A needle selection cylinder and a glove machine
By weaving gloves on a glove machine using staggered knitting pins, an interlocking knitted surface is formed, which solves the problem of insufficient friction after cotton gloves are impregnated with glue, and achieves the effect of improving friction without additional processes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG BAIXIANG TECHNOLOGY CO LTD
- Filing Date
- 2025-06-30
- Publication Date
- 2026-07-03
AI Technical Summary
Existing cotton gloves have insufficient surface friction after being dipped in adhesive, requiring additional processes or materials to create protrusions to improve friction, which increases costs.
The first and second knitting pins are staggered to select needles, forming an alternating concave and convex knitting surface on the fingers and palm of the glove, creating a pattern resembling a black and white checkerboard, ensuring that the glove retains its concave and convex surface after being dipped in glue.
The friction of the gloves can be increased without changing the dipping process, saving dipping costs, and the gloves have a textured feel on the fingers and palms, which increases friction.
Smart Images

Figure CN224451036U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of glove machine technology, and in particular to a needle selection roller and a glove machine. Background Technology
[0002] Some dipped gloves on the market require cotton gloves as lining, and are then placed in the adhesive solution to form dipped gloves, which are convenient for use in various scenarios.
[0003] However, the palm and back of existing cotton gloves are flat, so they remain flat even after being dipped in adhesive. In particular, the market demand for surface friction of dipped gloves is gradually increasing to make them suitable for most applications. To enhance the surface friction of dipped gloves, it is necessary to optimize the dipping process or to apply adhesive to the glove surface to create a raised adhesive surface, which increases the cost of creating the adhesive surface in dipped gloves. Utility Model Content
[0004] This invention provides a needle selection roller and glove machine, which makes the front and back of the knitted gloves have an uneven surface (granular texture). The uneven surface can also be formed in the subsequent glue dipping process without changing the process, thereby increasing the friction of the gloves.
[0005] To achieve the above objectives, the present invention adopts the following technical solution:
[0006] A needle selection roller includes a roller and a needle selection pin area disposed on the roller;
[0007] The aforementioned needle selection area includes the ring finger pin area, middle finger pin area, index finger pin area, three-finger palm pin area, little finger pin area, four-finger palm pin area, thumb pin area, five-finger palm pin area, and screw pin area arranged sequentially along the circumference of the aforementioned roller.
[0008] The aforementioned ring finger pin area, the aforementioned middle finger pin area, the aforementioned index finger pin area, the aforementioned little finger pin area, and the aforementioned thumb pin area all include fingertip sealing pins arranged sequentially along the circumference of the aforementioned roller, a group of braided pins corresponding to the curvature of the fingertip, and a group of braided pins corresponding to the part normally braided except for the fingertip.
[0009] The above-mentioned braided pin group two includes a first braided pin and a second braided pin arranged sequentially along the circumference of the roller, and the two have the same length on the roller.
[0010] The first braided pin includes a plurality of first pins spaced apart along the axial direction of the roller, and the second braided pin includes a plurality of second pins spaced apart along the axial direction of the roller, with the plurality of first pins and the plurality of second pins being arranged alternately.
[0011] Preferably, the interval length between two adjacent first pins is the same as the interval length between two adjacent second pins, and the first pins and the second pins are arranged at the same length on the roller.
[0012] Preferably, the aforementioned three-finger palm pin area, the aforementioned four-finger palm pin area, and the aforementioned five-finger palm pin area all include woven pin group three;
[0013] The aforementioned braided pin group three includes a third braided pin and a fourth braided pin, and the two are arranged at the same length on the aforementioned roller;
[0014] The third braided pin includes a plurality of third pins spaced apart along the axial direction of the roller, and the fourth braided pin includes a plurality of fourth pins spaced apart along the axial direction of the roller. The plurality of third pins and the plurality of fourth pins are staggered along the axial direction of the roller.
[0015] Preferably, the interval length between two adjacent third pins is the same as the interval length between two adjacent fourth pins, and the arrangement length of the third pins and the fourth pins on the roller is the same.
[0016] Preferably, the first pin and the third pin are arranged at the same length on the roller, and the interval between two adjacent first pins is the same as the interval between two adjacent third pins.
[0017] Preferably, the adjacent ends of the first and second pins correspond to the same needle selection position, and the adjacent ends of the third and fourth pins correspond to the same needle selection position.
[0018] Preferably, the aforementioned three-finger palm pin area is divided into a first three-finger palm pin area, a second three-finger palm pin area, and a third three-finger palm pin area along its length. The needle selection positions corresponding to the third knitting pins in the first three-finger palm pin area, the second three-finger palm pin area, and the third three-finger palm pin area are the same as the needle selection positions corresponding to the second knitting pins in the ring finger pin area, the middle finger pin area, and the index finger pin area, respectively. The needle selection positions corresponding to the fourth knitting pins in the first three-finger palm pin area, the second three-finger palm pin area, and the third three-finger palm pin area are the same as the needle selection positions corresponding to the first knitting pins in the ring finger pin area, the middle finger pin area, and the index finger pin area, respectively.
