CN117169239B - Cloth cover detection mechanism for circular knitting machine - Google Patents

Abstract

The invention discloses a cloth cover detection mechanism for a circular knitting machine, which comprises a top disc, wherein the top disc can rotate around the axis of the top disc, a main rod is arranged on the inner side of the top disc and penetrates through the top disc, a slip ring component is arranged on the outer wall of the main rod, the slip ring component is positioned below the top disc, a ventilation channel and an oil ventilation channel are arranged in the slip ring component, a camera component and an oilcan component are arranged below the slip ring component and are fixedly connected with the main rod, the oilcan component comprises an oilcan, the oilcan is communicated with the oil ventilation channel, the camera component comprises a camera shell for installing a camera, and the camera shell is positioned on the outer side of the main rod. The invention provides a cloth cover detection mechanism for a circular knitting machine, which is reasonable in layout and clearer in picture acquisition.

Description

Cloth cover detection mechanism for circular knitting machine

Technical Field

The invention relates to the technical field of cloth cover detection equipment of large circular knitting machines, in particular to a cloth cover detection mechanism for a circular knitting machine.

Background

When the circular knitting machine is used for knitting production at present, quality defects can occur in the forming process of the cloth, and the most effective method at present is to monitor the cloth in real time by using a camera device.

As shown in fig. 1, for the double-sided circular knitting machine, the cloth is discharged downward along the outer periphery of the turntable 100, the thinner cloth can be monitored only at the periphery, and the thicker cloth is required to be additionally provided with an image pickup device at the inner side.

Because the oilcan support 200 is installed to carousel 100 bottom, oilcan support 200 rotates along with the large circle machine, install oilcan jar 300 on the oilcan support 200, oilcan jar 300 rotates along with oilcan support 200, oilcan jar 300 connects the hose and collects the lubricating oil that flows from the carousel, carousel 100 center is provided with lamp pole 400, wear the electric wire in the lamp pole 400, lamp pole 400 department is the only choice of installing camera device, but current lamp pole 400 internal diameter is less, can't satisfy the requirement of addding other circuits, and camera device's camera lens must be less than oilcan support 200 along the radial maximum distance that stretches out of lamp pole 400, in order to prevent to hit camera device when oilcan support 200 rotates, lead to the camera lens unable to be close to the cloth in order to obtain higher definition picture, and can form the shelter from the camera lens when oilcan not be favorable to gathering complete cloth picture before camera device's camera lens is rotated to oilcan 200.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a cloth cover detection mechanism for a circular knitting machine, which is reasonable in layout and clearer in picture collection.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

a cloth cover detection mechanism for circular knitting machine, including the footstock, the footstock can rotate around its axis, and the footstock inboard is equipped with the mobile jib, and the mobile jib passes the footstock, and the sliding ring subassembly is installed to the mobile jib outer wall, and the sliding ring subassembly is located the footstock below, is equipped with vent channel and oil channel in the sliding ring subassembly, and the sliding ring subassembly below is equipped with subassembly and the oilcan subassembly of making a video recording, and subassembly and the oilcan subassembly of making a video recording all with mobile jib fixed connection, the oilcan subassembly includes the oilcan, oilcan and oil channel switch-on, and the subassembly of making a video recording is including the camera casing that is used for installing the camera, and the camera casing is located the mobile jib outside.

The slip ring assembly comprises a rotating ring and a fixed ring positioned at the inner side of the rotating ring, the fixed ring is sleeved into the main rod and fixedly connected with the main rod, and the rotating ring is sleeved into the fixed ring and connected with the main rod through a bearing.

The rotating ring comprises a second ring, the fixing ring comprises a second extending block positioned above the second ring, and the inner wall of the second ring is attached to the outer wall of the extending block.

The inner side of the ring II is provided with a ring groove I, the side wall of the ring II is provided with an air passage III, the ring groove I is communicated with the air passage III, the extension block II is provided with an air passage II, the fixed ring is provided with an air passage I, and the air passage I, the air passage II, the ring groove I and the air passage III form an air passage.

