CN108691084B - Triangle bottom plate of three-system flat knitting machine - Google Patents

Abstract

The utility model provides a three system horizontal braiding machine triangle bottom plate set up tight mesh triangle and tight mesh drive mechanism on the triangle bottom plate, tight mesh drive mechanism includes tight mesh pull rod, tight mesh pull rod seat, tight mesh triangle guide block and tight mesh guide block baffle, be fixed with tight mesh triangle guide block, tight mesh guide block baffle on tight mesh triangle in proper order, six tight mesh triangle guide blocks are in the three group splayed spouts of triangle bottom plate with two as a set of setting respectively, tight mesh pull rod seat is fixed on the triangle bottom plate, tight mesh pull rod and tight mesh pull rod seat cooperation are connected, the bearing on the tight mesh guide block baffle sets up in the spout of tight mesh pull rod, tight mesh pull fork joint is on the bearing of tight mesh pull rod, link to each other with the output shaft of motor. Compared with the existing tight mesh transmission mechanism, the tight mesh transmission mechanism of the triangular bottom plate of the three-system flat knitting machine is simpler and more reasonable in structure, low in transmission energy consumption and higher in rotation precision.

Description

Triangle bottom plate of three-system flat knitting machine

Technical Field

The invention relates to the technical field of flat knitting machines, in particular to a triangular bottom plate of a three-system flat knitting machine.

Background

In the current production and life, the computer flat knitting machine is increasingly widely used, and people widely use the computer flat knitting machine according to the full-automatic production capacity. However, the computer flat knitting machine is often provided with a triangular bottom plate, the working efficiency of the triangular bottom plate is high and low, the service life is long, the probability of faults in use is high, the working efficiency of the computer flat knitting machine is often directly influenced, the use of a user is influenced, and the production efficiency is reduced.

Disclosure of Invention

The invention provides the triangular bottom plate of the three-system flat knitting machine, which has the advantages of simpler structure, more convenient use, more reasonable structure, longer service life, higher efficiency, energy conservation and emission reduction.

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

the three-system horizontal braiding machine triangular bottom plate is provided with a tight hanging mesh triangle and a tight hanging mesh transmission mechanism, the tight hanging mesh transmission mechanism comprises a tight hanging mesh pull rod, a tight hanging mesh shifting fork, a tight hanging mesh pull rod seat, a tight hanging mesh triangle guide block and a tight hanging mesh guide block baffle, the tight hanging mesh triangle guide block and the tight hanging mesh guide block baffle are sequentially fixed on the tight hanging mesh triangle, the six tight hanging mesh triangle guide blocks are respectively arranged in three groups of splayed sliding grooves of the triangular bottom plate in a way of two, the tight hanging mesh pull rod seat is fixed on the triangular bottom plate, the tight hanging mesh pull rod is connected with the tight hanging mesh pull rod seat in a matched manner, a bearing on the tight hanging mesh guide block baffle is arranged in the sliding groove of the tight hanging mesh pull rod, and the tight hanging mesh shifting fork is clamped on the bearing of the tight hanging mesh pull rod and is connected with an output shaft of a motor.

Further, the triangle bottom plate comprises a triangle support plate and a needle selecting support plate,

three upper butt control components are arranged on the upper side of the triangular support plate, the adjacent parts among the upper butt control components are connected by needle protection cams, and two sides of the upper butt control components are also connected with one needle protection cam respectively;

three lower butt control components are arranged at the lower side of the triangular support plate and at the corresponding position of the upper butt control components, the adjacent parts among the lower butt control components are connected by needle clearing cams, and two sides of the lower butt control components are respectively connected with a needle clearing cam;

a needle return cam is respectively arranged at the middle position of the two sides of the cam support plate and between the lower butt control components;

four needle selecting and protecting cams are arranged above the needle selecting support plate, four needle selecting and lifting cams are arranged below the needle selecting support plate and correspond to the needle selecting and protecting cams, and reset cams are arranged at the joints of the adjacent needle selecting and lifting cams; three push needle components are arranged in the middle of the needle selecting support plate.

