CN216040106U - Spindle running track disc structure of braiding machine - Google Patents

Abstract

The utility model discloses a spindle operation track dish structure of braider relates to braided tube winding equipment technical field, and it is big to have solved the preceding dish processing degree of difficulty among the prior art, problem with high costs, and technical characteristic includes: the frame with be in the preceding dish of frame one side, preceding dish includes a plurality of track dishes and a plurality of transition piece, and a plurality of track dishes are laminated each other and the circumference is arranged in one side of frame, every the transition space has all been seted up to the both sides of track dish, and adjacent transition space forms transition piece installation space, the transition piece is installed in the transition piece installation space, processing has the track groove that two diameters equal on the track dish, two the track groove with the set tooth dish of track dish top is coaxial, processing has two crossing aqueducts of crossing on the transition piece, cross aqueduct and the smooth intercommunication of track groove and form two S type tracks. Has the advantages of convenient processing and low overall cost of equipment.

Description

Spindle running track disc structure of braiding machine

Technical Field

The disclosure relates to the technical field of braided tube winding equipment, in particular to a spindle running track disc structure of a braiding machine.

Background

At present, a braiding machine becomes a common machine for various manufacturers in the production process of composite pipelines, and the structure of the braiding machine mainly comprises a rack, wherein the rack comprises a front disc, a rear disc and an outer disc, a round hole is formed in the center of the rack, a plurality of braiding mechanisms are arranged in the rack around the round hole along the circumference, the adjacent braiding mechanisms are mutually meshed, the braiding structures are driven to run through a power mechanism, the power mechanism comprises a motor and a gear set, the braiding mechanisms comprise dial shafts arranged on the front disc and the rear disc, a dial gear is arranged at the rear end of each dial shaft in the rack, and the dial gears are connected with the motor through the gear set; the front end of the dial shaft extends out of the front dial to be provided with a dial, the dial is provided with a spindle seat, and one end of the spindle seat is inserted into a guide rail of the front dial and can slide along the guide rail and do interleaving movement to form weaving. When the knitting machine works, the motor runs to drive the driving plate gear to run through the gear set, the driving plate gear drives the driving plate shaft to run, and the driving plate shaft drives the driving plate and the spindle seat to run along the guide rail to form knitting.

In the existing knitting machine, on the first hand, guide rails are formed by engraving a large gantry machine tool in a front disc, so that the processing difficulty is high, the cost is high, particularly, the diameter of the large knitting machine reaches 4-6 meters, and few large machine tools capable of being directly processed are needed, so that the price of the large knitting machine in the existing market is very high. In the second aspect, after the guide rail of the large-scale knitting machine is processed, the whole machine is large in size, so that the heat treatment process is difficult to perform, and the guide rail is generally directly put into use, so that the hardness of the guide rail is low, the guide rail is not wear-resistant, and the whole operation precision is reduced after the guide rail is used for a long time. In a third aspect, once the guide rails are damaged, the guide rails cannot be replaced and maintained independently, the whole front disc can only be replaced, and all the guide rails need to be re-engraved, so that huge waste is caused.

Meanwhile, according to the content of the chinese invention patent with application number 201510634449.8, although the S-shaped track grooves are concentric, the radii are different, and when the knitting machine works in such a track, the working efficiency is affected, and due to the different radii of the tracks, the eccentric force applied to the sliding blocks sliding in the tracks is different, so that the spindle shaft is subject to alternating stress, and the service life of the knitting machine is reduced.

Disclosure of Invention

To address the above-mentioned technical problems in the prior art, the present disclosure provides a spindle running track disc structure of a braiding machine.

A spindle run track disk structure for a braiding machine, comprising: the frame with be in the preceding dish of frame one side, preceding dish includes a plurality of track dishes and a plurality of transition piece, and a plurality of track dishes are laminated each other and the circumference is arranged in one side of frame, every the transition space has all been seted up to the both sides of track dish, and adjacent transition space forms transition piece installation space, the transition piece is installed in the transition piece installation space, processing has the track groove that two diameters equal on the track dish, two the track groove with the set tooth dish of track dish top is coaxial, processing has two crossing aqueducts of crossing on the transition piece, cross aqueduct and the smooth intercommunication of track groove and form two S type tracks.

