on the column (10) of board (100) central authorities, be provided with the first air inlet (141) and the second air inlet (142) in axle sleeve (14) upper end, described electric machine support (12) is fixed on axle sleeve (14), described the first gear train (15) is arranged on rotary body (17) upper end, and be connected with motor (11) and the first jet dust arrester (31), described the second gear train (32) is arranged on rotary body (17) lower end, and be connected with the second jet dust arrester (32), rotary body (17) is located at the first gear train (31), between the second gear train (32).
3. 3. the jet dust arrester of knitting machine that can forward and reverse rotation as claimed in claim 2, it is characterized in that, described the first gear train (15) comprises the first driven gear (152) that the first driving gear (151) is engaged with, described the first driving gear (151) is pinion, it is contained on the motor shaft (111) of motor (11), the first driven gear (152) is gear wheel, and it is fixed on the top of rotary body (17); The fixed gear (163) that described the second gear train (16) comprises two the second driving gears (161,162), engage with two the second driving gears and be fixed on the first Connection Block (164), second Connection Block (165) in described rotary body (17) outside, described the second driving gear (161,162) is pinion, and they are contained in respectively the bottom of the first Connection Block (164), the second Connection Block (165); Fixed gear (163) is gear wheel, and it is placed in rotary body (17) bottom, and affixed with column (13).
4. 4. the jet dust arrester of knitting machine that can forward and reverse rotation as claimed in claim 2, it is characterized in that, described rotary body (17) comprises cylindrical shell (171), upper bearing (metal) (172) and lower bearing (173), be formed with the annular boss (1711) of convex at the middle part of cylindrical shell (171) inwall, cylindrical shell (171) is provided with the first gas outlet (1712) and the second gas outlet (1713), and cylindrical shell (171) is formed and is rotatably connected with axle sleeve (14) by the upper bearing (metal) (172) and the lower bearing (173) that are contained in the upper and lower both sides of boss (1711).
5. 5. the jet dust arrester of knitting machine that can forward and reverse rotation as claimed in claim 4, it is characterized in that, described the first jet dust arrester (31) comprises the first gas passage (311), the first gas outlet (1712) and the first air jet pipe (312), described the first gas passage (31) is by inwardly recessed formed the first annular air cavity (1714) and the first pore (113) formation of being communicated with to downward-extension and with described the first annular air cavity (1714) by first air inlet (141) on axle sleeve (14) top on cylindrical shell (171) inwall of rotary body, cylindrical shell (171) is provided with the second pore (1715) being communicated with the first gas outlet (1712) and the first annular air cavity (1714), on the first gas outlet (1712), be connected with first air jet pipe (312) at the dedusting position that extends to board.
6. 6. the jet dust arrester of knitting machine that can forward and reverse rotation as claimed in claim 5, it is characterized in that, described the second jet dust arrester (32) comprises the second gas passage (321), the second gas outlet (1713) and the second air jet pipe (322), inwardly recessed on cylindrical shell (171) inwall of described the second gas passage (321) by rotary body, and the second annular air cavity (1716) that position forms below or above described the first annular air cavity (1714) and the 3rd pore (144) being communicated with to downward-extension and with described the second annular air cavity (1716) by second air inlet (142) on axle sleeve (14) top form, cylindrical shell (171) is provided with the 4th pore (1718) being communicated with the second gas outlet (1713) and the second annular air cavity (1716), on the second gas outlet (1713), be connected with second air jet pipe (322) at the dedusting position that extends to board.
7. 7. the jet dust arrester of knitting machine that can forward and reverse rotation as claimed in claim 6, it is characterized in that, in the both sides up and down of the first annular air cavity (1714) and the upside of the second annular air cavity (1716), the first sealing ring (41), the second sealing ring (42) are housed respectively, and at the downside of the second annular air cavity (1716), the 3rd sealing ring (43) is housed, the binding site of annular air cavity and pore is sealed.
8. 8. the jet dust arrester of knitting machine that can forward and reverse rotation as claimed in claim 1, it is characterized in that, described controlling organization (20) is microprocessor, and it is connected with the motor (11) of rotating mechanism, controls motor by the time, angle set or rotates the number of turns forward or reverse that hockets.