CN220413661U - Big dish mechanism of combination formula hosiery machine - Google Patents

Abstract

The large disc mechanism of the combined type hosiery machine comprises a large disc base, wherein an integrated bearing base installation position protruding downwards is arranged on the lower side face of the large disc base, a density adjusting disc clearance groove is formed in the inner side of the bearing base installation position, a first installation groove and a second installation groove which are located on the same straight line are formed in the radial direction of the bearing base installation position, and half component installation holes are formed in the side edges of the bearing base installation position; the first mounting groove, the second mounting groove and the density adjusting disc clearance groove are matched with each other to mount the density adjusting disc; the density adjusting disc is positioned between the lower side surface of the large disc base and the bearing base, and the lower side surface of the large disc base is fixedly connected with the bearing base; the large disc base, the bearing base and the density adjusting disc are sleeved with the syringe main shaft together. The utility model realizes the technical purpose of stable operation of the main shaft of the needle cylinder in a mode that the density adjusting disc is arranged between the lower side surface of the large disc base and the bearing base.

Description

Big dish mechanism of combination formula hosiery machine

Technical Field

The utility model belongs to the technical field of hosiery machines, and particularly relates to a combined type hosiery machine large disc mechanism.

Background

The big disc mechanism of the hosiery machine produced and sold in the existing market mainly has two different structures, the first is a big disc base 9201 provided with an oil return groove and a downward oil outlet structure in the upward direction as shown in fig. 12, a density adjusting mechanism component is arranged at the bottom position of a syringe main shaft 91, a hole site capable of being provided with a density ejector rod is required to be processed at the position of an upper bearing 908 and a lower bearing 908 which are arranged at the lower part of the syringe main shaft 91, the operation stability of the syringe main shaft 91 is closely related with the length of the interval position of the bearing 908, the longer the interval distance is, the better the operation stability is, but the longer the interval distance can cause the difficulty of processing the hole site for installing the density ejector rod to increase the rejection rate by times or reduce the interval between the bearings to cause unstable operation, the problem of inconvenient replacement of synchronous belts and the like.

The second is to install a lower density disc mechanism 1111 on the upper part of the large disc as shown in fig. 13, to place the density adjusting mechanism assembly in the lower density disc mechanism, to install the whole density adjusting mechanism assembly on the upper part of the large disc base 811, and to install a lower chassis mechanism 8112 on the lower density disc mechanism 1111, so that the manufacturing cost is increased by installing two mechanisms of the lower density disc mechanism 1111 and the lower chassis mechanism 8112, and the increased two mechanisms increase the distance between the main shaft and the bearing at the same time, which results in unstable operation.

How to further improve the running stability of the main shaft of the needle cylinder on the common stocking machine is the object of the study of the person skilled in the art.

Disclosure of Invention

The utility model provides a combined type stocking machine large disc mechanism which is simple in structure, convenient to adjust, stable in operation of a needle cylinder main shaft and suitable for a common stocking machine.

The large disc mechanism of the combined type hosiery machine comprises a large disc base, wherein an integrated bearing base installation position protruding downwards is arranged on the lower side face of the large disc base, a density adjusting disc clearance groove is formed in the inner side of the bearing base installation position, a first installation groove and a second installation groove which are located on the same straight line are formed in the radial direction of the bearing base installation position, and half component installation holes are formed in the side edges of the bearing base installation position; the first mounting groove, the second mounting groove and the density adjusting disc clearance groove are matched with each other to mount the density adjusting disc; the density adjusting disc is positioned between the lower side surface of the large disc base and the bearing base, and the lower side surface of the large disc base is fixedly connected with the bearing base; the large disc base, the bearing base and the density adjusting disc are sleeved with the syringe main shaft together. According to the utility model, the density adjusting disc is arranged in the large disc base, so that the length of the needle cylinder main shaft is shortened on the basis of ensuring the length of the bearing base, the problem of instability of the needle cylinder main shaft caused by the process of superposing the length of the bearing base, the large disc base and the density adjusting disc is avoided, and the running stability of the needle cylinder main shaft is improved.