[0019] The aforementioned four-finger palm pin area is divided into a first four-finger palm pin area and a second four-finger palm pin area along its length. The needle selection positions corresponding to the third knitting pins in the first four-finger palm pin area and the second four-finger palm pin area are the same as the needle selection positions corresponding to the third knitting pins in the three-finger palm pin area and the second knitting pins in the little finger pin area. The needle selection positions corresponding to the fourth knitting pins in the first four-finger palm pin area and the second four-finger palm pin area are the same as the needle selection positions corresponding to the fourth knitting pins in the three-finger palm pin area and the first knitting pins in the little finger pin area.
[0020] The aforementioned five-finger palm pin area is divided into a first five-finger palm pin area and a second five-finger palm pin area along its length. The needle selection positions corresponding to the third knitting pins in the first and second five-finger palm pin areas are the same as the needle selection positions corresponding to the third knitting pins in the four-finger palm pin area and the second knitting pins in the thumb pin area. The needle selection positions corresponding to the fourth knitting pins in the first and second five-finger palm pin areas are the same as the needle selection positions corresponding to the fourth knitting pins in the four-finger palm pin area and the first knitting pins in the thumb pin area.
[0021] A glove machine includes a frame and a front needle selection roller and a rear needle selection roller symmetrically arranged on the frame in a front-to-back direction, wherein both the front needle selection roller and the rear needle selection roller are the aforementioned needle selection rollers.
[0022] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0023] The finger area uses a staggered first and second knitting pin for needle selection, while the palm area uses a staggered third and fourth knitting pin. This creates an alternating convex and concave knitting surface on both the finger and palm areas. The entire front and back of the finger area form a black and white checkerboard pattern, creating a new glove pattern that ensures strength while providing a textured surface. This allows the glove to achieve the same textured surface during the subsequent dipping process, saving on dipping costs and improving the friction of the finger area after dipping. Attached Figure Description
[0024] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0025] Figure 1 This is a schematic diagram of the unfolding of the front selection needle roller in an embodiment of the present invention. Figure 1 ;
[0026] Figure 2 This is a schematic diagram of the unfolding of the front selection needle roller in an embodiment of the present invention. Figure 2 ;
[0027] Figure 3 This is a schematic diagram of the pin area of the ring finger in an embodiment of this utility model;
[0028] Figure 4 This is a schematic diagram of the pin area of the ring finger, the pin area of the middle finger, the pin area of the index finger, and the palm pin area of the three fingers in an embodiment of this utility model.
[0029] Figure 5 This is a schematic diagram of the unfolded rear needle roller in an embodiment of the present invention. Figure 1 ;
[0030] Figure 6 This is a schematic diagram of the unfolded rear needle roller in an embodiment of the present invention. Figure 2 ;
[0031] Figure 7 This is a schematic diagram of the unfolded front needle selection roller and rear needle selection roller in an embodiment of the present invention (the left side is the front needle selection roller, and the right side is the rear needle selection roller).
[0032] Explanation of reference numerals in the attached figures:
[0033] 1. Roller; 2. Ring finger pin area; 3. Middle finger pin area; 4. Index finger pin area; 5. Three-finger palm pin area; 6. Little finger pin area; 7. Four-finger palm pin area; 8. Thumb pin area; 9. Five-finger palm pin area; 10. Ribbon pin area; 101. Finger tip sealing pin; 102. Knitting pin group one; 103. Knitting pin group two; 104. First knitting pin; 1041. First pin; 105. Second knitting pin; 1051. Second pin; 106. Knitting pin group three; 107. Third knitting pin; 1071. Third pin; 108. Fourth knitting pin; 1081. Fourth pin; 109. First transition pin; 110. Second transition pin; 111. Third transition pin; 112. Fourth transition pin; 200. Front needle selection roller; 300. Rear needle selection roller. Detailed Implementation
[0034] The technical solution of this utility model will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of this utility model. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.
[0035] In the description of this utility model, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicating the orientation or positional relationship, are based on the orientation or positional relationship shown in the accompanying drawings and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.
[0036] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0037] This utility model embodiment provides a needle selection roller, such as Figure 1 and Figure 5 As shown, the device includes a roller 1 and a needle selection pin area on the roller 1. The needle selection pin area has a number of needle selection pins that cooperate with the mittens to select needles. The needle selection pin area corresponds to the knitting part of the glove and is divided into the following areas in sequence: ring finger pin area 2, middle finger pin area 3, index finger pin area 4, three-finger palm pin area 5, little finger pin area 6, four-finger palm pin area 7, thumb pin area 8, five-finger palm pin area 9, and ribbed pin area 10. The above areas are arranged in sequence around the circumference of the roller 1. When selecting needles, the needles are selected in the order of ring finger pin area 2, middle finger pin area 3, index finger pin area 4, three-finger palm pin area 5, little finger pin area 6, four-finger palm pin area 7, thumb pin area 8, five-finger palm pin area 9, and ribbed pin area 10 in cooperation with the mittens to knit a low-cut glove. The relative positions of each area are shown in the figure, which is existing technology and will not be described in detail.
