阅读说明：本技术 一种适配线缆绝缘层双色共挤设备的配色料挤出机构 (Color matching material extruding mechanism of adaptive cable insulation layer double-color co-extrusion equipment ) 是由 吉广江 于 2021-01-11 设计创作，主要内容包括：本发明涉及线缆加工技术领域,更具体的说是一种适配线缆绝缘层双色共挤设备的配色料挤出机构,解决了现有的挤出设备只能将同种颜色的配色料进行挤出,调制其他颜色的配色料会产生颜色的相似,造成线路区分的模糊的问题,本发明包括箱体；箱体上铰接有两组入料门,箱体内设置有搅拌装置,搅拌装置的下端设置有落料装置,落料装置与挤出装置相连通,箱体内还设置有集线轮,集线轮与夹线装置通过螺纹连接；通过设置有搅拌装置,搅拌装置能够将配色料箱中的配色料进行搅拌,防止配色料干涸,落料装置能够将配色料落出到配色料箱中,配色料不会由于重力作用造成堵塞,然后再通过挤出装置使之上色,上色后的线缆通过集线轮进行收集。(The invention relates to the technical field of cable processing, in particular to a color matching material extruding mechanism of double-color co-extrusion equipment adaptive to a cable insulating layer, which solves the problems that the existing extruding equipment can only extrude color matching materials with the same color, and color similarity is generated when other color matching materials are modulated, so that line distinguishing is fuzzy; two groups of feeding doors are hinged on the box body, a stirring device is arranged in the box body, a blanking device is arranged at the lower end of the stirring device and communicated with the extruding device, a wire collecting wheel is also arranged in the box body, and the wire collecting wheel is connected with the wire clamping device through threads; through being provided with agitating unit, agitating unit can stir the color matching material in the color matching box, and it is dry to prevent that the color matching material from doing, and doffer can fall out the color matching material to the color matching workbin, and the color matching material can not cause the jam because of the action of gravity, then rethread extrusion device makes it color, and the cable after coloring is collected through the line concentration wheel.)

1. A color matching material extruding mechanism adaptive to cable insulating layer double-color co-extrusion equipment comprises a box body (1), a feeding door (2), a stirring device (3), a blanking device (4), an extruding device (5), a line concentration wheel (6) and a line clamping device (7); the method is characterized in that: the improved wire collecting box is characterized in that two sets of feeding doors (2) are hinged to the box body (1), a stirring device (3) is arranged in the box body (1), a blanking device (4) is arranged at the lower end of the stirring device (3), the blanking device (4) is communicated with an extruding device (5), a wire collecting wheel (6) is further arranged in the box body (1), a wire passing groove is machined in the wire collecting wheel (6), and the wire collecting wheel (6) is connected with a wire clamping device (7) through threads.