The middle position of the upper side surface of the large disc base is provided with a coaxial bearing seat mounting hole position, a first mounting position and a second mounting surface, and a plurality of column mounting hole positions and large disc frame mounting holes are arranged around the outside of the first mounting position; one side of the bearing seat mounting hole is provided with a half shaft assembly mounting hole and an oil return hole, and the oil return hole can be used for collecting lubricating oil thrown out by rotating the needle cylinder main shaft after flowing out through the bearing base oil outlet.

The side wall of the large disc density adjusting disc empty-avoiding groove is provided with a density adjusting motor assembly installation position for one side of a bearing base installation position on the inner wall of the large disc oil retaining wall, and the other side of the bearing base installation position is provided with a half shaft assembly installation hole site. The design of each mounting position of the upper side surface and the lower side surface of the large disc base provides effective and accurate mounting positions for the half shaft assembly, the bearing base and the main motor.

The bearing base is provided with an annular bearing base mounting flange, the inner side of the bearing base mounting flange is provided with a bearing base oil return groove and a main shaft bearing mounting position, the side edge of the bearing base is provided with a handle gear assembly mounting hole and a bearing base oil outlet hole, and the bearing base oil outlet hole is communicated with the oil outlet hole on the bearing base oil return groove; the side of the bearing base is also provided with a main motor mounting bracket hole, the main motor mounting bracket hole is connected with a main motor mounting bracket, and the main motor mounting bracket is connected with a main motor through a main motor mounting box. The inner side of the bearing base is provided with an upper needle cylinder main shaft bearing and a lower needle cylinder main shaft bearing, and a main shaft hand-operated large gear is arranged between the two needle cylinder main shaft bearings and is matched and connected with the needle cylinder main shaft, so that the driving length of the needle cylinder main shaft is effectively prolonged, and the running stability is improved.

The inner side of the density adjusting disc is provided with a coaxial inner ring and an outer ring of the density adjusting disc, one side of the density adjusting disc is connected with a density adjusting screw rod through a connecting rod, the connecting rod is embedded into a second mounting groove, and an opening at the other side of the density adjusting disc is connected with an oil outlet joint; the density adjusting disk is connected with the oil outlet joint through a connecting mechanism, the connecting mechanism comprises a mounting rod connected with the density adjusting disk, a screw hole is formed in the mounting rod, the oil outlet joint is connected with the screw hole through threads, a universal ball bearing is sleeved outside the mounting rod, and the universal ball bearing is externally connected with a density adjusting disk mounting base. One side of the density adjusting disc assembly formed by connecting the density adjusting discs is connected with the bearing base through the density adjusting disc mounting base, and the other side of the density adjusting disc assembly realizes stable lifting performance of the density adjusting disc assembly through the density adjusting screw.

The density adjusting disk is connected with the needle cylinder density lifter through the ball and the density thrust ball bearing, the needle cylinder density lifter and the density adjusting disk are both positioned in the large disk base, the outer periphery of the needle cylinder density lifter is connected with the outer ring of the density adjusting disk along the buckling way, the outer ring of the density adjusting disk is provided with a density oil hole, and the density oil hole is communicated with an oil outlet hole on an oil return groove of the bearing base; the side of the density oil hole is also provided with a density auxiliary oil hole which is communicated with an oil outlet hole on the oil return groove of the bearing base.

The bottom of the density adjusting screw is matched and connected with a density motor assembly, the density motor assembly comprises a density motor, a driving shaft of the density motor is connected with a density screw rod, the periphery of the density screw rod is matched and connected with a screw rod sleeve, and the screw rod sleeve is fixedly connected with a density motor mounting frame through a screw rod sleeve fixing block; the density screw rod one end that is close to density adjusting screw rod be equipped with thrust ball bearing, thrust ball bearing connects the density top, density top connects density adjusting screw rod, realizes density adjusting screw rod's oscilaltion performance through density motor drive density screw rod rotation.

The side of the density motor mounting rack is provided with a coaxial density motor mounting position and a density screw rod sleeve mounting ring, the density motor mounting position is fixedly connected with a density motor, and the inner side of the density screw rod sleeve mounting ring is matched and connected with a screw rod sleeve.

The handle gear assembly mounting hole in install handle drive pivoted crank pinion, crank pinion meshing connection main shaft hand gear wheel realizes the regulation performance of cylinder main shaft circumference angle through handle drive main shaft hand gear wheel rotation.