[0038] Specifically, the ring finger pin area 2, middle finger pin area 3, index finger pin area 4, little finger pin area 6, and thumb pin area 8 each include a fingertip sealing pin 101, a knitting pin group one 102, and a knitting pin group two 103. The fingertip sealing pin 101, knitting pin group one 102, knitting pin group two 103, and transition pin group are arranged sequentially along the circumference of the roller 1. Among them, the fingertip sealing pin 101 is used for selecting needles to seal the fingertip. The fingertip sealing pin 101 specifically includes one sealing pin, which can correspond to the selection of multiple knitting needles. The knitting pin group one 102 is used for selecting needles to correspond to the knitting of the fingertip arc. Specifically, it includes multiple knitting pins arranged sequentially along the circumference of the roller 1, and the lengths are different, so as to cooperate with the bird piece to select needles and form the knitting arc. The knitting pin group two 103 is used for normal knitting of the part other than the fingertip, and finally forms the entire finger.
[0039] Specifically, such as Figures 1-5As shown, the knitting pin group 2 103 includes a first knitting pin 104 and a second knitting pin 105. The first knitting pin 104 and the second knitting pin 105 are arranged sequentially along the circumference of the roller 1, and their lengths on the roller 1 are consistent, so that the number of needles selected on the glove except for the head is the same, and the finger width is the same. The first knitting pin 104 includes multiple first pins 1041 that are spaced apart along the axial direction of the roller 1. When the first knitting pin 104 selects needles, the first pin 1041 will cooperate with the needle plate to select needles (corresponding to the needle plate, it is the starting of the knitting needle). When the gap between pins 1041 is at a low position, needle selection is not performed (corresponding to the needle plate, the knitting needle does not move). The movement of the needle guide head then drives the knitting needle to participate in knitting. The needle corresponding to the first pin 1041 will perform normal glove knitting, while the needle selection position corresponding to the gap between the two first pins 1041 will not participate in knitting. Since the same yarn is used for knitting, after the needle guide head has knitted one revolution, corresponding to the finger area, the front and back sides will form an alternating concave and convex shape along the finger width. The concave surface is where the knitting needle participates in knitting, while the convex surface is where the knitting needle floats up and does not participate in knitting. Between the two concave surfaces, if the first knitting pin 104 is used alone to knit the finger, the finger will form multiple rows of intersecting concave surfaces (formed by connecting multiple concave surfaces along the length of the finger) and multiple rows of convex surfaces (formed by connecting multiple convex surfaces along the length of the finger); wherein the second knitting pin 105 includes multiple second pins 1051 distributed at intervals along the axial direction of the roller 1. Like the first knitting pin 104, the second knitting pin 105 participates in knitting to select the needle. After the needle guide head drives the knitting needle to move, after the needle guide head knits one circle, corresponding to the finger, its front and back sides will form concave surfaces along the width of the finger. The shape features an alternating distribution of surfaces and convexities. Similarly, if the second knitting pin 105 is used alone to knit the fingers, the fingers will form multiple rows of intersecting concave and convex sections. In summary, when the first knitting pin 104 and the second knitting pin 105 are used alone to knit the gloves' fingers, the fingers will all form concave and convex surfaces. The fingers, which already have concave and convex surfaces, will still have concave and convex surfaces on the front and back of the gloves' fingers after being dipped in adhesive, i.e., the finger surfaces have a grainy texture. Moreover, the dipping process does not need to be changed, saving dipping costs and improving the friction of the gloves' fingers after dipping. In this embodiment, as shown... Figures 1-3As shown, to further increase the strength and aesthetics of the finger area, multiple first pins 1041 and multiple second pins 1051 are staggered, i.e., arranged along the axial direction of roller 1 in the pattern of first pin 1041, second pin 1051, first pin 1041, second pin 1051. Since the first pins 1041 and second pins 1051 are in two separate rows, the second pins 1051 correspond to the gaps between two first pins 1041, and the first pins 1041 correspond to the gaps between two second pins 1051. Therefore, during the needle selection process on roller 1, the first knitting pins 104 and second knitting pins 105 alternately select needles. That is, the first knitting pin 104 participates in needle selection, the needle guide head drives the needle to knit a fixed number of turns, then the second knitting pin 105 participates in needle selection, the needle guide head drives the needle to knit a fixed number of turns, and then the first knitting pin 104 participates in needle selection again, thus completing the knitting of the glove's finger area. Afterwards, multiple rows of knitted surfaces are formed along the width of the glove's finger area. Each knitted surface forms multiple convex and concave surfaces along its length, with the convex and concave surfaces interspersed. Multiple rows of knitted surfaces are also formed along the length of the finger area. Since the same knitting pin is used for needle selection, an interlaced knitted surface is formed. Therefore, the front and back of the entire finger area will form a shape like a black and white checkerboard (white squares are considered convex surfaces, and black squares are considered concave surfaces), thus forming a new glove pattern. Regardless of which row of knitted surfaces is on the finger area, there is a concave surface (knitted surface) that ensures the strength of the finger surface, rather than the entire row being convex or concave. Therefore, by alternately using the first knitting pin 104 and the second knitting pin 105 for needle selection, the glove's finger area can form a new pattern that ensures both strength and has a textured surface. The subsequent glue-dipping process of the glove does not need to be changed to form a textured glue surface, saving glue-dipping costs and improving the friction of the glove's finger area after glue-dipping. It is important to know that the lengths of the first braided pin 104 and the second braided pin 105 in the ring finger pin area 2, middle finger pin area 3, index finger pin area 4, little finger pin area 6, and thumb pin area 8 correspond to the width of the braided finger.