The rotary ring further comprises a third ring positioned below the second ring, the fixed ring further comprises a first extending block positioned below the second extending block and a chassis positioned below the first extending block, a containing cavity is formed between the first extending block and the third ring, the side wall of the third ring is provided with a first oil duct, the upper end of the chassis is provided with a third annular groove, and the chassis comprises a second oil duct positioned at the bottom, the first oil duct, the containing cavity, the third annular groove and the second oil duct form an oil passage.

The inner wall of the circular ring III is positioned on the inner side above the circular groove III.

The second ring is also provided with a second ring groove, the second ring groove is positioned on the upper side and the lower side of the first ring groove, and a sealing ring is arranged in the second ring groove.

The support is installed to the roof plate bottom, and the support rotates along with the roof plate, and the support includes the support dish, and the dial is installed to the support dish, and the joint is installed to the swivel ring, and the dial rotates and can drive the joint rotation to make the swivel ring rotate.

The camera shooting assembly comprises a main connecting block, wherein the main connecting block is fixed with the main rod, one end of the connecting rod is connected with the main connecting block, and the other end of the connecting rod extends outwards and is connected with the camera shell.

The bottom of the main rod is connected with the cloth supporting frame through a coupling.

The beneficial effects of the invention are as follows:

through setting up the slip ring subassembly, can handle oil circuit and the gas circuit of great circle machine simultaneously, can not only realize the air feed at machine moving in-process, can also realize the function of leading oil to saved original oilcan support, avoided the hindrance that original oilcan support caused the position of camera casing, make the camera lens can press close to the cloth cover installation in the camera casing, in order to obtain more clear image. And when the camera acquires the picture again, the direction of the lens is not blocked.

Through setting up the mobile jib, increase the holding capacity in the mobile jib, can make more electrical components attach in the big circular knitting machine to supplementary production quality that improves the cloth.

Drawings

FIG. 1 is a schematic diagram of the background art;

FIG. 2 is a perspective view of an embodiment;

FIG. 3 is an enlarged view of FIG. 2 at A;

fig. 4 is a cross-sectional view of a slip ring assembly in an embodiment.

In the figure: top plate 1, main rod 2, bracket 3, bracket plate 31, fixed block 32, dial 33, slip ring assembly 4, rotary ring 41, ring one 411, ring two 412, ring one 4121, ring two 4122, air channel three 4123, ring three 413, oil channel one 4131, fixed ring 42, chassis 421, boss 4211, ring three 4212, oil channel two 4213, extension block one 422, extension block two 423, air channel two 4231, air channel one 424, seal ring 43, cavity 44, joint 45, camera assembly 5, main connection block 51, connection rod 52, camera fixed block 53, fixing piece 54, camera housing 55, oilcan assembly 6, oilcan support block 61, oilcan support piece 62, oilcan 63, coupling 7, cloth support 8, jack 81, turntable 100, oilcan support 200, oilcan 300, lamp post 400.

Detailed Description

The technical scheme of the invention is further described below through examples and with reference to the accompanying drawings.

As shown in fig. 2-4, a cloth cover detection mechanism for a circular knitting machine is mainly applied to a double-sided circular knitting machine, and comprises a top disc 1, wherein the top disc 1 can rotate around the axis of the top disc, the top disc 1 is driven to rotate when the double-sided circular knitting machine operates, a knitting area is arranged above the top disc 1, a cloth outlet area is arranged below the periphery of the top disc 1, and cloth is discharged downwards along the periphery of the top disc 1.

The inboard of roof-plate 1 is equipped with mobile jib 2, and mobile jib 2 is the hollow tube, can place many electric wires in the mobile jib 2, compares in the lamp pole pipe diameter before, and mobile jib 2 internal diameter is great, provides the condition for addding other circuits, and mobile jib 2 upper end extends to two-sided big circular knitting machine top and passes through the flange to be fixed.

The bottom of the main rod 2 is connected with a cloth supporting frame 8 through a coupler 7, specifically, the cloth supporting frame 8 comprises a push rod 81 positioned at the upper end, and the upper end of the push rod 81 is connected with the main rod 2 through the coupler 7.