Furthermore, the track disc is provided with two end faces which are symmetrical relative to the center of the track disc, and the included angle between the two end faces is 360 degrees divided by the number of the track discs.

Furthermore, the intersection point of the two transition grooves is superposed with the end face of the track disc.

Further, the track grooves comprise a first track groove and a second track groove which are coaxial and have the same diameter, the first track groove and the second track groove are coaxial with the gear shifting disc above the track disc, the first track groove is communicated with the second track groove on the adjacent track disc through one of the transition grooves, and the second track groove is communicated with the first track groove on the adjacent track disc through one of the transition grooves.

Furthermore, the diameter of the track groove is smaller than the center distance of the adjacent shifting fluted disc and is positioned in the shifting space of the shifting fluted disc.

Further, the two transition grooves are straight grooves and are tangent to the first track groove and the second track groove on the adjacent track disc.

Furthermore, an oil filling hole is further processed on one side of the track disc and communicated with the track groove.

Further, valve installation spaces are further processed on at least two of the track discs, and valves are installed in the valve installation spaces.

A method for processing a spindle running track of a braiding machine comprises the following steps: firstly, processing a corresponding number of track discs according to weaving requirements, wherein the included angle between two end faces of the track discs is 360 degrees divided by the number of the track discs, processing track grooves and transition spaces on the track discs, the track grooves are coaxial with the gear shifting disc, and valve mounting spaces are processed on at least two track discs;

secondly, processing a transition block and a valve, wherein the size of the transition block is matched with the size of a transition block mounting space formed between adjacent transition spaces, two crossed transition grooves are processed on the transition block, and the intersection point of the two crossed transition grooves is superposed with the joint of the two track discs; the shape of the valve is processed relative to the valve installation space;

and thirdly, sequentially mounting the track disc and the transition block end to enable the track groove and the transition groove to be smoothly communicated, and finally mounting the valve.

Compared with the prior art, the beneficial effects of the embodiment of the present disclosure are that:

1. the original front disc is divided into the plurality of track discs and the transition blocks, the track discs and the transition blocks are machined during machining, and then the track discs and the transition blocks are assembled, so that the machining, later-stage maintenance and overall cost are greatly reduced;

2. the track grooves are concentric and have equal radiuses, and the sliding blocks sliding in the tracks are subjected to the same eccentric force, so that the spindle shaft is prevented from being subjected to alternating stress, and the service life of the braiding machine is prolonged; the track grooves are concentric and have equal radiuses, so that the running speed of the whole machine is greatly increased, and the working efficiency of the whole machine is improved;

3. the track groove is concentric and the radius equals, convenient processing, and machining precision and size of a dimension can be effectively guaranteed, and this just makes this disclosure can adapt to the spindle of different models, as long as the track groove of different diameters of processing can realize, can place the spool of different volume of holding the line volume according to the spindle of different models promptly for improve in the actual production work and weave the efficiency of weaving of pipe and become reality.

Drawings

In the drawings, which are not necessarily drawn to scale, like reference numerals may describe similar components in different views. Like reference numerals having letter suffixes or different letter suffixes may represent different instances of similar components. The drawings illustrate various embodiments generally by way of example and not by way of limitation, and together with the description and claims serve to explain the disclosed embodiments. The same reference numbers will be used throughout the drawings to refer to the same or like parts, where appropriate. Such embodiments are illustrative, and are not intended to be exhaustive or exclusive embodiments of the present apparatus or method.

Fig. 1 is a schematic structural view of a spindle running track disc structure of a braiding machine of the present disclosure;

fig. 2 is a structural schematic view of the track of the spindle travel track disc structure of the braiding machine of the present disclosure;

fig. 3 is a structural schematic view of a track disc having a shutter installation space of a spindle running track disc structure of a braiding machine of the present disclosure;

fig. 4 is a schematic structural view of a spindle running track disk structure of a braiding machine of the present disclosure without a track disk of a valve;

fig. 5 is a structural schematic view of a dial plate of a spindle running track plate structure of the knitting machine of the present disclosure.