[0040] Preferably, the interval length between two adjacent first pins 1041 is the same as the interval length between two adjacent second pins 1051, and the setting length of the first pins 1041 and the second pins 1051 on the roller 1 is the same, so that the first knitting pins 104 and the second knitting pins 105 alternately participate in needle selection, and all the concave parts formed by the finished knitted glove finger are the same size, and all the convex parts are also the same size, making the entire finger surface more beautiful. It is important to know that, since the first pin 1041 and the second pin 1051 are staggered, in order to ensure that the lengths of the first braided pin 104 and the second braided pin 105 are consistent, the length of the first pin 1041 at the head or tail of the first braided pin 104 needs to be shortened, and the length of the second pin 1051 at the head or tail of the second braided pin 105 needs to be shortened. That is, if the first pin 1041 at the head of the first braided pin 104 is shortened, then the second pin 1051 at the tail of the second pin 1051 will be shortened, and if the first pin 1041 at the tail of the first braided pin 104 is shortened, then the second pin 1051 at the head of the second pin 1051 will be shortened.
[0041] Furthermore, the three-finger palm pin area 5, the four-finger palm pin area 7, and the five-finger palm pin area 9 all include a third knitting pin group 106. The third knitting pin group 106 includes a third knitting pin 107 and a fourth knitting pin 108, both with the same length on the roller 1. The third knitting pin 107 includes multiple third pins 1071 spaced apart along the axial direction of the roller 1. Just as the multiple first pins 1041 within the first knitting pin 104 participate in needle selection, the second knitting pin 105 participates in knitting for needle selection. After the needle guide head drives the knitting needles, after one revolution of the needle guide head, corresponding to the entire palm, its front and back sides will form an alternating concave and convex shape along the width of the palm. Similarly...
[0042] The fourth knitting pin 108 includes a plurality of fourth pins 1081 spaced apart along the axial direction of the roller 1. Similar to the plurality of first pins 1041 in the first knitting pin 104 participating in needle selection, the fourth knitting pin 108 participates in knitting for needle selection. After the needle guide head drives the knitting needle to move, after the needle guide head has knitted one revolution, corresponding to the entire palm area, its front and back sides will form a shape with alternating concave and convex surfaces along the width of the palm. Furthermore, in this embodiment, as... Figure 1 and Figure 4As shown, multiple third pins 1071 and multiple fourth pins 1081 are staggered along the axial direction of roller 1, i.e., arranged in the pattern of third pin 1071, fourth pin 1081, third pin 1071, and fourth pin 1081. Since the third pins 1071 and fourth pins 1081 are in two separate rows, the fourth pin 1081 corresponds to the gap between two third pins 1071, and the third pin 1071 corresponds to the gap between two fourth pins 1081. Therefore, during the needle selection process of roller 1, the third knitting pins 107 and fourth knitting pins 108 alternately select needles. As a result, after the palm of the glove is knitted, it will also form a black and white checkerboard pattern, forming the same pattern as the fingers. This ensures strength and provides a textured surface, giving the palm a grainy feel. The subsequent glue-dipping process of the glove does not need to be changed to form a textured surface, saving glue-dipping costs and improving the friction of the palm of the glove after glue-dipping. The friction of the entire front and back of the glove is also better. It is important to know that the lengths of the third braided pin 107 and the fourth braided pin 108 in the three-finger palm pin area 5, the four-finger palm pin area 7, and the five-finger palm pin area 9 are different, corresponding to the lengths of the fingers and palms being braided.
[0043] Preferably, the interval length between two adjacent third pins 1071 is the same as the interval length between two adjacent fourth pins 1081, and the setting length of the third pins 1071 and the fourth pins 1081 on the roller 1 is the same. Thus, the third knitting pins 107 and the fourth knitting pins 108 alternately participate in needle selection. The size of all the concave parts formed by the finished knitted glove palm is the same, and the size of all the convex parts is also the same, making the entire palm more beautiful. It is important to know that, since the third pin 1071 and the fourth pin 1081 are staggered, in order to ensure that the lengths of the third braided pin 107 and the fourth braided pin 108 are consistent, the length of the third pin 1071 at the head or tail of the third braided pin 107 needs to be shortened, and the length of the fourth pin 1081 at the head or tail of the fourth braided pin 108 needs to be shortened. That is, if the third pin 1071 at the head of the third braided pin 107 is shortened, then the fourth pin 1081 at the tail of the fourth pin 1081 will be shortened, and if the third pin 1071 at the tail of the third braided pin 107 is shortened, then the fourth pin 1081 at the head of the fourth pin 1081 will be shortened.