The main motor realizes synchronous rotation performance of the needle cylinder main shaft and the half shaft through the driving gear set.

The driving gear set comprises a main shaft large synchronous wheel and a main shaft small synchronous wheel which are sleeved with the main shaft of the needle cylinder together, the main shaft large synchronous wheel is connected with a driving gear on the main motor through a main motor synchronous belt, the main shaft small synchronous wheel is connected with a half shaft lower synchronous wheel through a half shaft carrier gear, and the half shaft lower synchronous wheel is matched with the center of a half shaft lower bearing base to be sleeved with the half shaft. According to the utility model, the half shaft assembly and the needle cylinder main shaft which are synchronously driven by the main motor are connected through the driving gear set, so that the synchronous and stable operation performance of the half shaft and the needle cylinder main shaft is realized.

The utility model realizes the technical purpose of stable operation of the main shaft of the needle cylinder in a mode that the density adjusting disc is arranged between the lower side surface of the large disc base and the bearing base.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic perspective view of a large plate mechanism of a combination stocking machine;

FIG. 2 is a schematic view of the installation structure of the large plate mechanism of the stocking machine on the stocking machine;

FIG. 3 is a schematic perspective view of a large plate mechanism of the hosiery machine of the utility model;

FIG. 4 is a schematic view of a partially cut-away construction of the large pan mechanism of the hosiery machine of the utility model;

FIG. 5 is a schematic view of a partially cut-away construction of another angle of the stocking machine chassis mechanism of the utility model;

FIG. 6 is a schematic view of a top view of a chassis base of the hosiery machine of the utility model;

FIG. 7 is a schematic view showing a bottom perspective view of a chassis base of the hosiery machine of the utility model;

FIG. 8 is a schematic top perspective view of a bearing base according to the present utility model;

FIG. 9 is a schematic bottom perspective view of a bearing base according to the present utility model;

FIG. 10 is a schematic perspective view of a burst open structure of a density adjustment disk assembly in accordance with the present utility model;

FIG. 11 is a schematic diagram of a blow-down perspective view of a density motor assembly according to the present utility model;

FIG. 12 is a schematic cross-sectional view of a large pan mechanism of a hosiery machine according to the prior art;

fig. 13 is a schematic cross-sectional view of a large plate mechanism of another hosiery machine according to the prior art.

Description of the embodiments

The technical scheme of the patent is further described in detail below with reference to the specific embodiments of fig. 1-13.

The combined type hosiery machine large disc mechanism comprises a large disc base 1, wherein an integrated bearing base installation position 108 protruding downwards is arranged on the lower side surface of the large disc base 1, a density adjusting disc empty-avoiding groove 1001 is formed in the inner side of the bearing base installation position 108, a first installation groove 109 and a second installation groove 1003 which are positioned on the same straight line are formed in the radial direction of the bearing base installation position 108, and a half component installation hole 1011 is formed in the side edge of the bearing base installation position 108; the first mounting groove 109, the second mounting groove 1003, and the density adjustment disk clearance groove 1001 cooperate together to mount the density adjustment disk 500; the density adjusting disc 500 is positioned between the lower side surface of the big disc base 1 and the bearing base 2, and the lower side surface of the big disc base is fixedly connected with the bearing base 2; the large disc base 1, the bearing base 2 and the density adjusting disc 500 are jointly sleeved with the needle cylinder main shaft 3, so that the technical aim that the density adjusting disc 500 is embedded and assembled between the large disc base 1 and the bearing base 2 is integrally achieved, the processing length of the needle cylinder main shaft is effectively shortened, and the running stability of equipment is improved.