2. The color matching material extruding mechanism of the double-color co-extrusion equipment with the adaptive cable insulation layer, according to claim 1, is characterized in that: the stirring device (3) comprises a transmission motor (3-1), a first speed change shaft (3-2), a first speed change wheel (3-3), a second speed change wheel (3-4), a second speed change shaft (3-5), a third speed change wheel (3-6), a fourth speed change wheel (3-7), a third speed change shaft (3-8), a fifth speed change wheel (3-9), a fourth speed change shaft (3-10), a sixth speed change wheel (3-11), a seventh speed change wheel (3-12), an eighth speed change wheel (3-13), a ninth speed change wheel (3-14), a fifth speed change shaft (3-15), a first speed change belt wheel (3-16), a second speed change belt wheel (3-17), a speed change connecting belt (3-18), a first stirring transmission worm (3-19), The device comprises a first stirring turbine (3-20), a second stirring transmission worm (3-21), a second stirring turbine (3-22), a stirring shaft (3-23), a batching box (3-24), a stirring connecting rod (3-25), a stirring screw rod (3-26), a blanking door (3-27) and a discharging pipe (3-28); the transmission motor (3-1) is connected with a first speed changing shaft (3-2) through a coupler, a first speed changing wheel (3-3) is arranged on the first speed changing shaft (3-2), the first speed changing wheel (3-3) is meshed with a second speed changing wheel (3-4), the second speed changing wheel (3-4) is arranged on a second speed changing shaft (3-5), a third speed changing wheel (3-6) is further arranged on the second speed changing shaft (3-5), the third speed changing wheel (3-6) is meshed with a fourth speed changing wheel (3-7), the fourth speed changing wheel (3-7) is arranged on a third speed changing shaft (3-8), the fourth speed changing wheel (3-7) can be meshed with a fifth speed changing wheel (3-9), and the fifth speed changing wheel (3-9) is connected with a fourth speed changing shaft (3-10), the fourth speed changing shaft (3-10) is connected with a speed changing telescopic rod through a bearing, the fourth speed changing shaft (3-10) is connected with a sixth speed changing wheel (3-11), the sixth speed changing wheel (3-11) can be meshed with a seventh speed changing wheel (3-12), the seventh speed changing wheel (3-12) is connected with a first speed changing shaft (3-2), an eighth speed changing wheel (3-13) is arranged on the fourth speed changing shaft (3-10), the eighth speed changing wheel (3-13) is meshed with a ninth speed changing wheel (3-14), the ninth speed changing wheel (3-14) is arranged on a fifth speed changing shaft (3-15), a first speed changing belt wheel (3-16) is arranged on the fifth speed changing shaft (3-15), and the first speed changing belt wheel (3-16) and a second speed changing belt wheel (3-17) are connected through a speed changing connecting belt (3-18) The second speed-changing belt wheel (3-17) is arranged on a first stirring transmission worm (3-19), two ends of the first stirring transmission worm (3-19) are meshed with a first stirring turbine (3-20), each group of the first stirring turbines (3-20) is meshed with a second stirring transmission worm (3-21), the second stirring transmission worm (3-21) is meshed with a second stirring turbine (3-22), each group of the second stirring turbines (3-22) is arranged on a stirring shaft (3-23), the stirring shaft (3-23) penetrates through a proportioning box (3-24), two groups of stirring connecting rods (3-25) are arranged on the stirring shaft (3-23), and a stirring rod (3-26) is arranged on each group of the stirring connecting rods (3-25), the upper end of each group of the batching boxes (3-24) is hinged with a blanking door (3-27), the bottom end of each group of the batching boxes (3-24) is communicated with a discharge pipe (3-28), and the discharge pipes (3-28) are provided with switch valves.

3. The color matching material extruding mechanism of the double-color co-extrusion equipment with the adaptive cable insulation layer, according to claim 1, is characterized in that: the blanking device (4) comprises a blanking box (4-1), a material passing pipe (4-2), a blanking shaft (4-3), a blanking mounting disc (4-4), a blanking blade (4-5), a blanking belt wheel (4-6), a blanking transmission belt (4-7), a clutch transmission turbine (4-8), a clutch transmission worm (4-9), a first clutch transmission belt wheel (4-10), a clutch connection belt (4-11), a second clutch transmission belt wheel (4-12), a third clutch transmission belt wheel (4-13), a clutch shaft (4-14), a clutch box (4-15) and a clutch electric push rod (4-16); the bottom end of the blanking box (4-1) is connected with one end of a material passing pipe (4-2), the other end of the material passing pipe (4-2) is communicated with an extrusion device (5), a pressure valve is arranged on the material passing pipe (4-2), a group of blanking shafts (4-3) are arranged in the blanking box (4-1), a blanking mounting disc (4-4) is arranged on the blanking shaft (4-3), a plurality of groups of blanking leaves (4-5) are arranged around the blanking mounting disc (4-4), each group of blanking leaves (4-5) is processed with a blanking groove, one group of blanking leaves (4-5) are in contact with the bottom end of a material discharging pipe (3-28), and a belt wheel (4-6) is arranged on each group of blanking shafts (4-3), the blanking belt wheels (4-6) are connected through blanking transmission belts (4-7), a clutch transmission worm wheel (4-8) is arranged on one blanking shaft (4-3), the clutch transmission worm wheel (4-8) is meshed with a clutch transmission worm (4-9), a first clutch transmission belt wheel (4-10) is arranged on the clutch transmission worm (4-9), the first clutch transmission belt wheel (4-10) is connected with a second clutch transmission belt wheel (4-12) and a third clutch transmission belt wheel (4-13) through a clutch connecting belt (4-11), the second clutch transmission belt wheel (4-12) is connected with a third speed changing shaft (3-8), and the third clutch transmission belt wheel (4-13) is arranged on a clutch shaft (4-14), the clutch shaft (4-14) is arranged in a clutch box (4-15), and the clutch box (4-15) is arranged on a clutch electric push rod (4-16).