The members denoted by reference numerals in the drawings:

1. a frame; 2. a front plate; 201. a track disk; 201a, a first track groove; 201b, a second track groove; 201c, a transition space; 201d, a valve installation space; 201e, an oil filler hole; 202. a transition block; 202a, a transition groove; 3. a poking gear disc; 301. a gear shifting space; 4. and a shutter.

Detailed Description

For a better understanding of the technical aspects of the present disclosure, reference is made to the following detailed description taken in conjunction with the accompanying drawings. Embodiments of the present disclosure are described in further detail below with reference to the figures and the detailed description, but the present disclosure is not limited thereto.

The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element preceding the word covers the element listed after the word, and does not exclude the possibility that other elements are also covered. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

In the present disclosure, when a specific device is described as being located between a first device and a second device, there may or may not be intervening devices between the specific device and the first device or the second device. When a particular device is described as being coupled to other devices, that particular device may be directly coupled to the other devices without intervening devices or may be directly coupled to the other devices with intervening devices.

All terms (including technical or scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure belongs unless specifically defined otherwise. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate.

Referring to fig. 1 to 5, a spindle travel track disc structure of a knitting machine includes: frame 1 with be in the preceding dish 2 of frame 1 one side, preceding dish 2 includes a plurality of track dishes 201 and a plurality of transition piece 202, and a plurality of track dishes 201 are laminated each other and the circumference is arranged in one side of frame 1, every transition space 201c has all been seted up to the both sides of track dish 201, and adjacent transition space 201c forms transition piece installation space, transition piece 202 is installed in the transition piece installation space, it has two track grooves that the diameter equals to process on the track dish 201, two the track groove with the tooth dish 3 coaxial is dialled to track dish 201 top, it has two crossing transition grooves 202a to process on the transition piece 202, cross transition groove 202a and track groove smooth intercommunication and form two S type tracks.

For the convenience of observation, only two shifting gears 3 are shown in fig. 1, actually, each track plate 201 is provided with one shifting gear 3, the outer diameter of the shifting gear 3 is larger than that of the track groove, and the inner diameter of the track groove is located in a shifting space 301 of the shifting gear 3;

specifically, the track disc 201 is fixedly connected with the rack 1, a mounting hole is formed in the track disc 201, a dial shaft is mounted in the mounting hole, a dial gear is mounted in the rack at the rear end of the dial shaft, and the dial gear is connected with a motor through a gear set; the front end of the dial shaft extends out of the track disc 201 to be provided with a dial gear disc 3, the dial gear disc 3 is provided with a spindle seat, one end of the spindle seat is inserted into the track groove of the track disc 201 and can slide along the track groove to perform interleaving movement, and weaving is formed. When the spindle knitting machine works, the motor runs to drive the driving plate gear to rotate through the gear set, the driving plate gear drives the driving plate shaft to rotate, the driving plate shaft drives the driving plate disc 3 to rotate, and the spindle seat runs along the track groove to form knitting;

the plurality of track discs 201 are uniformly distributed on the circular track B by taking the center O of the rack 1 as a circle center, the mounting holes on the track discs 201 are positioned on the track B, the number of the track discs 201 can be determined according to the actual use condition, if eight poking tooth discs 3 exist, the number of the track discs 201 is eight, and six track discs 201 are taken as an example in the disclosure; the transition space 201C takes the center O as a circle center, the arrangement track is C, the track C is a circle taking the center O as a circle center, and the transition spaces 201C are distributed on two sides of the track disc 201, so that the transition spaces 201C on the adjacent track discs 201 can be attached to each other when the track disc 201 is installed, the size of each transition space 201C can be the same during processing, meanwhile, according to the size of the transition space 201C, the size of the transition block 202 is twice that of the transition space 201C, and the processing and the batch production are facilitated; a track groove is processed on the track disc 201, the track groove is coaxial with the gear shifting disc 3 above the track disc 201, as shown in fig. 3 and 4, a transition space 201c on two sides of the track disc 201 divides the track groove into two sections of track grooves which are coaxial and have the same diameter, two crossed transition grooves 202a are processed on the transition block 202, the transition grooves 202a are smoothly communicated with the track grooves and form two S-shaped tracks, the track discs 201 and the transition block 202 are spliced into a front disc 2, the track grooves on the adjacent track discs 201 are communicated through the transition grooves 202a on the transition block 202, and finally two S-shaped tracks are formed on the front disc 2, so that the gear shifting disc 3 drives the spindle seat to perform S-shaped track operation along the track grooves and finally weave the weaving tube;