The middle position of the upper side surface of the large disc base 1 is provided with a coaxial bearing seat mounting hole site 1010, a first mounting position 103 and a second mounting surface 104, and a plurality of column mounting hole sites 105 and large disc frame mounting holes 111 are arranged around the outside of the first mounting position 103; one side of the bearing seat installation hole 1010 is provided with a half shaft assembly installation hole 1011 and an oil return hole 106;

as a structure, the preferred bearing base 2 is provided with an annular bearing base mounting flange 209, the inner side of the bearing base mounting flange 209 is provided with a bearing base oil return groove 201 and a main shaft bearing mounting position 208, the side edge of the bearing base 2 is provided with a handle gear assembly mounting hole 204 and a bearing base oil outlet hole 203, and the bearing base oil outlet hole 203 is communicated with an oil outlet hole 202 on the bearing base oil return groove 201; the side of the bearing base 2 is also provided with a main motor mounting bracket hole 211, the main motor mounting bracket hole 211 is connected with a main motor mounting bracket 12, and the main motor mounting bracket 12 is connected with a main motor 141 through a main motor mounting box 14. An upper needle cylinder main shaft bearing 308 and a lower needle cylinder main shaft bearing 308 are arranged on the inner side of the bearing base, and a main shaft hand-operated large gear 304 is arranged between the two needle cylinder main shaft bearings and is matched and connected with the needle cylinder main shaft, so that the driving length of the needle cylinder main shaft is effectively prolonged, and the running stability is improved.

The inner side of the density adjusting disk 500 is provided with a coaxial density adjusting disk inner ring 501 and a density adjusting disk outer ring 502, one side of the density adjusting disk 500 is connected with a density adjusting screw 509 through a connecting rod 508, the connecting rod 508 is embedded into a second mounting groove 1003, and an opening at the other side of the density adjusting disk 500 is connected with an oil outlet joint 506; a connecting mechanism is arranged between the density adjusting disk 500 and the oil outlet joint 506, the connecting mechanism comprises a mounting rod 507 connected with the density adjusting disk 500, a screw hole 512 is formed in the mounting rod 507, the oil outlet joint 506 is connected with the screw hole 512 in a threaded mode, a universal ball bearing 505 is sleeved outside the mounting rod 507, and the universal ball bearing 505 is externally connected with the density adjusting disk mounting base 504.

In order to realize the recovery of waste oil generated by the rotation of the main shaft of the needle cylinder, the density adjusting disk 500 is connected with the needle cylinder density lifter 307 through the ball 510 and the density thrust ball bearing 309, the needle cylinder density lifter 307 and the density adjusting disk 500 are both positioned in the large disk base 1, the outer periphery of the needle cylinder density lifter 307 is connected with the outer ring 502 of the density adjusting disk along the buckling way, the outer ring 502 of the density adjusting disk is provided with a density oil hole 503, and the density oil hole 503 is communicated with the oil outlet 202 on the oil return groove 201 of the bearing base; the side of the density oil hole 503 is also provided with a density auxiliary oil hole 511, and the density auxiliary oil hole 511 is communicated with the oil outlet 202 on the bearing base oil return groove 201.

As a further technical structure, a density adjusting motor assembly mounting position 110 is arranged on one side of a bearing base mounting position 108 of a large disc density adjusting disc clearance groove 1001, which is provided with a large disc oil retaining inner wall 1002, and a half shaft assembly mounting hole position 101 is arranged on the other side of the bearing base mounting position 108. The large-disc oil retaining inner wall 1002 is used for retaining the effect of the centrifugal force of the cylinder main shaft 3 that is thrown outwards by the cylinder density lifter 307 arranged on the cylinder main shaft and guiding the waste lubricating oil to flow to the outer ring 502 of the density adjusting disc arranged on the density adjusting disc assembly 5, the waste lubricating oil is discharged to the waste lubricating oil receiving position through the oil outlet joint 506, and the waste lubricating oil can flow to the bearing base oil return groove 201 arranged on the large bearing base 2 through the auxiliary oil outlet hole 511 of the density adjusting disc under the condition that the oil outlet joint 503 is blocked by foreign matters and then is discharged to the waste lubricating oil receiving position from the oil outlet hole 202 on the bearing base oil return groove 201.

The bottom of the density adjusting screw 509 is connected with a density motor assembly in a matching way, the density motor assembly comprises a density motor 705, a driving shaft of the density motor 705 is connected with a density screw 704, the periphery of the density screw 704 is connected with a screw sleeve 702 in a matching way, and the screw sleeve 702 is fixedly connected with a density motor mounting frame 701 through a screw sleeve fixing block 703; the density screw rod 704 is close to density adjusting screw 509 one end and is equipped with thrust ball bearing 7042, and thrust ball bearing 7042 connects density plug 7041, and density plug 7041 top meets density adjusting screw 509, realizes density motor 705 drive down the technical performance of density adjusting disk 500 up-and-down adjustment.