Further, the upper butt control assembly comprises a loop transferring cam, a bridge cam arranged above the loop transferring cam, and tightening stitch cams arranged on two sides of the loop transferring cam, wherein the needle protecting cam is connected to the tightening stitch cam guide block;

the lower butt control assembly comprises a butterfly mountain triangle, a knitting triangle arranged above the butterfly mountain triangle and density triangles arranged at two sides of the butterfly mountain triangle;

the push pin assembly is provided with two push pin cams which are oppositely arranged.

Further, still be equipped with the clamp plate subassembly between triangle extension board and needle selection extension board, the clamp plate subassembly includes fixed clamp plate, sets up the eye clamp plate and sets up the needle clamp plate that connects in the eye clamp plate both sides of hanging above fixed clamp plate.

Further, the width of the triangle bottom plate is 400-430mm, and the distance between the centers of the two knitting triangles is 116-126mm.

Further, the triangular bottom plate is provided with a control chute on the tension rod for controlling the tension triangle to move along the splayed groove, so as to realize tension control.

Further, the tension eye pull rod of the triangular bottom plate is fixed on the tension eye pull rod seat through bolts.

Further, a tight hanging mesh motor of the triangular bottom plate is arranged on the aluminum box, and a tight hanging mesh pull rod is driven by a tight hanging mesh shifting fork to realize tight hanging mesh control.

1. In the invention, the width of the triangular bottom plate of the three-system flat knitting machine is 400-430mm, which is reduced by 60-120mm compared with the width of the triangular bottom plate of the existing three-system flat knitting machine, steel is saved in the manufacturing process, the processing time is saved, and the effects of energy conservation and emission reduction are achieved.

2. In the invention, the space between the systems of the triangular bottom plates of the three-system flat knitting machine is 116-126mm, which is reduced by 5-30mm compared with the space between the systems of the triangular bottom plates of the existing three-system flat knitting machine, and the working efficiency of the machine is higher under the condition of equal speed and equal energy consumption.

3. Compared with the existing tight hanging mesh transmission mechanism, the tight hanging mesh transmission mechanism of the triangular bottom plate of the three-system flat knitting machine is simpler and more reasonable in structure, low in transmission energy consumption and higher in rotation precision.

Drawings

Fig. 1 is a schematic view of the structure of a cam plate of a three-system flat knitting machine according to the present invention.

Fig. 2 is a schematic view of the back structure of the cam plate of the three-system flat knitting machine according to the present invention.

Fig. 3 is a schematic view of a tight hanging mesh transmission mechanism of a triangle bottom plate of the three-system flat knitting machine.

Fig. 4 is a schematic view of a tight stitch cam assembly of a cam base plate of a three-system flat knitting machine according to the invention.

Fig. 5 is a schematic view of the tight hanging mesh, tight knitting and loose knitting track of the triangle bottom plate of the three-system flat knitting machine.

Description of the reference numerals: a cam support plate 1, a left needle guard cam 3, a left tight stitch cam 4, a bridge cam 5, a transfer cam 6, a right tight stitch cam 7, a middle needle guard cam 8, a right needle guard cam 9, a left needle return cam 10, a left needle clearing cam 11, a left density cam 12, a knitting cam 13, a butterfly cam 14, a needle contact pressure plate 15, a stitch pressure plate 16, a fixed pressure plate 17, a left needle selecting cam 18, a middle needle selecting cam 19, a right needle selecting cam 20, a right needle clearing cam 21, a right needle return cam 22, a reset cam 23, a left needle selecting cam 24, a right push cam 25, a left push cam 26, a middle needle lifting cam 27, a right density cam 27, a middle needle return cam 29, a right needle selecting cam 30, a middle needle clearing cam 31, the needle lifting motor 59, the needle lifting pull rod seat 60, the needle lifting control rod 61, the needle lifting pull rod bearing 62, the needle lifting guide block baffle 63, the needle lifting guide block 64, the needle jack 66, the needle jack lower butt 67 and the needle jack upper butt 68.