according to the invention, the original front disc is divided into the plurality of track discs 201 and the transition blocks 202, the track discs 201 and the transition blocks 202 are machined during machining, and then the track discs 201 and the transition blocks 202 are assembled, so that the cost of the whole machine in machining, later maintenance and later maintenance is greatly reduced, and meanwhile, the overall dimensions of the track discs 201 and the transition blocks 202 are greatly reduced, so that the machining is convenient, a common machine tool or a numerical control machine tool can complete the machining and can also perform heat treatment, the wear resistance is realized, the quality and the operation precision of the whole machine are ensured, and the service life of the whole machine is prolonged;

the track grooves are concentric and have equal radiuses, and the sliding blocks sliding in the track grooves are subjected to the same eccentric force, so that the spindle shaft is prevented from being subjected to alternating stress, and the service life of the braiding machine is prolonged; in addition, as the track grooves are concentric and have equal radiuses, the sliding block cannot collide with the track grooves due to the reduction of the radiuses of the tracks in the running process, the running speed and the service life of the whole machine are greatly improved, and the working efficiency of the whole machine is improved;

the track groove is concentric and the radius equals, convenient processing, and machining precision and size of a dimension can be effectively guaranteed, and this just makes this disclosure can adapt to the spindle of different models, as long as the track groove of different diameters of processing can realize, can place the spool of different volume of holding the line volume according to the spindle of different models promptly for improve in the actual production work and weave the efficiency of weaving of pipe and become reality.

In some embodiments, the track disk 201 has two end surfaces that are symmetrical with respect to the center of the track disk 201, and the included angle between the two end surfaces is 360 ° divided by the number of track disks.

Specifically, the center of the track disc 201 is a connecting line between the mounting hole of the track disc 201 and the center O of the rack 1, as shown in fig. 1 and fig. 2, there are six toothed plates 3, an included angle a of each track disc 201 is 360 °/6 ═ 60 °, if there are eight toothed plates 3, an included angle a of each track disc 201 is 360 °/8 ═ 45 °, and so on; of course, the size of the circle enclosed by the center O of the plurality of orbital discs 201 may also vary accordingly.

In some embodiments, the intersection of two of the transition grooves 202a coincides with the end face of the orbital disk 201.

Specifically, two S-shaped track grooves intersect at the end surfaces of two adjacent track discs 201, the track grooves on the track discs 201 are communicated through transition grooves 202a, the intersection point of the two transition grooves 202a coincides with the end surface of the track discs 201, that is, the intersection point of the two transition grooves 202a is located at the intersection of the two S-shaped tracks, so that the spindle base can be ensured to do S-shaped track motion along the track grooves, and the spindle base is prevented from colliding with the track grooves at the intersection of the two S-shaped track grooves.

In some embodiments, the track grooves include a first track groove 201a and a second track groove 201b which are coaxial and have the same diameter, the first track groove 201a and the second track groove 201b are coaxial with the tooth pulling disk 3 above the track disk, the first track groove 201a is communicated with a second track groove 201b on the adjacent track disk 201 through one of the transition grooves 202a, and the second track groove 201b is communicated with a first track groove 201a on the adjacent track disk through one of the transition grooves 202 a.