The side of the density motor mounting frame 701 is provided with a coaxial density motor mounting position 7013 and a density screw rod sleeve mounting ring 7012, the density motor mounting position 7013 is fixedly connected with a density motor 705, and the inner side of the density screw rod sleeve mounting ring 7012 is matched and connected with a screw rod sleeve 702.

In order to realize the radial adjustment performance of the syringe main shaft in a limited space, a crank handle pinion 61 driven to rotate by a handle 6 is arranged in a handle gear assembly mounting hole, the crank handle pinion 61 is meshed with a main shaft hand-operated large gear 304, and finally the main shaft hand-operated large gear 304 is driven to rotate by the handle 6 to realize the rotation adjustment angle of the syringe main shaft.

The main motor 141 preferably has a structure that realizes synchronous rotation of the cylinder main shaft 3 and the half shaft 93 by a drive gear set. The driving gear set comprises a main shaft large synchronizing wheel 301 and a main shaft small synchronizing wheel 303 which are sleeved with the needle cylinder main shaft 3 together, the main shaft large synchronizing wheel 301 is connected with a driving gear 154 on a main motor 141 through a main motor synchronous belt 152, the main shaft small synchronizing wheel 303 is connected with a half shaft lower synchronizing wheel 91 through a half shaft carrier gear 8, the half shaft lower synchronizing wheel 91 is sleeved with a half shaft 93 in cooperation with the center of a half shaft lower bearing base 13, and the technical purposes of synchronous operation and balanced interaction of the half shaft 93 and the needle cylinder main shaft 3 are achieved.

While the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes may be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides a modular hosiery machine big dish mechanism, includes big dish base (1), its characterized in that: the bearing base is characterized in that an integrated downward-protruding bearing base mounting position (108) is arranged on the lower side face of the large disc base (1), a density adjusting disc clearance groove (1001) is formed in the inner side of the bearing base mounting position (108), a first mounting groove (109) and a second mounting groove (1003) which are positioned on the same straight line are formed in the bearing base mounting position (108) in the radial direction, and a half component mounting hole (1011) is formed in the side edge of the bearing base mounting position (108); the first mounting groove (109), the second mounting groove (1003) and the density adjusting disk clearance groove (1001) are matched together to mount the density adjusting disk (500); the density adjusting disc (500) is positioned between the lower side surface of the large disc base (1) and the bearing base (2), and the lower side surface of the large disc base is fixedly connected with the bearing base (2); the large disc base (1), the bearing base (2) and the density adjusting disc (500) are sleeved with the needle cylinder main shaft (3) together.

2. The modular hosiery machine chassis mechanism of claim 1, wherein: the middle position of the upper side surface of the large disc base (1) is provided with a coaxial bearing seat mounting hole site (1010), a first mounting position (103) and a second mounting surface (104), and a plurality of upright column mounting hole sites (105) and large disc frame mounting holes (111) are arranged around the outside of the first mounting position (103); one side of the bearing seat mounting hole (1010) is provided with a half shaft assembly mounting hole (101) and an oil return hole (106);

one side of a bearing base installation position (108) of the side wall of the density adjusting disc empty-keeping groove (1001) which is the oil retaining inner wall (1002) of the big disc is provided with a density adjusting motor assembly installation position (110), and the other side of the bearing base installation position (108) is provided with a half shaft assembly installation hole position (101).

3. The modular hosiery machine chassis mechanism of claim 1, wherein: the bearing base (2) is provided with an annular bearing base mounting flange (209), the inner side of the bearing base mounting flange (209) is provided with a bearing base oil return groove (201) and a main shaft bearing mounting position (208), the side edge of the bearing base (2) is provided with a handle gear assembly mounting hole (204) and a bearing base oil outlet hole (203), and the bearing base oil outlet hole (203) is communicated with an oil outlet hole (202) on the bearing base oil return groove (201); the side of the bearing base (2) is also provided with a main motor mounting bracket hole (211), the main motor mounting bracket hole (211) is connected with a main motor mounting bracket (12), and the main motor mounting bracket (12) is connected with a main motor (141) through a main motor mounting box (14); an upper needle cylinder main shaft bearing (308) and a lower needle cylinder main shaft bearing are arranged on the inner side of the bearing base (2).

