CN211595911U - Steel wire heavy hammer structure of loom - Google Patents

Abstract

The utility model discloses a steel wire weight structure of looms relates to spinning machine technical field, can appear cracked problem because of the impact force between weight and the harness wire when aiming at having solved lifting heald and returning heald. The technical scheme is characterized by comprising a lifting needle, a harness wire, a mesh plate, a steel heald and a heavy hammer, wherein the lifting needle is connected with the harness wire, one end of the harness wire, far away from the lifting needle, is connected with the steel heald, the mesh plate is positioned between the lifting needle and the steel heald, one end of the steel heald, far away from the lifting needle, is connected with the heavy hammer, and an anti-breaking component is arranged between the steel heald and the heavy hammer; the anti-breaking component comprises a steel ball, a rubber ring and a connecting wire, and the connecting wire is connected with one end of the steel heald far away from the harness cord. The weight is connected with the heald wire, and the lifting heald and the back heald wire lead the weight and the heald wire to be broken due to impact force, thus influencing the weaving of fabrics and further influencing the working efficiency.

Description

Steel wire heavy hammer structure of loom

Technical Field

The utility model belongs to the technical field of the spinning machine technique and specifically relates to a steel wire weight structure of looms.

Background

The leno loom is an ancient leno weave fabric loom, and because the leno fabric is formed by interweaving mutually unparallel warps and wefts after being twisted regularly, the biggest difference between the leno loom and other common looms is the shedding mechanism of the leno loom.

At present, the invention patent of chinese patent publication No. CN1560343A discloses a silk weaving machine for weaving brocade patterns and a weaving method thereof, wherein a jacquard opening part of a common silk weaving machine is provided with a press barrier mechanism in a brocade wooden machine, both ends of an upper frame of a barrier in the mechanism are hung on fixed springs, and conveyor belts connected to both ends of a lower frame of the barrier are connected with vertical hooks in a heald lifting mechanism through supporting wheels and steering wheels. The silk weaving machine is used for weaving the brocade, and the method comprises the steps of adopting a double-weaving four-bundle hoisting process in the weaving machine and a barrier pressing process in a brocade wood machine to manufacture a pattern plate, installing warp threads, a mesh penetrating plate, hooks, connecting, installing a barrier pressing mechanism, penetrating the warp threads, installing a shuttle and starting up for weaving.

The silk weaving machine has the defects that the heavy hammer is connected with the heald wire, and the heavy hammer and the heald wire are broken due to impact force when the heavy hammer and the heald wire are lifted and returned, so that the weaving of the fabric is influenced, and further the working efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a steel wire weight structure of leno loom, it has the extension steel heald and the cracked phenomenon appears with the connecting wire, and then has prolonged the life of connecting wire, does not influence the weaving effect of fabric, guarantees leno loom's production efficiency.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme: a steel wire heavy hammer structure of a looms comprises a lifting needle, a harness wire, a mesh plate, a steel heald and a heavy hammer, wherein the lifting needle is connected with the harness wire, one end of the harness wire, far away from the lifting needle, is connected with the steel heald; the anti-breaking assembly comprises a steel ball positioned in the heavy hammer, a layer of buffer ring wrapped outside the steel ball and a connecting wire connected with the inside of the buffer ring, and the connecting wire is connected with one end, far away from the harness cord, of the steel heald.

By adopting the technical scheme, when the needle lifts the heald, the needle lifts the harness cord, so that the warp threads of the steel heald penetrating through the heald eye are driven to lift simultaneously to form the upper layer of the shed; the harness board is used for separating the harness wires, so that the stability of the harness wires during harness lifting or harness returning is guaranteed, and the harness wires are prevented from being wound to influence the weaving work; the steel heald is used for separating each warp, so that the warps are distinguished more orderly, the upper and lower warps form sheds during heald lifting, and the weaving quality of the fabric is improved; through the setting of steel ball, buffering circle and connecting wire, when the lifting heald, the steel ball has the effort of upward movement, and the steel ball has certain time when the upward movement to weaken the ascending impact force of steel ball, buffering circle has certain resilience simultaneously, further weakens the impact force between the connecting wire, and the cracked phenomenon appears with the connecting wire in the extension steel heald, and then has prolonged the life of connecting wire, does not influence the weaving effect of fabric, guarantees the production effect of leno loom.

The utility model discloses further set up to: and a compression spring is arranged between the steel ball and the heavy hammer.

By adopting the technical scheme, when the lifting needle is lifted, the harness cord drives the steel heald to move upwards so as to drive the steel ball to move upwards and reach a certain critical point, the steel ball pulls the compression spring to move upwards, and meanwhile, the compression spring has a buffering effect, so that the acting force of the steel ball on the weight wall is relieved, and the damage of the steel ball on the weight wall is reduced. When the lifting needle moves downwards, the heavy hammer moves downwards in the vertical direction under the action of gravity, the compression spring is used for limiting the steel ball to avoid jumping up and down, meanwhile, the impact force of the connecting wire in the downward direction is relieved, and the problem that the connecting wire is broken due to the impact force is avoided; when the weight reaches the lowest point, the steel ball is abutted to the upper end of the wall of the weight, and meanwhile, the compression spring pulls the steel ball, so that friction between the steel ball and the wall of the weight is avoided, heat energy is generated, the steel ball and the weight are abraded, and the service life of the steel ball and the weight is influenced.