The main rod 2 passes through the center of the top disc 1, as shown in fig. 3, the outer wall of the main rod 2 is provided with a slip ring assembly 4, the slip ring assembly 4 is positioned below the top disc 1, the slip ring assembly 4 comprises a rotating ring 41 and a fixed ring 42 positioned at the inner side of the rotating ring 41, the fixed ring 42 is sleeved into the main rod 2 and fixedly connected with the main rod 2, and the rotating ring 41 is sleeved into the fixed ring 42 and connected through a bearing.

Specifically, as shown in fig. 4, the rotating ring 41 includes a second ring 412, a first ring 411 located above the second ring 412, and a third ring 413 located below the second ring 412, wherein the second ring 412 is of a ring structure, the first ring 411 extends upward along the outer periphery of the upper end of the second ring 412 to form a ring shape, the third ring 413 extends downward along the outer periphery of the lower end of the second ring 412 to form a ring shape, and the inner diameter of the second ring 412 is smaller than the first ring 411 and the third ring 413.

The inner side of the second ring 412 is provided with a first ring groove 4121 and a second ring groove 4122, and the first ring groove 4121 and the second ring groove 4122 are recessed radially outwards along the inner wall of the second ring 412 to form an annular groove structure. The second groove 4122 is located on the upper side and the lower side of the first groove 4121, the diameter of the second groove 4122 is larger than that of the first groove 4121, and the sealing ring 43 is installed in the second groove 4122. The top of the second ring groove 4122 positioned above is lower than the top of the second ring 412, and the bottom of the second ring groove 4122 positioned below is higher than the bottom of the second ring 412.

The side wall of the second ring 412 is provided with a third air passage 4123, the third air passage 4123 penetrates through the side wall of the second ring 412, the first annular groove 4121 is communicated with the inner side of the third air passage 4123, and the outer side of the third air passage 4123 is connected with a joint 45.

The side wall of the third ring 413 is provided with an oil duct I4131, and the outer end of the side wall of the third ring 413 is connected with a joint 45. Because the lubricating oil added to the needle head flows out from the bottom of the top disc 1 when the large circular machine works, the oil outlet position at the bottom of the top disc 1 is connected with a hose, and the other end of the hose is connected with the joint 45 at the outer end of the side wall of the third 413 circular ring, so that the lubricating oil flowing out when the large circular machine works flows into the first 4131 oil duct of the third 413 circular ring.

The fixing ring 42 includes a second extension block 423 located above, a first extension block 422 located below the second extension block 423, and a chassis 421 located below the first extension block 422, where the chassis 421 is of a disc structure, the first extension block 422 extends upward along an upper end surface of the chassis 421 to form a cylindrical structure, the first extension block 422 extends upward along the upper end surface of the second extension block 423 to form a cylindrical structure, the diameter of the chassis 421 is greater than that of the first extension block 422, and the diameter of the first extension block 422 is greater than that of the second extension block 423.

The inner wall of the second ring 412 is attached to the outer wall of the second extension block 423. The outer wall of the second extension block 423 is connected with the inner wall of the first ring 411 and the inner wall of the third ring 413 through bearings respectively, so that the rotary ring 41 can rotate around the axis of the fixed ring 42.

The lower part of the third ring 413 is positioned outside the first extension block 422, the outer diameter of the first extension block 422 is smaller than the inner diameter of the third ring 413, a containing cavity 44 is formed between the first extension block 422 and the third ring 413, the containing cavity 44 is a circular cavity, and the lower end of the containing cavity 44 is open.

The upper end of the chassis 421 is provided with a convex ring 4211, the convex ring 4211 extends upwards along the periphery of the upper end of the chassis 421 to form a ring shape, a third ring groove 4212 is formed between the inner wall of the convex ring 4211 and the outer wall of the first extending block 422, the third ring groove 4212 is of a ring-shaped groove structure, and the third ring groove 4212 is positioned below the accommodating cavity 44. And the inner wall of the third ring 413 is located above the third ring groove 4212, i.e. the inner diameter of the third ring 413 is smaller than the inner diameter of the convex ring 4211, and because the oil outlet amount of the lubricating oil is smaller, the lubricating oil cannot overflow from the convex ring 4211 when flowing downwards from the cavity 44 into the third ring groove 4212.