4. The modular hosiery machine chassis mechanism of claim 1, wherein: the inner side of the density adjusting disc (500) is provided with a coaxial inner ring (501) and an outer ring (502) of the density adjusting disc, one side of the density adjusting disc (500) is connected with a density adjusting screw (509) through a connecting rod (508), the connecting rod (508) is embedded into a second mounting groove (1003), and an opening at the other side of the density adjusting disc (500) is connected with an oil outlet joint (506); a connecting mechanism is arranged between the density adjusting disc (500) and the oil outlet joint (506), the connecting mechanism comprises a mounting rod (507) connected with the density adjusting disc (500), a screw hole (512) is formed in the mounting rod (507), the screw hole (512) is connected with the oil outlet joint (506) in a threaded mode, a universal ball bearing (505) is sleeved outside the mounting rod (507), and the universal ball bearing (505) is externally connected with the density adjusting disc mounting base (504).

5. The modular hosiery machine chassis mechanism of claim 4, wherein: the density adjusting disk (500) is connected with the needle cylinder density lifter (307) through the ball (510) and the density thrust ball bearing (309), the needle cylinder density lifter (307) and the density adjusting disk (500) are both positioned in the large disk base (1), the outer periphery of the needle cylinder density lifter (307) is connected with the outer ring (502) of the density adjusting disk along the buckling way, the outer ring (502) of the density adjusting disk is provided with a density oil hole (503), and the density oil hole (503) is communicated with an oil outlet hole (202) on an oil return groove (201) of the bearing base; the side of the density oil hole (503) is also provided with a density auxiliary oil hole (511), and the density auxiliary oil hole (511) is communicated with an oil outlet hole (202) on the bearing base oil return groove (201).

6. The modular hosiery machine chassis mechanism of claim 4, wherein: the bottom of the density adjusting screw (509) is connected with a density motor assembly in a matched mode, the density motor assembly comprises a density motor (705), a driving shaft of the density motor (705) is connected with a density screw (704), the periphery of the density screw (704) is connected with a screw sleeve (702) in a matched mode, and the screw sleeve (702) is fixedly connected with a density motor mounting frame (701) through a screw sleeve fixing block (703); one end of the density screw rod (704) close to the density adjusting screw rod (509) is provided with a thrust ball bearing (7042), the thrust ball bearing (7042) is connected with a density plug (7041), and the density plug (7041) is propped against the density adjusting screw rod (509).

7. The modular hosiery machine chassis mechanism of claim 6, wherein: the side of the density motor mounting frame (701) is provided with a coaxial density motor mounting position (7013) and a density screw rod sleeve mounting ring (7012), the density motor mounting position (7013) is fixedly connected with a density motor (705), and the inner side of the density screw rod sleeve mounting ring (7012) is matched and connected with a screw rod sleeve (702).

8. A modular hosiery machine chassis mechanism according to claim 3, characterized in that: a crank handle pinion (61) driven by a handle (6) to rotate is arranged in the handle gear assembly mounting hole, and the crank handle pinion (61) is meshed with a main shaft hand-operated large gear (304).

9. A modular hosiery machine chassis mechanism according to claim 3, characterized in that: the main motor (141) realizes the synchronous rotation performance of the needle cylinder main shaft (3) and the half shaft (9) through the driving gear set.

10. The modular hosiery machine chassis mechanism of claim 9, wherein: the driving gear set comprises a main shaft large synchronous wheel (301) and a main shaft small synchronous wheel (303) which are sleeved with the needle cylinder main shaft (3), the main shaft large synchronous wheel (301) is connected with a driving gear (154) on a main motor (141) through a main motor synchronous belt (152), the main shaft small synchronous wheel (303) is connected with a half shaft lower synchronous wheel (91) through a half shaft carrier gear (8), and the half shaft lower synchronous wheel (91) is matched with the center of a half shaft lower bearing base (13) to be sleeved with a half shaft (9).