Description of the embodiments

In order to make the technical problems, technical schemes and beneficial effects solved by the invention more clear, the invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Examples

As shown in fig. 2-5, a triangular bottom plate of a three-system horizontal braiding machine is provided with a tight hanging mesh triangle 4 and a tight hanging mesh transmission mechanism, the tight hanging mesh transmission mechanism comprises a tight hanging mesh pull rod 61, a tight hanging mesh shifting fork 63, a tight hanging mesh pull rod seat 60, a tight hanging mesh triangle guide block 65 and a tight hanging mesh guide block baffle 64, the tight hanging mesh triangle is sequentially fixed with a tight hanging mesh triangle guide block and a tight hanging mesh guide block baffle, six tight hanging mesh triangle guide blocks are respectively arranged in two groups of splayed sliding grooves of the triangular bottom plate in a group of two, the tight hanging mesh pull rod seat is fixed on the triangular bottom plate, the tight hanging mesh pull rod is connected with the tight hanging mesh pull rod seat in a matched manner, a bearing on the tight hanging mesh guide block baffle is arranged in the sliding groove of the tight hanging mesh pull rod, and the tight hanging mesh shifting fork is clamped on the bearing of the tight hanging mesh pull rod and is connected with an output shaft of a motor.

Preferably, in the embodiment of the invention, a control chute is formed on the tension rod 61 of the tension rod for controlling the movement of the tension triangle along the splayed groove. The control chute guides the bearing on the tight hanging mesh guide block baffle 64, the bearing on the tight hanging mesh guide block baffle 64 slides left and right in the control chute to drive the tight hanging mesh triangle guide block 65 to slide in the splayed chute, so that the sliding of the tight hanging mesh triangle 4 is controlled.

The tightening eye pull rod 61 of the three-system triangle bottom plate is fixed on the tightening eye pull rod seat 60 through bolts. The tension rod seat 60 supports the tension rod 61 to move left and right, and controls the stability of the tension rod 61. The tight hanging mesh motor of the three-system triangle bottom plate is arranged on the aluminum box, and the tight hanging mesh pulling rod is driven by the tight hanging mesh pulling fork to realize the tight hanging mesh control. The output shaft of the tight hanging mesh motor 59 is connected with the tight hanging mesh shifting fork 63, the tight hanging mesh shifting fork 63 rotates along with the output shaft, and the bearing on the tight hanging mesh pull rod 61 is connected with the tight hanging mesh shifting fork 63, so that the tight hanging mesh pull rod 61 is driven to move left and right. The bearing on the tight hanging mesh guide block baffle 64 slides left and right in the control chute of the tight hanging mesh pull rod 61 to drive the tight hanging mesh triangle guide block 65 to slide in the splayed chute, thereby controlling the sliding of the tight hanging mesh triangle 4.

The three-system triangle bottom plate can realize two stitch methods of knitting bulk density and tightness of a single system. The needle jack 66 can move along the tight hanging mesh track, the tight knitting track and the loose knitting track, and the design of the needle jack enables the knitting capacity of the three-system flat knitting machine to be more powerful, and more complex flower patterns can be knitted.

Examples

As shown in fig. 1, the triangular bottom plate comprises a triangular support plate and a needle selecting support plate.

Three upper butt control components are arranged on the upper side of the triangular support plate, the adjacent parts among the upper butt control components are connected by needle protection cams, and two sides of the upper butt control components are also connected with one needle protection cam respectively; three lower butt control components are arranged at the lower side of the triangular support plate and at the corresponding position of the upper butt control components, the adjacent parts among the lower butt control components are connected by needle clearing cams, and two sides of the lower butt control components are respectively connected with a needle clearing cam; and a needle return cam is respectively arranged at the middle position of the two sides of the cam support plate and between the lower butt control components.

