CN113882074A

CN113882074A - Dedusting type needle cylinder of single-side large circular knitting machine

Info

Publication number: CN113882074A
Application number: CN202111162978.4A
Authority: CN
Inventors: 吴志良; 张月明; 张爱燕; 张旭辉; 张佳君
Original assignee: Quanzhou Baosheng Machinery Co ltd
Current assignee: Quanzhou Dongtai Machinery Co ltd
Priority date: 2021-09-30
Filing date: 2021-09-30
Publication date: 2022-01-04
Anticipated expiration: 2041-09-30
Also published as: CN113882074B

Abstract

The invention discloses a dedusting type needle cylinder of a single-side circular knitting machine, wherein a dust suction device is arranged on the outer side of the needle cylinder at intervals, the dust suction device comprises a box body, a flow guide mechanism and an exhaust mechanism, the deflocculating device comprises a deflocculating cylinder assembly and a plurality of deflocculating assemblies, the deflocculating cylinder assembly is integrally formed by a first cylinder body and a second cylinder body, the outer side of the first cylinder body is connected with a plurality of deflocculating sheets, the cylinder wall of the second cylinder body is provided with a plurality of groups of baffles, the baffles are respectively positioned at two end parts of the second cylinder body, and the deflocculating assemblies are respectively arranged at corresponding long grooves on the outer side of the second cylinder body. According to the invention, a large amount of cotton wool generated by the large circular machine during working can be effectively collected through the dust collection device, so that the large cotton wool is hooked, the small cotton wool is fully collected in water, a human body is protected, and the cotton wool removing cylinder assembly is convenient to disassemble and assemble.

Description

Dedusting type needle cylinder of single-side large circular knitting machine

Technical Field

The invention relates to a single-side circular knitting machine needle cylinder, in particular to a dust removal type needle cylinder of a single-side circular knitting machine.

Background

The circular knitting machine has the advantages of multiple knitting systems, high rotating speed, high yield, fast change of flower shapes, good quality of fabrics, few working procedures and strong adaptability of products, so the circular knitting machine is developed quickly. The single-side circular knitting machine is also called fool circular knitting machine, and the knitting production can be carried out by inserting a designed and made floppy disk into a computer and inputting a program. The machine adopts a computer program to carry out knitting needle selection for knitting, non-knitting and tucking, has two work positions and three work positions, is used for knitting the knitting fabric for producing large patterns, but in the production process, dust wadding is easily accumulated between an upper cylinder and a lower cylinder, the running resistance of the machine is increased, so that the loss of parts in the machine is large, the existing cotton wadding is not easy to clean, and the normal production is influenced.

Disclosure of Invention

In view of this, the present invention provides a dust-removing type needle cylinder for a single-side circular knitting machine, so as to solve the above technical problems.

In order to achieve the purpose, the invention provides the following technical scheme:

a single-face great circle machine dust removal type cylinder comprises an outer sinker disc, a lower cylinder body and an upper cylinder body which are installed together in a matching mode, and further comprises a dust suction device used for adsorbing cotton wool, wherein the dust suction device comprises:

the box body is provided with a pipeline assembly, the upper end of the pipeline assembly is connected between the outer sinker disc and the lower barrel body, and the lower end of the pipeline assembly is communicated with the inside of the box body;

a lint removing device comprising an inclined plate provided on the box, the inclined plate being accommodated in a first bin of the box, the cotton wool removing device also comprises a plurality of cotton wool removing cylinder assemblies which are detachably arranged on the inclined plate, and a plurality of lint removing cylinder assemblies facing a lower end of the pipe assembly, the lint removing cylinder assemblies including a first cylinder and a second cylinder detachably coupled together, the first cylinder body is detachably arranged on the inclined plate, a plurality of first small holes are arranged on the outer wall of the first cylinder body, the outer side of the first small hole is connected with a cotton fiber removing sheet for hooking cotton fibers, both ends of the cylinder wall of the second cylinder are provided with a plurality of pairs of baffles for hooking the cotton fibers, the cylinder wall of the second cylinder body is provided with a plurality of short grooves, and cotton wool removing components for hooking cotton wool are arranged at the short grooves;

the flow guide mechanism is arranged in the second bin of the box body, a transverse plate on the flow guide mechanism is erected in the box body, a plurality of left through holes and a plurality of right through holes are formed in the transverse plate, two ends of the left through holes are respectively communicated with the second bin and the third bin of the box body, and two ends of the right through holes are respectively communicated with the first bin and the second bin;

and the exhaust mechanism is arranged in the third bin, and the upper end of the exhaust mechanism extends out of the box body.