The utility model discloses further set up to: the harness cord and the connecting wire are made of nylon materials.

Through adopting above-mentioned technical scheme, the nylon materials have higher tensile, compressive strength, toughness height, and mechanical strength is high, and nylon has outstanding fatigue resistance simultaneously, still can keep original mechanical strength through long-time repeated inflection to guarantee the stability of being connected between steel heald and the weight.

The utility model discloses further set up to: wear-resistant carbon black is coated on the surfaces of the harness cords and the connecting wires.

By adopting the technical scheme, the connecting line is used for connecting the heavy hammer to the steel heald, and the surface of the connecting line is coated with a layer of wear-resistant carbon black, so that the wear resistance of the connecting line is improved, and the service life of the connecting line is prolonged; the coating of skid resistant course for can not twine together between connecting wire and the connecting wire, thereby avoid appearing the phenomenon of knoing between the connecting wire, avoid influencing weaving between the line, also prolong the life of connecting wire simultaneously.

The utility model discloses further set up to: the weight is made of SUS304 stainless steel material.

By adopting the technical scheme, the SUS304 stainless steel material has good corrosion resistance and mechanical property; as the SUS304 stainless steel material has excellent corrosion resistance, the heavy hammer keeps a complete state under any environment, and the whole weaving process is improved to be in a stable state.

The utility model discloses further set up to: a plurality of through holes arranged in an array are formed in the ocular plate, and the steel harness cord penetrates through the through holes and moves up and down along the through holes.

By adopting the technical scheme, the harness wires penetrate through the through holes, when the heald is lifted, the harness wires slide up and down along the through holes, and the lifting needles move up and down, so that the stability of the steel heald in the up-and-down moving direction is improved; meanwhile, the harness board has the function of separating the harness wires, the winding phenomenon among the harness wires is prevented, and the stability of harness lifting or harness returning is ensured.

The utility model discloses further set up to: and a rubber ring is arranged in the hole wall of the through hole.

Through adopting above-mentioned technical scheme, the rubber circle is used for reducing the harness cord and the friction between the pore wall of through hole to the surface of protection harness cord prolongs the life of steel heald.

The utility model discloses further set up to: the diameter of the heavy hammer is larger than that of the through hole.

Through adopting above-mentioned technical scheme, when the diameter of through hole is greater than the diameter of weight, when carrying out the lifting heald to certain needle, inertia appears at the lifting heald in-process to the weight for the weight removes along the pore wall orientation of through hole, makes the weight break away from in the through hole, and then makes and appear the confusion between the connecting wire, influences warp's weaving.

To sum up, the utility model discloses a beneficial technological effect does:

1. through the arrangement of the steel balls, the buffer rings, the connecting wires and the compression springs, the phenomenon that the steel healds and the connecting wires are broken is prolonged, the service life of the connecting wires is further prolonged, the weaving effect of fabrics is not influenced, and the production efficiency of the leno weaving machine is ensured;

2. through the arrangement of the mesh plate, the through hole and the rubber ring, the harness cords are separated, the service life of the harness cords is prolonged, and the stability of the weaving effect of the looms is guaranteed.

Drawings

Fig. 1 is a schematic view of the overall structure shown in the embodiment of the present invention;

FIG. 2 is a schematic structural view of a harness cord and harness board according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a break prevention assembly shown in an embodiment of the present invention;

fig. 4 is an enlarged schematic structural diagram of a in fig. 1 according to an embodiment of the present invention.

In the figure, 1, a flower cylinder; 2. transverse needle; 3. lifting a knife; 4. lifting the needle; 5. a base plate; 6. harness threading; 7. a mesh plate; 9. a weight; 10. a through hole; 11. a rubber ring; 13. a connecting wire; 14. a steel ball; 15. a buffer ring; 16. a placement groove; 17. a compression spring; 18. a heddle eye; 19. prevent disconnected subassembly.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Examples

Referring to fig. 1 and 4, a steel wire weight structure of a looms comprises a cylinder 1, a horizontal needle 2, a lifting knife 3, a lifting needle 4, a bottom plate 5, a harness cord 6, a mesh plate 7, a steel heald 8 and a weight 9; one end of the lifting needle 4 is hooked on the lifting knife 3, the lifting needle 4 is vertically arranged, and a plurality of lifting needles 4 are arranged; the transverse needles 2 are horizontally arranged, the transverse needles 2 are perpendicular to the lifting needles 4, each transverse needle 2 corresponds to one lifting needle 4, one end of each transverse needle 2 penetrates through the tube of flowers 1, and the tube of flowers 1 is used for placing the pattern plates, so that fabrics with different tissues are woven; the other end of the lifting needle 4 penetrates through the bottom plate 5 and is hung with a first thread, and one end of the first thread far away from the lifting needle 4 is connected with the harness cord 6. The lower end of the bottom plate 5 is provided with an eyelet plate 7, a plurality of through holes 10 which are arranged in an array are formed in the eyelet plate 7, rubber rings 11 are wrapped in the hole walls of the through holes 10, the rubber rings 11 are used for protecting the eyelet plate 7, meanwhile, the friction force between the harness cords 20 and the hole walls of the through holes 10 is reduced, and the service life of the harness cords 20 is prolonged; the harness wire 6 penetrates through the through hole 10, the steel heald 8 is hung at one end of the harness wire 6 penetrating through the through hole 10, the steel heald is vertically arranged, a heald eye 18 is arranged in the middle of the steel heald, and the heald eye 18 is used for penetrating warp threads.