Specifically, the track disc 201 is made into a disc type, so that the positioning accuracy of the whole machine and the processing of a track groove can be ensured, two end faces are symmetrically processed on the basis, the track groove is divided into two sections, a track groove I201 a and a track groove II 201b are formed, when the track disc 201 is installed, the end faces are sequentially attached end to end, the installation accuracy of the whole machine can be ensured, of course, the track disc 201 is not limited to the shape of the disclosure, and on the basis of ensuring the smooth communication of S-shaped tracks, the track disc 201 can be processed into other shapes, such as triangle, trapezoid and the like; similarly, the transition space 201c and the transition block 202 may be processed into other figures besides the circle shown in the present disclosure, such as triangle, rectangle, trapezoid, etc., and the circle is easier to process, so the present disclosure takes the circle as an embodiment; the transition block 202 is arranged, the transition groove 202a is machined in the transition block 202, adjacent track grooves can be in smooth transition, meanwhile, if the track grooves are directly machined into the track shapes shown in the figures 1 and 2, due to the fact that the track grooves are provided with sharp corners, the width of each sharp corner is half of the width of the transition block 202, machining is difficult, deformation is caused during heat treatment, waste products are easy to produce, adjustment and repair are difficult during installation, the transition block 202 is arranged, equipment can be conveniently assembled and adjusted, machining is convenient, deformation is avoided during heat treatment, and the rejection rate is reduced; according to the plotting, two tracks of a foreign track knitting machine at the same position are eccentric and are formed by integrating a plurality of curves, the current domestic track knitting machine is also of the type, such as a knitting machine track with the application number of 201611114665.0, which is a structure, so that the processing difficulty is caused, the waste is easy to occur, and one of the reasons for higher price of the knitting machine is also the reason for higher price of the knitting machine, meanwhile, when the equipment is in specific operation work, a spindle can swing indefinitely, the spindle shaft is influenced by alternating stress, so that the service life of the knitting machine is reduced, the track groove I201 a and the track groove II 201b are coaxial with a shifting tooth disc 3 above the track discs, the track groove I201 a is communicated with the track groove II 201b on the adjacent track disc 201 through one transition groove 202a, the track groove II 201b is communicated with the track groove I201 a on the adjacent track disc through one transition groove 202a, therefore, the rail form of the prior rail knitting machine is avoided, the eccentric force borne by the sliding blocks sliding in the rail grooves is the same, the spindle shaft is prevented from being subjected to alternating stress, and the service life of the knitting machine is prolonged.

In some embodiments, the diameter of the track groove is smaller than the center distance of the adjacent tooth-pulling disk 3 and is located in the tooth-pulling space 301 of the tooth-pulling disk 3.

Specifically, during operation, along with the rotation of the dial gear plate 3, the dial space 301 drives the spindle to move along the track of the track groove, so that the spindle moves along the S-shaped track, and the knitting purpose is achieved, wherein the diameter of the track groove is smaller than the center distance of the adjacent dial gear plate 3 and is located in the dial space 301 of the dial gear plate 3, thereby ensuring the normal movement of the spindle, ensuring the normal knitting and preventing the occurrence of jamming.

In some embodiments, two of the transition grooves 202a are straight grooves and are tangent to the first track groove 201a and the second track groove 201b on the adjacent track disc.

Specifically, the transition groove 202a is a tangent groove of the adjacent first track groove 201a and the adjacent second track groove 201b on the track disc, when the spindle works, the spindle is easy to leave along the tangent line under the action of centrifugal force, and under the limiting action of the tooth shifting space 301, the spindle can quickly and smoothly enter the next track, so that the spindle can stably and quickly move, the knitting efficiency is improved, and the knitting quality of a knitting pipe is ensured; the two transition grooves 202a are straight grooves, the intersection point of the two straight grooves is easy to determine and process, the production efficiency is improved, and the installation precision is guaranteed.

In some embodiments, an oil hole 201e is further formed on one side of the rail disk 201, and the oil hole 201e is communicated with the rail groove.

Specifically, utilize oil filler point 201e to pour into the track inslot with outside lubricating oil into, the slider of the spindle below of being convenient for removes in the track inslot, reduces friction, reduces the heat, has guaranteed the normal life of equipment.