4. The color matching material extruding mechanism of the double-color co-extrusion equipment with the adaptive cable insulation layer, according to claim 1, is characterized in that: the extrusion device (5) comprises an extrusion half cylinder (5-1), an extrusion cylinder (5-2), a main lifting plate (5-3), a secondary lifting plate (5-4), a connecting semi-ring (5-5), a first extrusion connecting rod (5-6), a second extrusion connecting rod (5-7), an extrusion connecting spring (5-8), an extrusion shell (5-9), an extrusion cam (5-10), a first extrusion shaft (5-11), a first extrusion belt wheel (5-12), an extrusion connecting belt (5-13), a second extrusion belt wheel (5-14), an extrusion worm (5-15), an extrusion turbine (5-16), a second extrusion shaft (5-17) and an extrusion electric push rod (5-18); each group of the material passing pipes (4-2) is communicated with an extrusion half cylinder (5-1), two groups of the extrusion half cylinders (5-1) form an extrusion cylinder (5-2), a main lifting plate (5-3) and a slave lifting plate (5-4) are arranged in the extrusion cylinder (5-2), the main lifting plate (5-3) and the slave lifting plate (5-4) have the same structure, the upper end of each group of the main lifting plate (5-3) is fixedly connected with a connecting semi-ring (5-5), the connecting semi-ring (5-5) is fixedly connected with a first extrusion connecting rod (5-6), each group of the first extrusion connecting rod (5-6) is fixedly connected with a second extrusion connecting rod (5-7), the upper end of the second extrusion connecting rod (5-7) is fixedly connected with an extrusion connecting spring (5-8), the second extrusion connecting rod (5-7) is connected with the extrusion shell (5-9) in a sliding mode, the bottom end of the extrusion shell (5-9) is fixedly connected with the extrusion connecting spring (5-8), the extrusion shell (5-9) is fixedly connected with the box body (1), the second extrusion connecting rod (5-7) is in contact with the extrusion cam (5-10), the extrusion cam (5-10) is connected with the first extrusion shaft (5-11), the first extrusion shaft (5-11) is arranged between the two groups of proportioning boxes (3-24), the first extrusion shaft (5-11) is provided with a first extrusion belt wheel (5-12), the first extrusion belt wheel (5-12) is connected with the second extrusion belt wheel (5-14) through an extrusion connecting belt (5-13), the second extrusion belt wheels (5-14) are arranged on the extrusion worms (5-15), the extrusion worms (5-15) are meshed with the extrusion turbines (5-16), the extrusion turbines (5-16) are provided with second extrusion shafts (5-17), and the second extrusion shafts (5-17) are connected with the extrusion electric push rods (5-18).

The main lifting plate (5-3) comprises a plurality of groups of lifting sleeve plates (5-3-1), a group of lifting sleeve plates (5-3-1) with large radius are sleeved in a group of lifting sleeve plates (5-3-1) with small radius, and the group of lifting sleeve plates (5-3-1) with large radius are connected with the group of lifting sleeve plates (5-3-1) with small radius through lifting springs (5-3-2).