[0044] Furthermore, the first pin 1041 and the third pin 1071 have the same length on the roller 1, and the interval between two adjacent first pins 1041 is the same as the interval between two adjacent third pins 1071. Therefore, it can be concluded that the lengths of the first pin 1041, second pin 1051, third pin 1071, and fourth pin 1081 are all the same, and the distances between two adjacent first pins 1041, two adjacent second pins 1051, two adjacent third pins 1071, and two adjacent fourth pins 1081 are also the same. The distances between them are all the same, so the needles are selected sequentially through the ring finger pin area 2, middle finger pin area 3, index finger pin area 4, three-finger palm pin area 5, little finger pin area 6, four-finger palm pin area 7, thumb pin area 8, and five-finger palm pin area 9 on roller 1. In the same pin area, the first knitting pin 104 and the second knitting pin 105 are knitted alternately, and the third knitting pin 107 and the fourth knitting pin 108 in the same pin area are knitted alternately. After the knitting is completed, the pattern formed on the fingers and palm of the finished glove is the same, so that the pattern on the fingers and palm of the entire glove is the same, and the overall aesthetics are higher.
[0045] Specifically, in this embodiment, the adjacent ends of the first pin 1041 and the second pin 1051 correspond to the same needle selection position. This can be understood as the ends of the adjacent first pin 1041 and the second pin 1051 overlapping on the radial projection of the roller 1. Correspondingly, on the fingertip of the glove, the width of the concave portion along the fingertip knitted by the first knitting pin 104 is greater than the width of the convex portion along the fingertip knitted by the second knitting pin 105. Similarly, the width of the concave portion along the fingertip knitted by the second knitting pin 105 is greater than the width of the convex portion along the fingertip knitted by the first knitting pin 104. Therefore, the concave portion of the fingertip knitted by the second knitting pin 105 connects with the concave portion of the fingertip knitted by the adjacent first knitting pin 104, thus separating each convex surface formed on the fingertip. Relatively speaking, the area of the concave surface formed by normal knitting is larger, increasing the connection strength of the fingertip. Stronger; similarly, the adjacent ends of the third knitting pin 107 and the fourth knitting pin 108 correspond to the same needle selection position, which can be understood as the ends of the adjacent third pin 1071 and the fourth pin 1081 overlapping on the radial projection of the roller 1. Thus, corresponding to the finger part of the glove, the width of the concave part along the finger surface knitted by the third knitting pin 107 is greater than the width of the convex part along the finger surface knitted by the fourth knitting pin 108. Similarly, the width of the concave part along the finger surface knitted by the fourth knitting pin 108 is greater than the width of the convex part along the finger surface knitted by the third knitting pin 107. Thus, the concave part of the finger surface knitted by the fourth knitting pin 108 will be connected with the concave part of the finger surface knitted by the adjacent third knitting pin 107, thereby separating each convex surface formed on the palm. Relatively speaking, the area of the concave surface formed by normal knitting is larger, making the connection strength of the palm surface stronger.
[0046] The three-finger palm pin area 5 is divided into a first three-finger palm pin area, a second three-finger palm pin area, and a third three-finger palm pin area along its length. On the roller 1, the needle selection positions corresponding to the third knitting pins 107 in the first, second, and third three-finger palm pin areas are the same as the needle selection positions corresponding to the second knitting pins 105 in the ring finger pin area 2, middle finger pin area 3, and index finger pin area 4, respectively. This allows the third pins 1071 and the first pins 1041 to be staggered along the axis of the roller 1. Similarly, the needle selection positions corresponding to the fourth knitting pins 108 in the first, second, and third three-finger palm pin areas are the same as the needle selection positions corresponding to the first knitting pins 104 in the ring finger pin area 2, middle finger pin area 3, and index finger pin area 4, respectively. This allows the fourth pins 1081 and the second pins 1051 to be staggered along the axis of the roller 1. Thus, after knitting the ring finger, middle finger, and index finger, the first knitting pins 104 and the second knitting pins 1051 are staggered. The 105 needles are used alternately. If the finger section ends with the first knitting pin 104, it corresponds to the three-finger palm pin area 5. When selecting needles for palm knitting through the three-finger palm pin area 5, the needle selection will start with the third knitting pin 107, and then the third knitting pin 107 and the fourth knitting pin 108 will be used alternately. If the finger section ends with the second knitting pin 105, it corresponds to the three-finger palm pin area 5. When selecting needles for palm knitting through the three-finger palm pin area 5, the needle selection will start with the fourth knitting pin 108, and then the fourth knitting pin 108 and the third knitting pin 107 will be used alternately. This ensures that after the ring finger, middle finger, and index finger are knitted with the three-finger palm, the interface does not affect the distribution of the concave and convex surfaces. It can be understood that the glove surface formed by the ring finger, middle finger, and index finger and the three-finger palm still selects needles alternately according to the first pin 1041 and the second pin 1051, so that the pattern of the finger section and the palm can be continuous and consistent.