Further, remove flocculus and go up installation department, first slope, first flexion, second slope and the convex part including integrative connection, the convex part is whole to be the hemisphere form.

Furthermore, all be the slope interval setting between a pair of baffle, just the upper end of baffle all is provided with a plurality of and is used for catching on the dogtooth of cotton fibre.

Furthermore, except that the wadding subassembly includes bedplate, lower shell fragment, last shell fragment, lower arc portion and last arc portion, the bedplate with the interior diapire rigid coupling of the outer elongated slot of short groove, down the shell fragment with it all connects to go up the equal slope of shell fragment on the bedplate, just down the shell fragment orientation the extension of short groove of second barrel, and stretch into in the second barrel, go up the shell fragment orientation the outer end of second barrel extends, lower arc portion with go up arc portion difference body coupling down the shell fragment with go up on the shell fragment.

Furthermore, an included angle formed between the lower elastic sheet and the upper elastic sheet is 60 degrees.

Furthermore, the pipeline assembly comprises a side flange, a hose and a dust hood, the side flange is installed on the outer wall of the box body in a matched mode, the dust hood is connected with the outer sinker disc and the lower barrel body, and two ends of the hose are connected between the side flange and the dust hood respectively.

Furthermore, the dust hood comprises an annular hood body and a conical pipe, an upper annular plate of the annular hood body and a lower annular plate of the annular hood body are respectively installed on the outer sinker disc and the lower barrel body, two ends of the conical pipe are respectively connected between the annular hood body and the hose, and a dust absorption annular cavity is formed among the annular hood body, the lower barrel body and the outer sinker disc.

Still further, the diversion mechanism includes a pair of first risers and a pair of second risers, each of which enables fine batting to be adequately collected in the water of the second bin.

Furthermore, the exhaust mechanism comprises an exhaust pipe, an upper flange and a fan, the upper flange is installed at the upper end of the box body and close to the opening of the third bin, the exhaust pipe is connected with the upper flange, and the fan is arranged inside the third bin.

Furthermore, an upper opening is formed in the upper end of the box body, which is close to the first bin, an upper cover is arranged on the outer end face of the upper opening, and the inclined plate is located below the upper opening so as to facilitate the detachment and installation of the lint removing cylinder assembly.

The technical scheme can show that the invention has the advantages that: according to the invention, a large amount of cotton wool generated by the large circular machine during working can be effectively collected through the dust collection device, and the cotton wool removing sheets, the baffle plates and the cotton wool removing assembly in the cotton wool removing barrel assembly are arranged, so that the large cotton wool entering through the side flange is hooked, the fine cotton wool passes through the second bin and is removed in water in the second bin, thereby protecting a human body, the inclined plate is arranged below the upper opening, and the cotton wool removing barrel assembly is arranged on the inclined plate, so that the upper cover can be conveniently opened, the cotton wool removing barrel assembly can be disassembled, installed and replaced, the maintenance is convenient, and the maintenance and replacement time is saved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention.

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a partial enlarged view at T of fig. 1.

Figure 3 is a side cross-sectional view of the dust extraction of the present invention.

Fig. 4 is a partially enlarged view of fig. 3 at U.

Fig. 5 is a partial enlarged view of fig. 4 at V.

Fig. 6 is a partial enlarged view of fig. 5 at W.

Fig. 7 is a partial enlarged view at X of fig. 5.

Fig. 8 is a partial enlarged view at Y of fig. 5.

Fig. 9 is a partial enlarged view of a portion a of fig. 8.