5. The color matching material extruding mechanism of the double-color co-extrusion equipment with the adaptive cable insulation layer, according to claim 1, is characterized in that: the wire clamping device (7) comprises a wire clamping shaft (7-1), a wire clamping wheel (7-2), a second wire clamping wheel (7-3), a third wire clamping wheel (7-4), a wire clamping electric push rod (7-5), a wire clamping box (7-6), a wire clamping door (7-7), a wire clamping fixed block (7-8), a wire clamping claw (7-9), a wire clamping sleeve (7-10), a wire clamping inclined rod (7-11), a clamping spring (7-12), a first wire clamping block (7-13), a second wire clamping block (7-14), a wire clamping straight rod (7-15), a wire clamping moving plate (7-16), a wire clamping transmission rod (7-17), a wire clamping transmission wheel (7-18), a first wire clamping shaft (7-19), a first wire clamping belt wheel (7-20), A second wire clamping belt wheel (7-21), a wire clamping connecting belt (7-22), a second wire clamping shaft (7-23), a wire clamping ratchet wheel (7-24), a wire clamping pawl (7-25) and a clamping handle (7-26); the wire clamping shaft 7-1 is arranged in the box body (1), the wire clamping shaft (7-1) is provided with a first wire clamping wheel (7-2), the first wire clamping wheel (7-2) and a second wire clamping wheel (7-3) can be meshed through a third wire clamping wheel (7-4), the third wire clamping wheel (7-4) is connected with a wire clamping electric push rod (7-5) through a bearing, the third wire clamping wheel (7-4) is arranged on a fifth speed change shaft 3-15, the wire clamping shaft 7-1 is provided with a wire clamping box (7-6), the wire clamping box (7-6) is hinged with a wire clamping door (7-7), the wire clamping box (7-6) is internally provided with a wire clamping fixing block (7-8), and the wire clamping fixing block (7-8) is hinged with two sets of wire clamping claws (7-9), each group of the wire clamping claws (7-9) is fixedly connected with a wire clamping sleeve (7-10), the wire clamping sleeve (7-10) is sleeved with a wire clamping inclined rod (7-11), the wire clamping sleeve (7-10) is fixedly connected with the wire clamping inclined rod (7-11) through a clamping spring (7-12), the wire clamping inclined rod (7-11) is contacted with a first wire clamping block (7-13), the first wire clamping block (7-13) is fixedly connected with a second wire clamping block (7-14), the first wire clamping block (7-13) is fixedly connected with a wire clamping straight rod (7-15), the wire clamping movable plate (7-16) is fixedly connected with the wire clamping claw (7-9), a plurality of groups of wire clamping transmission rods (7-17) are fixedly connected on the wire clamping fixing plate, the wire clamping transmission rod (7-17) is meshed with the wire clamping transmission wheel (7-18), the wire clamping transmission wheel (7-18) is arranged on the first wire clamping shaft (7-19), the first wire clamping shaft (7-19) is provided with a first wire clamping belt wheel (7-20), the first wire clamping belt wheel (7-20) is connected with a second wire clamping belt wheel (7-21) through a wire clamping connecting belt (7-22), the second wire clamping belt wheel (7-21) is arranged on a second wire clamping shaft (7-23), a wire clamping ratchet wheel (7-24) is arranged on the second wire clamping shaft (7-23), the wire clamping ratchet wheel (7-24) is meshed with the wire clamping pawl (7-25), and the second clamping shaft (7-23) is fixed with the clamping handle (7-26).

Technical Field

The invention relates to the technical field of cable processing, in particular to a color matching material extruding mechanism adaptive to cable insulating layer double-color co-extrusion equipment.

Background

The cable is a general name of optical cables, electric cables and other articles, at present, an insulating layer of the cable is usually in a single color, and when a plurality of cables with the same color are placed together, a user often cannot identify which cable is required; furthermore, cables are connecting "nerves" and "blood vessels" in high-precision and sophisticated modern weaponry such as satellites, fighters, radars, missiles, ships, and the like, and in heavy civil equipment such as sabot airships, commercial airplanes, nuclear power equipment, and the like, and are carriers of signal transmission, and as signal transmission lines on these equipment, it is necessary to distinguish lines by color.