[0047] Similarly, the four-finger palm pin area 7 is divided into a first four-finger palm pin area and a second four-finger palm pin area along its length. The needle selection positions corresponding to the third knitting pin 107 in the first and second four-finger palm pin areas are the same as those corresponding to the third knitting pin 107 in the three-finger palm pin area 5 and the second knitting pin 105 in the little finger pin area 6, respectively. The needle selection positions corresponding to the fourth knitting pin 108 in the first and second four-finger palm pin areas are the same as those corresponding to the fourth knitting pin 108 in the three-finger palm pin area 5 and the first knitting pin 104 in the little finger pin area 6, respectively. The third pin 1071 and the first pin 1041 can be staggered along the axis of the roller 1. Pins 1081 and 1051 are staggered along the axis of roller 1. After the needle selection in the three-finger palm pin area 5 and the little finger pin area 6 is completed, if the three-finger palm pin area 5 ends with the third knitting pin 107, then the little finger pin area 6 ends with the second knitting pin 105, and the four-finger palm pin area 7 begins with the fourth knitting pin 108. Then the fourth knitting pin 108 and the third knitting pin 107 are used alternately for needle selection. If the three-finger palm pin area 5 ends with the fourth knitting pin 108, then the little finger pin area 6 ends with the first knitting pin 104, and the four-finger palm pin area 7 begins with the third knitting pin 107. Then the third knitting pin 107 and the fourth knitting pin 108 are used alternately for needle selection.
[0048] Similarly, the five-finger palm pin area 9 is divided into a first five-finger palm pin area and a second five-finger palm pin area along its length. The needle selection positions corresponding to the third knitting pin 107 in the first and second five-finger palm pin areas are the same as the needle selection positions corresponding to the third knitting pin 107 in the four-finger palm pin area 7 and the second knitting pin 105 in the thumb pin area 8, respectively. The needle selection positions corresponding to the fourth knitting pin 108 in the first and second five-finger palm pin areas are the same as the needle selection positions corresponding to the fourth knitting pin 108 in the four-finger palm pin area 7 and the first knitting pin 104 in the thumb pin area 8, respectively. This allows the third pin 1071 and the first pin 1041 to be staggered along the axial direction of the roller 1. The fourth pin 1081 and the second pin 1051 are staggered along the axis of the roller 1. After the needle selection in the four-finger palm pin area 7 and the thumb pin area 8 is completed, if the four-finger palm pin area 7 ends with the third knitting pin 107, then the thumb pin area 8 ends with the second knitting pin 105. The four-finger palm pin area 7 begins with the fourth knitting pin 108, and then the fourth knitting pin 108 and the third knitting pin 107 are used alternately for needle selection. If the four-finger palm pin area 7 ends with the fourth knitting pin 108, then the little finger pin area 6 ends with the first knitting pin 104, and the five-finger palm pin area 9 begins with the third knitting pin 107, and then the third knitting pin 107 and the fourth knitting pin 108 are used alternately for needle selection.
[0049] In this embodiment, the second knitting pin 105 in the ring finger pin area 2, middle finger pin area 3, and index finger pin area 4 serves as the starting and ending points for needle selection. The third finger palm pin area 5 uses the fourth knitting pin 108 as the starting and ending point for needle selection. The little finger pin area 6 uses the second knitting pin 105 as the starting point for needle selection and the first knitting pin 104 as the ending point for needle selection. The fourth finger palm pin area 7 uses the third knitting pin 107 as the starting and ending point for needle selection. The thumb pin area 8 uses the second knitting pin 105 as the starting and ending point for needle selection. The fifth finger palm pin area 9 uses the fourth knitting pin 108 as the starting point for needle selection. This ensures that the first pin 1041 (fourth pin 1081) and the second pin 1051 (third pin 1071) alternately select needles, ensuring that the entire finger and palm areas of the glove can be knitted with the same pattern, and that the pattern is arranged in the same order from the finger to the palm, thus ensuring the aesthetics of the glove.
[0050] Specifically, this utility model also discloses a glove-selecting machine, which includes a frame and a front needle-selecting roller 200 and a rear needle-selecting roller 300 symmetrically arranged on the frame in the front-to-back direction. The front needle-selecting roller 200 (e.g., Figure 1 and Figure 2 (as shown) and the rear selection needle roller 300 (as shown) Figure 5 (As shown) are all the needle selection rollers 1 mentioned above.