Referring to fig. 2 and 3, a weight 9 is suspended at one end of the steel heald away from the harness 6, the weight 9 is made of SUS304 stainless steel material with better corrosion resistance and wear resistance, and an anti-breaking assembly 19 is arranged between the steel heald and the weight 9; the breakage-proof assembly 19 comprises a steel ball 14, a buffer ring 15 and a connecting wire 13; a placing groove 16 is formed in the inner part of one end, close to the steel heald 8, of the heavy hammer 9, the steel ball 14 is located in the placing groove 16, the buffer ring 15 is coated on the outer side of the steel ball 14, one end of the connecting wire 13 is connected with the buffer ring 15, and the other end of the connecting wire 13 is hung on the steel heald 8, so that the heavy hammer 9 is hung on the steel heald 8; a compression spring 17 is connected between one end of the steel ball 14 far away from the connecting line 13 and the placing groove 16, and the compression spring 17 is used for buffering the impact force generated by the steel ball 14 when the heald is lifted or heald is returned to impact the wall of the placing groove 16. The harness cord 6 and the connecting wire 13 are preferably made of nylon materials, and the surfaces of the harness cord 6 and the connecting wire 13 are coated with a layer of wear-resistant carbon black, so that the service lives of the harness cord 6 and the connecting wire 13 are prolonged.

Referring to fig. 1, the diameter of the through hole 10 is smaller than that of the weight 9, so as to prevent the weight 9 from passing through the through hole 10 when lifting or rewinding healds, and further to cause confusion between the connecting wires 13 and influence on lifting or rewinding warps.

The brief introduction of the working process and the working principle is as follows:

starting a power supply, pressing the cylinder 1 towards the transverse needle 2 once, enabling the hook end of the lifting needle 4 to be still hung on the lifting knife 3 when the head end of the transverse needle 2 extends into the eyelet of the card when the card is provided with the eyelet, enabling the lifting needle 4 to rise along with the lifting knife 3 when the lifting knife 3 rises, and forming the upper layer of the shed by driving the steel heald to lift, so that the weft passes through the shed and weaves the fabric; when no hole is formed in the card, the head end of the transverse needle 2 cannot enter the hole of the card, and the transverse needle pushes the lifting needle 4 to leave the lifting knife 3, so that heald lifting cannot be performed.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. A steel wire heavy hammer structure of a looms comprises a lifting needle (4), a harness (6), a mesh plate (7), a steel heald and a heavy hammer (9), wherein the lifting needle (4) is connected with the harness (6), one end of the harness (6) far away from the lifting needle (4) is connected with the steel heald, the mesh plate (7) is positioned between the lifting needle (4) and the steel heald,

the method is characterized in that: one end of the steel heald, which is far away from the lifting needle (4), is connected with a heavy hammer (9), and a breakage-proof component (19) is arranged between the steel heald and the heavy hammer (9); prevent disconnected subassembly (19) including being located inside steel ball (14) of weight (9), steel ball (14) outer parcel one deck cushion collar (15) and with cushion collar (15) internal connection's connecting wire (13), connecting wire (13) with the steel heald is kept away from the one end of harness (6) and is connected.

2. The steel wire weight structure of a looms machine of claim 1, wherein: and a compression spring (17) is arranged between the steel ball (14) and the heavy hammer (9).

3. The steel wire weight structure of a looms machine of claim 1, wherein: the harness cord (6) and the connecting wire (13) are both made of nylon materials.

4. The steel wire weight structure of a looms machine of claim 3, wherein: wear-resistant carbon black is coated on the surfaces of the harness cords (6) and the connecting wires (13).

5. The steel wire weight structure of a looms machine of claim 1, wherein: the weight (9) is made of SUS304 stainless steel material.

6. The steel wire weight structure of a looms machine of claim 1, wherein: a plurality of through holes (10) arranged in an array are formed in the ocular plate (7), and the harness cord (6) penetrates through the through holes (10) and moves up and down along the through holes (10).

7. The wire weight structure of a looms according to claim 6, characterized in that: and a rubber ring (11) is arranged in the hole wall of the through hole (10).

8. The wire weight structure of a looms according to claim 6, characterized in that: the diameter of the heavy hammer (9) is larger than that of the through hole (10).

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