The common colors are 12, the number of the lines is far more than the number, so that great inconvenience is brought to equipment maintenance, and therefore, a more colorful cable needs to be developed to facilitate installation, maintenance and maintenance of the cable.

Disclosure of Invention

The invention relates to the technical field of cable processing, in particular to a color matching material extruding mechanism of adaptive cable insulating layer double-color co-extrusion equipment.

In order to solve the technical problem, the invention relates to the technical field of cable processing, in particular to a color matching material extruding mechanism adaptive to cable insulating layer double-color co-extrusion equipment, which comprises a box body, a feeding door, a stirring device, a blanking device, an extruding device, a wire collecting wheel and a wire clamping device, wherein the feeding door is arranged on the box body; the method is characterized in that: the box body is hinged with two groups of feeding doors, a stirring device is arranged in the box body, a blanking device is arranged at the lower end of the stirring device and communicated with an extrusion device, a wire collecting wheel is further arranged in the box body, a wire passing groove is processed on the wire collecting wheel, and the wire collecting wheel is in threaded connection with a wire clamping device.

As a further optimization of the technical scheme, the color matching material extrusion mechanism comprises a transmission motor, a first speed changing shaft, a first speed changing wheel, a second speed changing shaft, a third speed changing wheel, a fourth speed changing wheel, a third speed changing shaft, a fifth speed changing wheel, a fourth speed changing shaft, a sixth speed changing wheel, a seventh speed changing wheel, an eighth speed changing wheel, a ninth speed changing wheel, a fifth speed changing shaft, a first speed changing belt wheel, a second speed changing belt wheel, a speed changing connecting belt, a first stirring transmission worm, a second stirring turbine, a stirring shaft, a batching box, a stirring connecting rod, a stirring spiral rod, a blanking door and a discharging pipe; the transmission motor is connected with a first speed changing shaft through a coupler, the first speed changing shaft is provided with a first speed changing wheel, the first speed changing wheel is meshed with a second speed changing wheel, the second speed changing wheel is arranged on a second speed changing shaft, the second speed changing shaft is also provided with a third speed changing wheel, the third speed changing wheel is meshed with a fourth speed changing wheel, the fourth speed changing wheel is arranged on a third speed changing shaft, the fourth speed changing wheel can be meshed with a fifth speed changing wheel, the fifth speed changing wheel is connected with a fourth speed changing shaft, the fourth speed changing shaft is connected with a speed changing telescopic rod through a bearing, the fourth speed changing shaft is connected with a sixth speed changing wheel, the sixth speed changing wheel can be meshed with a seventh speed changing wheel, the seventh speed changing wheel is connected with the first speed changing shaft, the fourth speed changing shaft is provided with an eighth speed changing wheel, and the eighth speed changing wheel is meshed with a ninth speed changing wheel, the ninth change gear is arranged on a fifth change shaft, the fifth change shaft is provided with a first change belt wheel, the first speed-changing belt wheel is connected with the second speed-changing belt wheel through a speed-changing connecting belt, the second speed-changing belt wheel is arranged on the first stirring transmission worm, two ends of the first stirring transmission worm are meshed with first stirring turbines, each group of the first stirring turbines is meshed with a second stirring transmission worm, the second stirring transmission worm is meshed with second stirring turbines, each group of the second stirring turbines is arranged on a stirring shaft, the stirring shaft penetrates through the batching box, and the stirring shaft is provided with two groups of stirring connecting rods, each group of stirring connecting rods is provided with a stirring screw rod, each group of stirring connecting rods is hinged to the upper end of the batching box, the bottom end of the batching box is communicated with the discharging pipe, and the discharging pipe is provided with a switch valve.