List of reference numerals: the vacuum cleaner comprises a lower cylinder 10, an upper cylinder 11, an outer sinker 12, a ring groove 13, a needle groove 14, a vacuum cleaner 20, a box 21, a first bin 211, an upper fixing plate 2111, a lower fixing plate 2112, a front chamber 2113, a rear chamber 2114, a second bin 212, a third bin 213, an upper opening 214, an upper cover 215, a first riser 216, a second riser 217, a left through hole 218, a right through hole 219, a leg 22, an exhaust pipe 23, an upper flange 24, a side flange 25, a hose 26, a dust hood 27, an annular hood 271, an upper annular plate 2711, a lower annular plate 2712, a tapered pipe 272, a fan 28, an annular dust-collecting chamber 30, a lint remover 40, an inclined plate 41, an inclined hole 411, a connecting pipe 42, a lint remover assembly 43, a first cylinder 431, a first small hole 4311, a lint remover 4312, a mounting portion 43121, a first inclined portion 43122, a first 43123, a second 43124, a 43125, a second cylinder 432, a long groove 4321, a short groove 4323, a baffle 4323, a tooth 43231, a mounting portion 231, a mounting portion 43121, a first inclined portion 43432, a first inclined portion 43231, a second inclined portion, The lint removing component 4324, the seat plate 43241, the lower resilient sheet 43242, the slot 432421, the upper resilient sheet 43243, the lower arc 43244, and the upper arc 43245.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the following embodiments and accompanying drawings. The exemplary embodiments and descriptions of the present invention are provided to explain the present invention, but not to limit the present invention.

With reference to fig. 1 to 8, as shown in fig. 1, 4 and 5, the dust removing type cylinder for a single-sided circular knitting machine includes a lower cylinder 10 and an upper cylinder 11, the lower cylinder 10 is installed in cooperation with the upper cylinder 11, an external sinker disc 12 is sleeved on outer ends of the lower cylinder 10 and the upper cylinder 11, a dust collecting device 20 is disposed at an interval outside the cylinder, the dust collecting device 20 includes a box body 21, a lint removing device 40, a flow guide mechanism and an exhaust mechanism, a bottom of the box body 21 is fixed by a plurality of support legs 22, so that the box body 21 is placed more stably, a pipeline assembly is disposed on the box body 21, an upper end of the pipeline assembly is connected between the external sinker disc 12 and the lower cylinder 10, and a lower end of the pipeline assembly is communicated with an interior of the box body 21; the device for removing cotton wool 40 is provided to efficiently remove cotton wool in the gas sucked through the pipeline assembly, the device for removing cotton wool 40 comprises an inclined plate 41 arranged on the box body 21, the inclined plate 41 is accommodated in the first bin 211 of the box body 21, particularly, the inclined plate is arranged at the upper right corner of the first bin 211 and is positioned near the side flange 25, the device for removing cotton wool 40 further comprises a plurality of cylinder assemblies 43 for removing cotton wool, the plurality of cylinder assemblies 43 for removing cotton wool are detachably arranged on the inclined plate 41, the plurality of cylinder assemblies 43 for removing cotton wool face the lower end of the pipeline assembly, the cylinder assemblies 43 for removing cotton wool comprise a first cylinder 431 and a second cylinder 432 which are detachably connected together, particularly, the first cylinder 431 and the second cylinder 432 are screwed together, the first cylinder 431 is detachably arranged on the inclined plate 41, a plurality of first small holes 4311 are arranged on the outer wall of the first cylinder 431, the first small hole 4311 connects the outside of the first cylinder 431 with the inside, the outside of the first small hole 4311 is connected with a lint removing 4312 for hooking the cotton wool, when the gas enters the inside of the first cylinder 431 through the first small hole 4311 from the outside of the first cylinder 431, the big cotton wool is hooked by the lint removing 4312 to achieve the purpose of removing the cotton wool, both ends of the cylinder wall of the second cylinder 432 are provided with a plurality of pairs of baffles 4323 for hooking the cotton wool, when the gas flows outside the cylinder wall of the second cylinder 432, the big cotton wool is hooked by the baffles 4323 to achieve the purpose of removing the cotton wool, the cylinder wall of the second cylinder 432 is provided with a plurality of short grooves 4322, the short grooves 4322 connect the outside of the second cylinder 432 with the inside, the right end of the second cylinder 432 is blocked by a cover plate, the short grooves 4322 are provided with a lint removing component 4324 for hooking the cotton wool, when the gas enters the inside of the second cylinder 432 from the outside of the second cylinder 432 through the short grooves 4322, the big cotton wool can be hooked by a cotton wool removing component 4324 to achieve the purpose of removing the cotton wool, the flow guide mechanism is arranged in the second bin 212 of the box body 21, a transverse plate on the flow guide mechanism is erected in the box body 21, a plurality of left through holes 218 and a plurality of right through holes 219 are formed in the transverse plate, two ends of the left through holes 218 are respectively communicated with the second bin 212 and the third bin 213 of the box body 21, and two ends of the right through holes 219 are respectively communicated with the first bin 211 and the second bin 212; the second chamber 212 contains water for collecting lint from the air flowing therethrough and dust from the air, and the exhaust mechanism is disposed in the third chamber 213 and has an upper end protruding toward the outside of the case 21.