In some embodiments, at least two of the rail discs 201 are further processed with a shutter installation space 201d, and the shutter 4 is installed at the shutter installation space 201 d.

Specifically, at least two of the track discs 201 are provided with a valve mounting space 201d, as shown in fig. 3, the bottom surfaces of the valve mounting space and the track groove one 201a are in the same plane, so that a slider of the spindle can be placed in the track groove, the valve 4 has an arc surface with the same radius and thickness as the outer side of the track groove one 201a, and the valve 4 ensures that the track groove one 201a is closed and can be as high as the track groove one 201a after the valve 4 is mounted, so that the spindle can move smoothly; during installation, the two track discs 201 with the valve installation space 201d are adjacent or arranged at intervals, so that the sliding blocks of the spindle are conveniently placed in the two S-shaped tracks respectively, and the valve 4 is installed in the valve installation space 201d after the sliding blocks are installed, so that the sealing of the tracks is ensured; when the sliding block is disassembled, the sliding block of the corresponding track can be disassembled by disassembling the valve 4.

The specific structure of the shutter 4 is not limited, and it can be understood that fig. 3 and 4 are compared, and the shape of the shutter 4 is the missing part after comparing fig. 3 and 4.

A method for processing a spindle running track of a braiding machine comprises the following steps: firstly, processing a corresponding number of track discs 201 according to weaving requirements, wherein the included angle between two end faces of the track discs 201 is 360 degrees divided by the number of the track discs 201, processing track grooves and transition spaces 201c on the track discs 201, the track grooves are coaxial with the gear shifting disc 3, and valve mounting spaces 201d are processed on at least two track discs 201;

secondly, processing a transition block 202 and a valve 4, wherein the size of the transition block 202 is matched with the size of a transition block mounting space formed between adjacent transition spaces 201c, two crossed transition grooves 202a are processed on the transition block 202, and the intersection point of the two crossed transition grooves 202a is overlapped with the joint of the two track discs 201; the outer shape of the shutter 4 is processed with respect to the shutter installation space 201 d;

thirdly, the track disc 201 and the transition block 202 are sequentially arranged end to end, the track groove is smoothly communicated with the transition groove 202a, and finally the valve 4 is arranged.

In particular, in the existing knitting machine, on the first hand, guide rails are formed by engraving a large gantry machine tool in a front disc, so that the processing difficulty is high, the cost is high, particularly, the diameter of the large knitting machine reaches 4-6 meters, and few large machine tools capable of directly processing the large knitting machine tool are needed, so that the price of the large knitting machine in the market is very high. In the second aspect, after the guide rail of the large-scale knitting machine is processed, the whole machine is large in size, so that the heat treatment process is difficult to perform, and the guide rail is generally directly put into use, so that the hardness of the guide rail is low, the guide rail is not wear-resistant, and the whole operation precision is reduced after the guide rail is used for a long time. In order to solve the problems, the front disc is decomposed by a specific decomposition method, namely according to the number of the toothed discs or the gears on the original front disc, the number of the gears is equal to that of the track discs 201, so that the purpose of decomposing the front disc is achieved, each track disc 201 is processed, and then the front disc is assembled; the track groove is coaxial with the shifting gear plate 3, so that the first processing is convenient, the processing precision can be ensured, and the second processing ensures that the spindle can normally run in the track groove, and the service life of the equipment is ensured; the track groove on the track disc 201 is directly processed into the track shape as shown in fig. 1 and fig. 2, a sharp corner can appear, the width of the sharp corner is half of the width of the transition block 202, the sharp corner is difficult to process, the transition block is easy to deform during heat treatment, waste products are easy to produce, the transition block 202 is not easy to adjust and repair during installation, equipment can be conveniently assembled and adjusted, the processing is convenient, the heat treatment cannot deform, and the rejection rate is reduced; the sliding block of the spindle can be conveniently installed or detached by arranging the valve 4.