The chassis 421 comprises a second oil passage 4213 positioned at the bottom, the second oil passage 4213 penetrates the chassis 421 up and down, and the upper end of the second oil passage 4213 is communicated with the third ring groove 4212.

The first oil passage 4131, the cavity 44, the third ring groove 4212 and the second oil passage 4213 form an oil passage. The bottom of the oil duct II 4213 of the chassis 421 is provided with a joint 45, and the joint 45 is communicated with the oilcan 63 through a hose, so that the lubricating oil is finally recovered by the oilcan 63.

The fixed ring 42 is provided with a first air passage 424, the first air passage 424 extends upwards to a second extending block 423 along the bottom of the chassis 421, the second extending block 423 is provided with a second air passage 4231 on the side edge, the outer side of the second air passage 4231 is communicated with the first annular groove 4121, the inner side of the second air passage 4231 is communicated with the first air passage 424, the bottom of the first air passage 424 is externally connected with a connector 45, and the connector 45 is connected with an air source.

The first air passage 424, the second air passage 4231, the first annular groove 4121 and the third air passage 4123 form an air passage. The bottom of the first air passage 424 is an air inlet end, and air entering the first annular groove 4121 is sprayed out through one end of the third air passage 4123, so that air is blown to the inner side of the cloth surface to blow off impurities on the cloth surface, and under the rotation of the rotating ring 41, the air sprayed out through one end of the third air passage 4123 can play a role in cleaning the cloth surface at all positions in the circumferential direction.

As shown in fig. 2 and 3, a bracket 3 is installed at the bottom of the top plate 1, and the bracket 3 rotates with the top plate 1. Specifically, the bracket 3 comprises a bracket disc 31 and fixing blocks 32 positioned on two sides of the bracket disc 31, wherein the fixing blocks 32 are fixed with the bottom of the top disc 1. The support plate 31 has a thin plate structure, the support plate 31 is sleeved into the fixed ring 42 (precisely, the second extension block 423), and the bottom surface of the support plate 31 is positioned at the upper end of the rotating ring 41 after being sleeved.

The support disc 31 is provided with a shifting block 33, the shifting block 33 is inserted into the support disc 31 and extends to the lower side, when the top disc 1 rotates to drive the support disc 31 to rotate, the shifting block 33 is rotated, and when the shifting block 33 rotates, the joint 45 on the side wall of the rotary ring 41 can be pushed, so that the rotary ring 41 rotates.

The slip ring assembly 4 below is equipped with subassembly 5 and oilcan subassembly 6 of making a video recording, and subassembly 5 and oilcan subassembly 6 all are connected with mobile jib 2 fixed connection make a video recording, and subassembly 5 of making a video recording includes main connecting block 51, and main connecting block 51 is fixed with mobile jib 2, and main connecting block 51 is connected to connecting rod 52 one end, and the camera casing 55 is located the mobile jib 2 outside to the outward extension of connecting rod 52 other end and connects the camera casing 55. Specifically, one end of the connecting rod 52 extending outwards is connected with a camera fixing block 53, a fixing plate 54 is fixed on the camera fixing block 53, a camera shell 55 is installed on the fixing plate 54, a camera is installed in the camera shell 55 and is aligned to the inner side of the annular cloth cover, and therefore quality of the inner side of the cloth cover is monitored in real time. The height of the camera can be manually adjusted up and down.