[0051] Specifically, such as Figures 1-6 As shown, the ring finger pin area 2 and the middle finger pin area 3 in the front needle selection roller 200 and the rear needle selection roller 300 both include the first transition pin 109, and the needle selection positions of each pin in the first transition pin 109 are the same as the needle selection positions of each pin in the second knitting pin 105. Therefore, when selecting needles and knitting in the ring finger pin area 2, the middle finger pin area 3, and the little finger pin area 6, the second knitting pin 105 is used as the starting point for needle selection, and the second knitting pin 105 is used as the ending point for needle selection. Then, needles are selected and knitted in the first transition pin 109 for one round (the front and rear first transition pins 109 knit the front and rear half rounds respectively).
[0052] The three-finger palm pin area 5 within the front needle selection roller 200 and the rear needle selection roller 300 includes a second transition pin 110 and a first palm sealing pin. The first palm sealing pin, the third knitting pin 107, the fourth knitting pin 108, and the second transition pin 110 are all arranged sequentially along the circumference of the rollers. The needle selection positions of each pin within the second transition pin 110 are the same as those within the fourth knitting pin 108. Therefore, after needle selection in the ring finger pin area 2, middle finger pin area 3, and index finger pin area 4, to ensure consistent pattern, after needle selection and knitting at the first transition pin 109, the roller jumps to the first palm sealing pin for sealing. After sealing, the needle then jumps to the fourth knitting pin within the three-finger palm pin area 5. Knitting pin 108 knits the remaining fixed number of rounds. That is, the first palm sealing pin works with the fourth knitting pin 108 to complete the needle selection knitting of the fixed number of rounds. Then, it works with the third knitting pin 107 to alternate needle selection at the fixed number of rounds. Finally, the needle selection ends at the fourth knitting pin 108. After the needles selected by the front and rear fourth knitting pins 108 knit one less fixed number of rounds, the second transition pin 110 inside the front needle selection roller 200 and the rear needle selection roller 300 work together to knit the last round (here the front and rear second transition pins 110 knit the front and rear half rounds respectively), ensuring that the fixed number of rounds and the pattern are consistent at the corresponding needle positions. Then, it corresponds to the little finger pin area 6 and knits the little finger with the corresponding needle selection.
[0053] Specifically, only the little finger pin area 6 within the front needle selection roller 200 includes the third transition pin 111. The needle positions corresponding to each pin within the third transition pin 111 are the same as those corresponding to each pin within the first knitting pin 104. The little finger pin area 6 within the front needle selection roller 200 and the rear needle selection roller 300 uses the second knitting pin 105 as the starting point for needle selection and the first knitting pin 104 as the ending point for needle selection. After the needles selected by the first knitting pin 104 within the front needle selection roller 200 and the rear needle selection roller 300 knit a fixed number of turns one turn less, the first knitting pin 104 within the rear needle selection roller 300 knits the last half turn, and the third transition pin 111 within the front needle selection roller 200 knits the last first half turn, thus completing the fixed number of turns.
[0054] Specifically, the four-finger palm pin area 7 in both the front needle selection roller 200 and the rear needle selection roller 300 includes a fourth transition pin 112 and a second palm pin area. The second palm sealing pin, the third knitting pin 107, the fourth knitting pin 108, and the fourth transition pin 111 are all arranged sequentially along the circumference of the roller. The needle positions corresponding to each pin in the fourth transition pin 112 are the same as those corresponding to each pin in the third knitting pin 107. Therefore, after the needle selection in the three-finger palm pin area 5 and the little finger pin area 6 is completed, in order to ensure a consistent pattern, after the needle selection and knitting at the third transition pin 111 is completed, the roller jumps to the second palm sealing pin for sealing. After sealing, then... After skipping the needle to the third knitting pin 107 in the palm pin area 7, knit the remaining fixed number of rounds. That is, the second palm sealing pin in the front and rear needle selection rollers 300 works with the third knitting pin 107 to complete the needle selection knitting of the fixed number of rounds. Then, it works with the fourth knitting pin 108 to alternately select needles in the fixed number of rounds. Finally, the needle selection ends at the third knitting pin 107. After the needles selected by the front and rear third knitting pins 107 work together to knit one less fixed number of rounds, the fourth transition pin 112 in the front needle selection roller 200 and the rear needle selection roller 300 work together to knit the last round (here the front and rear fourth transition pins 112 knit the front and rear half rounds respectively), to ensure that the fixed number of rounds and the pattern are consistent for the corresponding needle positions.
[0055] Specifically, the five-finger palm pin area 7 in both the front needle selection roller 200 and the rear needle selection roller 300 includes a third palm pin area. The third palm sealing pin, the third knitting pin 107, and the fourth knitting pin 108 are all arranged sequentially along the circumference of the roller. The needle positions corresponding to each pin in the fourth transition pin 112 are the same as those corresponding to each pin in the third knitting pin 107. Therefore, after the needle selection in the four-finger palm pin area 7 and the thumb pin area 8 is completed, in order to ensure that the pattern is consistent, after the needle selection and knitting in the fourth transition pin 112 is completed, the thumb pin area is knitted... After the knitting pin 105 is completed, the roller jumps to the third palm sealing pin to seal the opening. After the sealing is completed, the needle jumps to the fourth knitting pin 108 in the five-finger palm pin area 7 to knit the remaining fixed number of rounds. That is, the third palm sealing pin works with the fourth knitting pin 108 to complete the needle selection knitting of the fixed number of rounds. Then, it works with the third knitting pin 107 to alternate needle selection with the fixed number of rounds. Finally, the needle selection ends at the fourth knitting pin 108, and the fixed number of rounds is knitted to ensure that the fixed number of rounds and the pattern are consistent for the corresponding needle positions.