The upper butt control assembly comprises a loop transferring cam, a bridge cam arranged above the loop transferring cam, and tight hanging stitch cams arranged at two sides of the loop transferring cam, and the needle protecting cam is connected to a tight hanging stitch cam guide block; the lower butt control assembly comprises a butterfly cam, a knitting cam arranged above the butterfly cam and density cams arranged on two sides of the butterfly cam.

Four needle selecting and protecting cams are arranged above the needle selecting support plate, four needle selecting and lifting cams are arranged below the needle selecting support plate and correspond to the needle selecting and protecting cams, and reset cams are arranged at the joints of the adjacent needle selecting and lifting cams; three push needle components are arranged in the middle of the needle selecting support plate. The push pin assembly is provided with two push pin triangles which are oppositely arranged.

Still be equipped with the clamp plate subassembly between triangle extension board and selecting needle extension board, the clamp plate subassembly includes fixed clamp plate, sets up the eye clamp plate and the needle clamp plate that connects of setting in the eye clamp plate both sides in the fixed clamp plate top.

The cam base plate comprises a cam support plate 1 and a needle selecting support plate 2, wherein the upper part of the cam support plate 1 is provided with a right upper needle guard cam 3, a right stitch cam 4, a bridge cam 5, a left stitch cam 7, a middle upper needle guard cam 8, a right stitch cam 9, a bridge cam 10, a left stitch cam 12, a middle upper needle guard cam 13, a right stitch cam 14, a bridge cam 15, a left stitch cam 17 and a left upper needle guard cam 18 in sequence from left to right, a transfer cam 6 is arranged below the bridge cam 5, a transfer cam 11 is arranged below the bridge cam 10, and a transfer cam 16 is arranged below the bridge cam 15; the middle part of the triangular support plate 1 is provided with a right needle return triangle 19, a right density triangle 20, a knitting triangle 21, a left density triangle 22, a middle needle return triangle 23, a right density triangle 24, a knitting triangle 25, a left density triangle 26, a middle needle return triangle 27, a right density triangle 28, a knitting triangle 29, a left density triangle 30 and a left needle return triangle 31 in sequence from left to right; the lower part of the triangular support plate 1 is provided with a right needle clearing triangle 32, a butterfly mountain triangle one 33, a middle needle clearing triangle one 34, a butterfly mountain triangle two 35, a middle needle clearing triangle two 36, a butterfly mountain triangle three 37 and a left needle clearing triangle 38 in sequence from left to right;

the upper part of the needle selecting support plate 2 is provided with a first fixed pressing plate 39, a second fixed pressing plate 40 and a third fixed pressing plate 41 in sequence from left to right, a first right needle selecting and protecting triangle 42, a second middle needle selecting and protecting triangle 43, a second middle needle selecting and protecting triangle 44 and a second left needle selecting and protecting triangle 45 in sequence from left to right under the first fixed pressing plate 39, a first right push needle triangle 46, a first left push needle triangle 47, a second right push needle triangle 48, a second left push needle triangle 49, a third right push needle triangle 50 and a third left push needle triangle 51 in sequence from left to right under the first right push needle triangle 46, a first middle needle selecting and lifting triangle 53, a second middle needle selecting and lifting triangle 54 and a second left needle selecting and lifting triangle 55 in sequence from left to right under the first right selecting and lifting triangle 52 in sequence from left to right under the second selecting and protecting triangle 42 is provided with a first reset triangle 56, a second reset triangle 57 and a third reset triangle 58 in sequence. The triangle base plate has a width of 400-430mm, preferably 427mm. Compared with the existing three-system triangular bottom plate, the width of the design is reduced by 60-120mm, steel is saved in the manufacturing process, processing time is saved, and the effects of energy conservation and emission reduction are achieved.

The center distance of knitting cams of the three-system cam base plate is 116-126mm, preferably 126mm, the design is reduced by 6mm compared with 132mm of each system distance of the three-system cam base plate with the minimum existing distance, the total is reduced by 18mm, and the knitting efficiency of the machine is higher under the condition of equal speed knitting and energy consumption.