The oil can assembly 6 comprises an oil can support block 61, the oil can support block 61 is fixed with the main rod 2, and the main rod 2 is fixedly arranged below the main connecting block 51. The oilcan support block 61 is connected with an oilcan support piece 62, and the oilcan support piece 62 is provided with an oilcan 63. The oilcan 63 is connected to the joint 45 below the second oil passage 4213 by a hose.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (7)

1. Cloth cover detection mechanism for circular knitting machine, comprising a top disc (1), said top disc (1) being rotatable about its axis, characterized in that: the novel intelligent oil bottle is characterized in that a main rod (2) is arranged on the inner side of the top disc (1), the main rod (2) penetrates through the top disc (1), a slip ring assembly (4) is arranged on the outer wall of the main rod (2), the slip ring assembly (4) is located below the top disc (1), a ventilation channel and an oil ventilation channel are arranged in the slip ring assembly (4), a shooting assembly (5) and an oil bottle assembly (6) are arranged below the slip ring assembly (4), the shooting assembly (5) and the oil bottle assembly (6) are fixedly connected with the main rod (2), the oil bottle assembly (6) comprises an oil bottle (63), the oil bottle (63) is communicated with the oil ventilation channel, the shooting assembly (5) comprises a camera shell (55) for installing a camera, and the camera shell (55) is located on the outer side of the main rod (2).

The slip ring assembly (4) comprises a rotating ring (41) and a fixed ring (42) positioned on the inner side of the rotating ring (41), the rotating ring (41) comprises a second ring (412), the fixed ring (42) comprises a second extending block (423) positioned above, a first annular groove (4121) is arranged on the inner side of the second ring (412), a third air passage (4123) is arranged on the side wall of the second ring (412), the first annular groove (4121) is communicated with the third air passage (4123), the second extending block (423) is provided with a second air passage (4231), the fixed ring (42) is provided with a first air passage (424), and the first air passage (424), the second air passage (4231), the first annular groove (4121) and the third air passage (4123) form an air passage;

the rotary ring (41) further comprises a third ring (413) positioned below the second ring (412), the fixed ring (42) further comprises a first extension block (422) positioned below the second extension block (423) and a chassis (421) positioned below the first extension block (422), a containing cavity (44) is formed between the first extension block (422) and the third ring (413), an oil duct I (4131) is arranged on the side wall of the third ring (413), an annular groove III (4212) is arranged at the upper end of the chassis (421), the chassis (421) comprises an oil duct II (4213) positioned at the bottom, and the oil duct I (4131), the containing cavity (44), the annular groove III (4212) and the oil duct II (4213) form an oil passage;

a support (3) is arranged at the bottom of the top disc (1), the support (3) rotates along with the top disc (1), the support (3) comprises a support disc (31), a shifting block (33) is arranged on the support disc (31), a connector (45) is arranged on the rotating ring (41), and the shifting block (33) can rotate to drive the connector (45) to rotate so as to enable the rotating ring (41) to rotate;

the oil outlet position at the bottom of the top disc (1) is connected with a hose, and the other end of the hose is connected with the joint (45) at the outer end of the side wall of the annular ring III (413).

2. A cloth cover detection mechanism for a circular knitting machine as claimed in claim 1, characterized by: the fixed ring (42) is sleeved into the main rod (2) and fixedly connected with the main rod (2), and the rotating ring (41) is sleeved into the fixed ring (42) and connected with the main rod through a bearing.

3. A cloth cover detection mechanism for a circular knitting machine as claimed in claim 1, characterized by: the inner wall of the second ring (412) is attached to the outer wall of the second extension block (423).

4. A cloth cover detection mechanism for a circular knitting machine as claimed in claim 1, characterized by: the inner wall of the circular ring III (413) is positioned on the upper inner side of the circular groove III (4212).

5. A cloth cover detection mechanism for a circular knitting machine as claimed in claim 1, characterized by: the second ring (412) is further provided with a second ring groove (4122), the second ring groove (4122) is located on the upper side and the lower side of the first ring groove (4121), and a sealing ring (43) is installed in the second ring groove (4122).

6. A cloth cover detection mechanism for a circular knitting machine as claimed in claim 1, characterized by: the camera shooting assembly (5) comprises a main connecting block (51), the main connecting block (51) is fixed with the main rod (2), the main connecting block (51) is connected with one end of a connecting rod (52), and the other end of the connecting rod (52) extends outwards and is connected with the camera shell (55).

7. A cloth cover detection mechanism for a circular knitting machine as claimed in claim 1, characterized by: the bottom of the main rod (2) is connected with a cloth supporting frame (8) through a coupler (7).