Moreover, although exemplary embodiments have been described herein, the scope thereof includes any and all embodiments based on the disclosure with equivalent elements, modifications, omissions, combinations (e.g., of various embodiments across), adaptations or alterations. The elements of the claims are to be interpreted broadly based on the language employed in the claims and not limited to examples described in the present specification or during the prosecution of the application, which examples are to be construed as non-exclusive. It is intended, therefore, that the specification and examples be considered as exemplary only, with a true scope and spirit being indicated by the following claims and their full scope of equivalents.

The above description is intended to be illustrative and not restrictive. For example, the above-described examples (or one or more versions thereof) may be used in combination with each other. For example, other embodiments may be used by those of ordinary skill in the art upon reading the above description. In addition, in the foregoing detailed description, various features may be grouped together to streamline the disclosure. This should not be interpreted as an intention that a disclosed feature not claimed is essential to any claim. Rather, the subject matter of the present disclosure may lie in less than all features of a particular disclosed embodiment. Thus, the following claims are hereby incorporated into the detailed description as examples or embodiments, with each claim standing on its own as a separate embodiment, and it is contemplated that these embodiments may be combined with each other in various combinations or permutations. The scope of the disclosure should be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled.

The above embodiments are merely exemplary embodiments of the present disclosure, which is not intended to limit the present disclosure, and the scope of the present disclosure is defined by the claims. Various modifications and equivalents of the disclosure may occur to those skilled in the art within the spirit and scope of the disclosure, and such modifications and equivalents are considered to be within the scope of the disclosure.

Claims (8)

1. A spindle run track disk structure for a braiding machine, comprising: a frame (1) and a front disc (2) at one side of the frame (1), characterized in that, the front disc (2) comprises a plurality of track discs (201) and a plurality of transition blocks (202), the track discs (201) are mutually attached and are circumferentially arranged on one side of the rack (1), transition spaces (201c) are respectively formed in two sides of each track disc (201), and adjacent transition spaces (201c) form transition block installation spaces, the transition block (202) is arranged in the transition block mounting space, two track grooves with the same diameter are processed on the track disc (201), the two track grooves are coaxial with the poking gear disc (3) above the track disc (201), two crossed transition grooves (202a) are machined in the transition block (202), and the transition grooves (202a) are smoothly communicated with the track grooves and form two S-shaped tracks.

2. Spindle running track disc structure of a knitting machine according to claim 1, characterized in that the track disc (201) has two end faces which are centrosymmetric with respect to the track disc (201), and the angle between the two end faces is 360 ° divided by the number of track discs (201).

3. Spindle running track disc structure of a knitting machine according to claim 1, characterized in that the intersection of two transition grooves (202a) coincides with the end face of the track disc (201).

4. The spindle running track disc structure of the knitting machine as claimed in claim 1, characterized in that the track grooves comprise a first track groove (201a) and a second track groove (201b) which are coaxial and have equal diameters, the first track groove (201a) and the second track groove (201b) are coaxial with the dial gear (3) above the track disc (201), the first track groove (201a) is communicated with the second track groove (201b) on the adjacent track disc (201) through one of the transition grooves (202a), and the second track groove (201b) is communicated with the first track groove (201a) on the adjacent track disc (201) through one of the transition grooves (202 a).

5. The spindle running track disc structure of a knitting machine as claimed in claim 1, characterized in that the track groove has a diameter smaller than the center distance of adjacent dial discs (3) and is located in a dial space (301) of the dial discs (3).

6. The carrier running track disc structure of a knitting machine as claimed in claim 4, characterized in that two transition grooves (202a) are straight grooves and are tangent to the first track groove (201a) and the second track groove (201b) on the adjacent track disc (201).

7. The spindle running track disc structure of a knitting machine as claimed in claim 1, characterized in that an oil filling hole (201e) is further formed at one side of the track disc (201), and the oil filling hole (201e) is communicated with the track groove.

8. The spindle running track disc structure of a knitting machine as claimed in claim 1, characterized in that at least two of the track discs (201) are further processed with a shutter installation space (201d), and a shutter (4) is installed at the shutter installation space (201 d).

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