As shown in fig. 6, in addition to the wadding 4312 including the mounting portion 43121, the first inclined portion 43122, the first bending portion 43123, the second inclined portion 43124 and the convex portion 43125 which are integrally connected, the convex portion 43125 is shaped like a hemisphere, the mounting portion 43121 is mounted on the outer wall of the first cylinder 431, the mounting portion 43121 is close to the outer opening of the first small hole 4311, the first inclined portion 43122 extends from one end of the mounting portion 43121 to the outside of the outer opening of the first small hole 4311, the first bending portion 43123 is located outside of the outer opening of the first small hole 4311, and the second inclined portion 43124 extends from the end of the first bending portion 43123 to the outside of the outer wall of the first cylinder 431.

Preferably, in order to better catch the big cotton wool in the air, serrations are provided on the outer walls of the first inclined portion 43122, the first bent portion 43123, the second inclined portion 43124 and the convex portion 43125.

As shown in fig. 7, a pair of baffles 4323 are disposed at an inclined interval, and a plurality of convex teeth 43231 are disposed at the upper ends of the baffles 4323, so that the cotton wool can be hooked by the convex teeth 43231.

As shown in fig. 8, the lint removing assembly 4324 includes a seat plate 43241, a lower resilient tab 43242, an upper resilient tab 43243, a lower arc-shaped portion 43244 and an upper arc-shaped portion 43245, the seat plate 43241 is fixedly connected to an inner bottom wall of a long groove 4321 outside the short groove 4322, the lower resilient tab 43242 and the upper resilient tab 43243 are both obliquely connected to the seat plate 43241, the lower resilient tab 43242 extends toward the short groove 4322 of the second cylinder 432 and extends into the second cylinder 432, the upper resilient tab 43243 extends toward an outer end of the second cylinder 432, and the lower arcuate portion 43244 and the upper arcuate portion 43245 are integrally connected to the lower resilient tab 43242 and the upper resilient tab 43243, respectively. The large batting is caught as the gas flows through the lower curved portion 43244 and the upper curved portion 43245.

As shown in fig. 9, in order to remove the big lint in the air, a narrow groove 432421 is preferably formed in each of the side edges of the lower elastic sheet 43242, the upper elastic sheet 43243, the lower arc-shaped portion 43244 and the upper arc-shaped portion 43245.

Preferably, the included angle formed between the lower elastic sheet 43242 and the upper elastic sheet 43243 is 60 °.

Preferably, the pipeline assembly comprises a side flange 25, a hose 26 and a dust hood 27, the side flange 25 is installed on the outer wall of the box body 21 in a matched mode, the side flange 25 is communicated with the interior of the box body 21, the dust hood 27 is connected with the outer sinker disc 12 and the lower barrel body 10, and two ends of the hose 26 are connected between the side flange 25 and the dust hood 27 respectively.

As shown in fig. 2, the dust hood 27 includes an annular hood body 271 and a tapered tube 272, an upper annular plate 2711 of the annular hood body 271 and a lower annular plate 2712 of the annular hood body 271 are respectively mounted on the outer sinker 12 and the lower sinker 10, two ends of the tapered tube 272 are respectively connected between the annular hood body 271 and the hose 26, and a dust absorption annular chamber 30 is formed between the annular hood body 271, the lower sinker 10 and the outer sinker 12.

As shown in fig. 3, the diversion mechanism includes a pair of first risers 216 and a pair of second risers 217, the pair of first risers 216 are arranged on the inner bottom wall of the second chamber 212 at intervals, the pair of second risers 217 are arranged on the transverse plate at intervals, and the pair of first risers 216 and the pair of second risers 217 can enable fine cotton wool to be sufficiently collected in the water in the second chamber 212.