While the invention has been described in detail in connection with specific and preferred embodiments, it will be understood by those skilled in the art that the invention is not limited to the foregoing embodiments, but is intended to cover modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (7)

1. Triangle bottom plate of three-system flat knitting machine set up tight hanging mesh triangle and tight hanging mesh drive mechanism on the triangle bottom plate, its characterized in that: the tight hanging mesh transmission mechanism comprises a tight hanging mesh pull rod, a tight hanging mesh shifting fork, a tight hanging mesh pull rod seat, a tight hanging mesh triangular guide block and a tight hanging mesh guide block baffle, wherein the tight hanging mesh triangular guide block and the tight hanging mesh guide block baffle are sequentially fixed on the tight hanging mesh triangular guide block, the six tight hanging mesh triangular guide blocks are respectively arranged in three groups of splayed sliding grooves of a triangular bottom plate in a group of two, the tight hanging mesh pull rod seat is fixed on the triangular bottom plate, the tight hanging mesh pull rod is connected with the tight hanging mesh pull rod seat in a matched manner, a bearing on the tight hanging mesh guide block baffle is arranged in the sliding groove of the tight hanging mesh pull rod, and the tight hanging mesh shifting fork is clamped on the bearing of the tight hanging mesh pull rod and is connected with an output shaft of a motor;

three upper butt control components are arranged on the upper side of the triangular support plate, the adjacent parts among the upper butt control components are connected by needle protection cams, two sides of the upper butt control components are also connected with one needle protection cam respectively, each upper butt control component comprises a loop transferring cam, a bridge cam arranged above the loop transferring cam, and tight hanging mesh cams arranged on two sides of the loop transferring cam, and the needle protection cams are connected to the tight hanging mesh cam guide blocks;

three lower butt control components are arranged at the lower side of the cam support plate and at the positions corresponding to the upper butt control components, and each lower butt control component comprises a butterfly cam, a knitting cam arranged above the butterfly cam and density cams arranged at two sides of the butterfly cam;

three push pin assemblies are arranged in the middle of the needle selecting support plate, and the push pin assemblies are two push pin triangles which are oppositely arranged;

the distance between the centers of the two knitting cams is 116-126mm.

2. The triangle base plate of claim 1, wherein: the triangular bottom plate comprises a triangular support plate and a needle selecting support plate,

the adjacent parts of the lower butt control components are connected by needle clearing cams, and two sides of the lower butt control components are also connected with a needle clearing cam respectively;

a needle return cam is respectively arranged at the middle position of the two sides of the cam support plate and between the lower butt control components;

four needle selecting and protecting cams are arranged above the needle selecting support plate, four needle selecting and lifting cams are arranged below the needle selecting support plate and correspond to the needle selecting and protecting cams, and reset cams are arranged at the joints of the adjacent needle selecting and lifting cams.

3. The triangle base plate of claim 1, wherein: still be equipped with the clamp plate subassembly between triangle extension board and needle selection extension board, the clamp plate subassembly includes fixed clamp plate, sets up the eye clamp plate and the needle connecting clamp plate of setting in the both sides of eye clamp plate in the eye clamp plate of hanging above fixed clamp plate.

4. The triangle base plate of claim 1, wherein: the width of the triangular bottom plate is 400-430mm.

5. The triangle base plate of claim 1, wherein: the triangular bottom plate is provided with a control chute on the tension rod for controlling the tension triangle to move along the splayed groove so as to realize tension control.

6. The triangle base plate of claim 1, wherein: the tight hanging mesh pull rod of the triangular bottom plate is fixed on the tight hanging mesh pull rod seat through a bolt.

7. The triangle base plate of claim 1, wherein: the tight hanging mesh motor of the triangular bottom plate is arranged on the aluminum box, and the tight hanging mesh pulling rod is driven by the tight hanging mesh pulling fork to realize the tight hanging mesh control.

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