As further optimization of the technical scheme, the color matching material extruding mechanism of the double-color co-extrusion equipment adaptive to the cable insulating layer comprises a blanking box, a material passing pipe, a blanking shaft, a blanking mounting disc, a blanking blade, a blanking belt wheel, a blanking driving belt, a clutch transmission turbine, a clutch transmission worm, a first clutch transmission belt wheel, a clutch connection belt, a second clutch transmission belt wheel, a third clutch transmission belt wheel, a clutch shaft, a clutch box and a clutch electric push rod; the bottom end of the blanking box is connected with one end of a material passing pipe, the other end of the material passing pipe is communicated with the extruding device, a pressure valve is arranged on the material passing pipe, a group of blanking shafts are arranged in the blanking box, blanking mounting discs are arranged on the blanking shafts, a plurality of groups of blanking blades are arranged around the blanking mounting discs, blanking grooves are machined in each group of the blanking blades, a group of the blanking blades are in contact with the bottom end of a discharging pipe, blanking belt wheels are arranged on each group of the blanking shafts, two groups of the blanking belt wheels are connected through blanking driving belts, clutch driving turbines are arranged on one group of the blanking shafts and are meshed with clutch driving worms, first clutch driving belt wheels are arranged on the clutch driving worms, and the first clutch driving belt wheels are connected with second clutch driving belt wheels and third clutch driving belt wheels through clutch connecting belts, the second clutch transmission belt wheel is connected with a third speed changing shaft, the third clutch transmission belt wheel is arranged on a clutch shaft, the clutch shaft is arranged in a clutch box, and the clutch box is arranged on a clutch electric push rod.

As further optimization of the technical scheme, the color matching material extrusion mechanism comprises an extrusion half cylinder, an extrusion cylinder, a main lifting plate, a slave lifting plate, a connecting semi-ring, a first extrusion connecting rod, a second extrusion connecting rod, an extrusion connecting spring, an extrusion shell, an extrusion cam, a first extrusion shaft, a first extrusion belt wheel, an extrusion connecting belt, a second extrusion belt wheel, an extrusion worm, an extrusion turbine, a second extrusion shaft and an extrusion electric push rod; each group of the material passing pipes is communicated with the extrusion half cylinders, the two groups of the extrusion half cylinders form an extrusion cylinder, a main lifting plate and a slave lifting plate are arranged in the extrusion cylinder, the main lifting plate and the slave lifting plate have the same structure, the upper end of each group of the main lifting plate is fixedly connected with a connecting semi-ring, the connecting semi-ring is fixedly connected with a first extrusion connecting rod, each group of the first extrusion connecting rod and a second extrusion connecting rod are fixedly connected, the upper end of the second extrusion connecting rod is fixedly connected with an extrusion connecting spring, the second extrusion connecting rod is slidably connected with an extrusion shell, the bottom end of the extrusion shell is also fixedly connected with the extrusion connecting spring, the extrusion shell is fixedly connected with a box body, the second extrusion connecting rod is contacted with an extrusion cam, the extrusion cam is connected with a first extrusion shaft, the first extrusion shaft is arranged between the two groups of batching boxes, and the first extrusion belt wheel is arranged on the first extrusion shaft, the first extrusion belt wheel is connected with the second extrusion belt wheel through an extrusion connecting belt, the second extrusion belt wheel is arranged on an extrusion worm, the extrusion worm is meshed with an extrusion turbine, a second extrusion shaft is arranged on the extrusion turbine, and the second extrusion shaft is connected with an extrusion electric push rod.