[0056] The above embodiments are merely preferred embodiments of this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-substantial changes and substitutions made by those skilled in the art based on this utility model shall fall within the scope of protection claimed by this utility model.
Claims
1. A selecting drum, characterized by, Includes a roller and a needle selection pin area disposed on the roller; The needle selection area includes the ring finger needle area, middle finger needle area, index finger needle area, three-finger palm needle area, little finger needle area, four-finger palm needle area, thumb needle area, five-finger palm needle area and screw pin area arranged sequentially along the circumference of the roller. The ring finger pin area, the middle finger pin area, the index finger pin area, the little finger pin area, and the thumb pin area each include fingertip sealing pins arranged sequentially along the circumference of the roller, a first group of braided pins woven according to the curvature of the fingertip, and a second group of braided pins woven normally in the part other than the fingertip. The second braided pin assembly includes a first braided pin and a second braided pin arranged sequentially along the circumference of the roller, and the two have the same length on the roller. The first braided pin includes a plurality of first pins spaced apart along the axial direction of the roller, and the second braided pin includes a plurality of second pins spaced apart along the axial direction of the roller, with the plurality of first pins and the plurality of second pins being staggered.
2. The selecting drum according to claim 1, characterized in that, The interval length between two adjacent first pins is the same as the interval length between two adjacent second pins, and the first pins and second pins are set at the same length on the roller.
3. The selecting drum according to claim 2, characterized in that, The three-finger palm pin area, the four-finger palm pin area, and the five-finger palm pin area all include three woven pin groups; The braided pin group three includes a third braided pin and a fourth braided pin, and the two are arranged at the same length on the roller; The third braided pin includes a plurality of third pins spaced apart along the axial direction of the roller, and the fourth braided pin includes a plurality of fourth pins spaced apart along the axial direction of the roller. The plurality of third pins and the plurality of fourth pins are staggered along the axial direction of the roller.
4. The selecting drum according to claim 3, characterized in that, The interval length between two adjacent third pins is the same as the interval length between two adjacent fourth pins, and the third pins and the fourth pins are set at the same length on the roller.
5. The selecting drum according to claim 4, characterized in that, The first pin and the third pin are arranged at the same length on the roller, and the interval between two adjacent first pins is the same as the interval between two adjacent third pins.
6. The selecting drum according to claim 5, characterized in that, The adjacent ends of the first and second pins correspond to the same needle selection position, and the adjacent ends of the third and fourth pins correspond to the same needle selection position.
7. The selecting drum according to claim 5, characterized in that, The three-finger palm pin area is divided into a first three-finger palm pin area, a second three-finger palm pin area, and a third three-finger palm pin area along its length. The needle selection positions corresponding to the third braided pins in the first three-finger palm pin area, the second three-finger palm pin area, and the third three-finger palm pin area are the same as the needle selection positions corresponding to the second braided pins in the ring finger pin area, the middle finger pin area, and the index finger pin area, respectively. The needle selection positions corresponding to the fourth braided pins in the first three-finger palm pin area, the second three-finger palm pin area, and the third three-finger palm pin area are the same as the needle selection positions corresponding to the first braided pins in the ring finger pin area, the middle finger pin area, and the index finger pin area, respectively. The four-finger palm pin area is divided into a first four-finger palm pin area and a second four-finger palm pin area along its length. The needle selection positions corresponding to the third braided pins in the first four-finger palm pin area and the second four-finger palm pin area are the same as the needle selection positions corresponding to the third braided pins in the three-finger palm pin area and the second braided pins in the little finger pin area. The needle selection positions corresponding to the fourth braided pins in the first four-finger palm pin area and the second four-finger palm pin area are the same as the needle selection positions corresponding to the fourth braided pins in the three-finger palm pin area and the first braided pins in the little finger pin area. The five-finger palm pin area is divided into a first five-finger palm pin area and a second five-finger palm pin area along its length. The needle selection positions corresponding to the third knitting pins in the first five-finger palm pin area and the second five-finger palm pin area are the same as the needle selection positions corresponding to the third knitting pins in the four-finger palm pin area and the second knitting pins in the thumb pin area. The needle selection positions corresponding to the fourth knitting pins in the first five-finger palm pin area and the second five-finger palm pin area are the same as the needle selection positions corresponding to the fourth knitting pins in the four-finger palm pin area and the first knitting pins in the thumb pin area.
8. A glove machine characterized by, It includes a frame and a front needle selection roller and a rear needle selection roller symmetrically arranged on the frame in a front-to-back direction, wherein both the front needle selection roller and the rear needle selection roller are needle selection rollers as described in any one of claims 1-7.