Preferably, the exhaust mechanism includes an exhaust pipe 23, an upper flange 24 and a fan 28, the upper flange 24 is installed at the upper end of the box body 21 near the opening of the third bin 213, the exhaust pipe 23 is connected with the upper flange 24, and the fan 28 is disposed inside the third bin 213.

Preferably, an upper opening 214 is opened at the upper end of the box 21 near the first bin 211, an upper cover 215 is disposed on the outer end surface of the upper opening 214, the inclined plate 41 is located below the upper opening 214 to facilitate the detachment and installation of the deflocculating drum assembly 43, further, the inclined plate 41 is installed between an upper fixing plate 2111 and a lower fixing plate 2112 in the box 21, the inclined plate 41 divides the first bin 211 into a front chamber 2113 and a rear chamber 2114, and a plurality of deflocculating drum assemblies 43 are located in the front chamber 2113.

Preferably, an annular groove 13 is formed in the outer sinker 12, and the needle groove 14 of the lower cylinder 10 can be communicated with the annular groove 13.

Preferably, the inclined hole 411 formed in the inclined plate 41 is capable of communicating with the connection pipe 42, the connection pipe 42 is welded to the inclined plate 41, and the first cylinder 431 is screwed to the connection pipe 42.

The working process is as follows: before dust removal, the side flange 25, the hose 26 and the dust hood 27 are connected in sequence, so that the box body 21 is communicated with the lower cylinder body 10, at the moment, the fan 28 is started, so that the gas and the dust cotton in the ring groove 13 and the needle groove 14 enter the front cavity 2113 of the first bin 211 through the hose 26, when the gas flows through the cotton removing device 40, the gas can enter the first bin 431 from the first small hole 4311, enter the second bin 432 from the long groove 4321 and the short groove 4322, then flow into the rear cavity 2114 of the first bin 211 from the inclined hole 411, sequentially enter the second bin 212 through the right through hole 219, the fine cotton wool is collected in water, the gas then enters the third bin 213 from the left through hole 218, finally flows into the outer side from the exhaust pipe 23, one part of the large cotton wool in the gas is hooked by the cotton wool removing sheet 4312, the other part of the large cotton wool is hooked by the lower arc-shaped part 43244 and the upper arc-shaped part 43245 of the cotton wool removing component 4324, and flows through the second bin 212 along with the gas, the cotton wool is wetted by the water in the second bin 212 and fully collected, and the dust cotton wool in the dust collection annular cavity 30 can be collected through removing the cotton wool layer by layer, and the dust cotton wool in the gas can be effectively removed layer by layer during collection.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes may be made to the embodiment of the present invention by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A single-face great circle machine dust removal type needle cylinder comprises an outer sinker disc (12), a lower cylinder body (10) and an upper cylinder body (11) which are installed together in a matching mode, and is characterized by further comprising a dust suction device (20) used for adsorbing cotton wool, wherein the dust suction device (20) comprises:

the device comprises a box body (21), wherein a pipeline assembly is arranged on the box body (21), the upper end of the pipeline assembly is connected between the outer sinker disc (12) and the lower barrel body (10), and the lower end of the pipeline assembly is communicated with the inside of the box body (21);

a deflocculating device (40), the deflocculating device (40) comprises an inclined plate (41) arranged on the box body (21), the inclined plate (41) is accommodated in a first bin (211) of the box body (21), the deflocculating device (40) further comprises a plurality of deflocculating cylinder assemblies (43), the deflocculating cylinder assemblies (43) are detachably arranged on the inclined plate (41), the deflocculating cylinder assemblies (43) face the lower end of the pipeline assembly, the deflocculating cylinder assemblies (43) comprise a first cylinder body (431) and a second cylinder body (432) which are detachably connected together, the first cylinder body (431) is detachably arranged on the inclined plate (41), a plurality of first small holes (4311) are arranged on the outer wall of the first cylinder body (431), the outer sides of the first small holes (4311) are connected with deflocculating sheets (4312) for hooking cotton flocs, a plurality of pairs of baffles (4323) used for hooking cotton wool are arranged at two ends of the cylinder wall of the second cylinder body (432), a plurality of short grooves (4322) are formed in the cylinder wall of the second cylinder body (432), and a cotton wool removing component (4324) used for hooking the cotton wool is arranged at the short grooves (4322);