As further optimization of the technical scheme, the color matching material extruding mechanism of the double-color co-extrusion equipment adaptive to the cable insulating layer comprises a wire clamping shaft, a first wire clamping wheel, a second wire clamping wheel, a third wire clamping wheel, a wire clamping electric push rod, a wire clamping box, a wire clamping door, a wire clamping fixed block, a wire clamping claw, a wire clamping sleeve, a wire clamping inclined rod, a clamping spring, a first wire clamping block, a second wire clamping block, a wire clamping straight rod, a wire clamping moving plate, a wire clamping transmission rod, a wire clamping transmission wheel, a first wire clamping shaft, a first wire clamping belt wheel, a second wire clamping belt wheel, a wire clamping connecting belt, a second wire clamping shaft, a wire clamping ratchet wheel, a wire clamping pawl and a clamping handle; the yarn clamping shaft is arranged in the box body, a first yarn clamping wheel is arranged on the yarn clamping shaft, the first yarn clamping wheel and a second yarn clamping wheel can be meshed through a third yarn clamping wheel, the third yarn clamping wheel is connected with a yarn clamping electric push rod through a bearing, the third yarn clamping wheel is arranged on a fifth speed changing shaft, a yarn clamping box is arranged on the yarn clamping shaft, a yarn clamping door is hinged on the yarn clamping box, a yarn clamping fixing block is arranged in the yarn clamping box, two groups of yarn clamping claws are hinged on the yarn clamping fixing block, each group of yarn clamping claws is fixedly connected with a yarn clamping sleeve, a yarn clamping inclined rod is sleeved on the yarn clamping sleeve, the yarn clamping sleeve is fixedly connected with the yarn clamping inclined rod through a clamping spring, the yarn clamping inclined rod is contacted with a first yarn clamping block, the first yarn clamping block is fixedly connected with a second yarn clamping block, the first yarn clamping block is fixedly connected with a yarn clamping straight rod, and the yarn clamping straight rod is fixedly connected with a yarn clamping plate, the yarn clamping device is characterized in that a plurality of groups of yarn clamping transmission rods are fixedly connected to the yarn clamping movement plate, the yarn clamping transmission rods are meshed with the yarn clamping transmission wheels, the yarn clamping transmission wheels are arranged on a first yarn clamping shaft, a first yarn clamping belt wheel is arranged on the first yarn clamping shaft, the first yarn clamping belt wheel is connected with a second yarn clamping belt wheel through a yarn clamping connecting belt, the second yarn clamping belt wheel is arranged on a second yarn clamping shaft, a yarn clamping ratchet wheel is arranged on the second yarn clamping shaft, the yarn clamping ratchet wheel is meshed with a yarn clamping pawl, and the second yarn clamping shaft is fixed with a clamping handle.

The color matching material extruding mechanism of the double-color co-extrusion equipment adaptive to the cable insulating layer has the beneficial effects that:

the invention relates to the technical field of cable processing, in particular to a color matching material extruding mechanism adaptive to cable insulating layer double-color co-extrusion equipment;

by being provided with a stirring device; through being provided with speed change gear among the agitating unit, can drive the stirring hob and carry out the variable speed, according to the in service behavior of difference, change, when not needing the batching liquid, make the stirring hob can stir fast, prevent when not using the batching liquid, the batching liquid can take place dryly, when the batching liquid carries out the unloading, the variable speed drives the stirring hob and stirs slowly.

Through arranging the blanking device; doffer can cushion the whereabouts to the batching liquid, prevents the action of gravity, makes the batching liquid all fall down, causes the pipeline of batching liquid to block up, and doffer can control whether the blanking, guarantees along with falling along with using.

By providing an extrusion device; extrusion device can color the cable with the color matching material of two kinds of different colours, and can also press from both sides tightly the cable of unidimensional not, guarantees to extrude the pressure constancy in the drum to color the cable.

The wire clamping device is arranged; the one end of the cable after the dyeing is clamped tightly by the wire clamping device, the cable is conveniently collected, the clamping handle is rotated through rotation, the clamping handle is driven to rotate, the clamping ratchet wheel is driven to rotate, and the clamping pawl is clamped tightly through the clamping device, so that the clamping device is prevented from falling off in the rotating process.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is a third schematic view of the overall structure of the present invention.

Fig. 4 is a first structural schematic diagram of the stirring device of the present invention.

Fig. 5 is a schematic structural diagram of a stirring device of the present invention.

Fig. 6 is a third schematic structural view of the stirring device of the present invention.

Fig. 7 is a first schematic structural diagram of the blanking device of the present invention.

Fig. 8 is a second schematic structural diagram of the blanking device of the present invention.

Fig. 9 is a third schematic structural diagram of the blanking device of the present invention.

Fig. 10 is a fourth schematic structural diagram of the blanking device of the present invention.