the flow guide mechanism is arranged in a second bin (212) of the box body (21), a transverse plate on the flow guide mechanism is erected in the box body (21), a plurality of left through holes (218) and a plurality of right through holes (219) are formed in the transverse plate, two ends of the left through holes (218) are respectively communicated with the second bin (212) and a third bin (213) of the box body (21), and two ends of the right through holes (219) are respectively communicated with the first bin (211) and the second bin (212);

the exhaust mechanism is arranged in the third bin (213), and the upper end of the exhaust mechanism extends out of the box body (21).

2. The single-sided circular knitting machine dusting type cylinder according to claim 1, characterized in that said deflocculating sheet (4312) comprises an integrally connected mounting portion (43121), a first inclined portion (43122), a first curved portion (43123), a second inclined portion (43124) and a projection (43125), said projection (43125) being hemispherical in its entirety.

3. The single-sided circular knitting machine dedusting type needle cylinder according to claim 2, characterized in that a pair of baffles (4323) are arranged at an inclined interval, and the upper ends of the baffles (4323) are provided with a plurality of convex teeth (43231) for hooking cotton wool.

4. The dusting type cylinder of a single-sided circular knitting machine according to claim 3, wherein said lint removing assembly (4324) comprises a seat plate (43241), a lower resilient tab (43242), an upper resilient tab (43243), a lower arcuate portion (43244) and an upper arcuate portion (43245), said seat plate (43241) is fixedly connected to an inner bottom wall of a long groove (4321) except said short groove (4322), said lower resilient tab (43242) and said upper resilient tab (43243) are both connected to said seat plate (43241) in an inclined manner, said lower resilient tab (43242) extends toward the short groove (4322) of said second cylinder (432) and extends into said second cylinder (432), said upper resilient tab (43243) extends toward an outer end of said second cylinder (432), said lower arcuate portion (43244) and said upper arcuate portion (43245) are integrally connected to said lower resilient tab (43242) and said upper resilient tab (43245), respectively.

5. The dusting type cylinder of a single-sided circular knitting machine according to claim 4, characterized in that the angle formed between the lower shrapnel (43242) and the upper shrapnel (43243) is 60 °.

6. The single-sided circular knitting machine dedusting type needle cylinder according to claim 5, wherein the pipeline assembly comprises a side flange (25), a hose (26) and a dust hood (27), the side flange (25) is installed in a matching manner with the outer wall of the box body (21), the dust hood (27) is connected with the outer sinker (12) and the lower cylinder body (10), and two ends of the hose (26) are respectively connected between the side flange (25) and the dust hood (27).

7. The single-sided circular knitting machine dusting type cylinder according to claim 6, characterized in that said dust hood (27) comprises an annular hood body (271) and a conical tube (272), wherein an upper annular plate (2711) of said annular hood body (271) and a lower annular plate (2712) of said annular hood body (271) are respectively mounted on said outer sinker disc (12) and said lower sinker disc (10), both ends of said conical tube (272) are respectively connected between said annular hood body (271) and said hose (26), and a dust absorbing annular chamber (30) is formed between said annular hood body (271), said lower sinker disc (10) and said outer sinker disc (12).

8. The single-face great circle machine dusting-type needle cylinder according to claim 7, characterized in that said deflector comprises a pair of first risers (216) and a pair of second risers (217), both the pair of first risers (216) and the pair of second risers (217) being able to allow the sufficient collection of fine lint in the water of said second bin (212).

9. The single-sided circular knitting machine dedusting type cylinder according to claim 8, wherein the exhaust mechanism comprises an exhaust pipe (23), an upper flange (24) and a fan (28), the upper flange (24) is installed at the upper end of the box body (21) close to the opening of the third bin (213), the exhaust pipe (23) is connected with the upper flange (24), and the fan (28) is arranged inside the third bin (213).

10. The single-sided circular knitting machine dusting type needle cylinder according to claim 9, characterized in that the upper end of the box body (21) near the first bin (211) is opened with an upper opening (214), the outer end face of the upper opening (214) is provided with an upper cover (215), the inclined plate (41) is located below the upper opening (214) to facilitate the detachment and installation of the lint removing cylinder assembly (43).