Fig. 11 is a schematic structural diagram of the blanking device of the present invention.

Fig. 12 is a first schematic structural diagram of an extrusion apparatus according to the present invention.

Fig. 13 is a schematic structural diagram of an extrusion apparatus according to the present invention.

Fig. 14 is a third schematic structural view of the extrusion apparatus of the present invention.

Fig. 15 is a fourth schematic structural view of the extrusion apparatus of the present invention.

Fig. 16 is a schematic structural view five of the extrusion apparatus of the present invention.

Fig. 17 is a first structural schematic diagram of the wire clamping device of the present invention.

Fig. 18 is a second structural schematic diagram of the wire clamping device of the present invention.

Fig. 19 is a third schematic structural view of the wire clamping device of the present invention.

Fig. 20 is a fourth schematic structural view of the wire clamping device of the present invention.

In the figure: a box body 1; a feeding gate 2; a stirring device 3; a blanking device 4; an extrusion device 5; a wire collecting wheel 6; a wire clamping device 7; a transmission motor 3-1; a first transmission shaft 3-2; a first change gear 3-3; a second change gear 3-4; a second change speed shaft 3-5; a third change gear 3-6; a fourth change gear 3-7; a third speed change shaft 3-8; a fifth ratio gear 3-9; a fourth speed change shaft 3-10; a sixth change gear 3-11; seventh change gears 3-12; an eighth change gear 3-13; ninth change gear 3-14; a fifth shift shaft 3-15; first change speed pulleys 3-16; second change speed pulleys 3-17; 3-18 parts of variable speed connecting belt; a first stirring transmission worm 3-19; a first stirring turbine 3-20; 3-21 parts of a second stirring transmission worm; a second agitating turbine 3-22; 3-23 parts of a stirring shaft; 3-24 parts of a batching box; 3-25 parts of a stirring connecting rod; 3-26 parts of a stirring screw rod; a blanking door 3-27; 3-28 parts of a discharge pipe; 4-1 of a blanking box; a material passing pipe 4-2; 4-3 of a blanking shaft; 4-4 of a blanking installation disc; 4-5 of blanking leaves; 4-6 of blanking belt wheels; 4-7 of a blanking transmission belt; 4-8 of a clutch transmission turbine; 4-9 of a clutch transmission worm; a first clutch transmission belt wheel 4-10; 4-11 parts of clutch connecting belt; a second clutch transmission belt wheel 4-12; a third clutch transmission belt wheel 4-13; clutch shafts 4-14; 4-15 of a clutch box; clutch electric push rod 4-16; 5-1 of an extrusion half cylinder; 5-2 parts of an extrusion cylinder; 5-3 of a main lifting plate; 5-4 of the secondary lifting plate; connecting the semi-rings 5-5; a first extrusion link 5-6; a second extrusion link 5-7; 5-8 parts of an extrusion connecting spring; 5-9 parts of an extrusion shell; 5-10 parts of an extrusion cam; a first extrusion shaft 5-11; a first extrusion pulley 5-12; extruding 5-13 parts of connecting belt; a second extrusion pulley 5-14; 5-15 parts of extrusion worm; 5-16 parts of an extrusion turbine; a second extrusion shaft 5-17; extruding an electric push rod 5-18; a yarn clamping shaft 7-1; a wire clamping wheel 7-2; a second wire clamping wheel 7-3; a third wire clamping wheel 7-4; 7-5 of a wire clamping electric push rod; 7-6 of a wire clamping box; a wire clamping door 7-7; 7-8 parts of a wire clamping fixing block; 7-9 of a wire clamping claw; 7-10 parts of a wire clamping sleeve; 7-11 parts of wire clamping inclined rod; 7-12 parts of a clamping spring; a first clamping block 7-13; a second clamping block 7-14; 7-15 parts of a linear clamping rod; a wire clamping motion plate 7-16; a wire clamping transmission rod 7-17; a thread clamping transmission wheel 7-18; a first chuck shaft 7-19; a first wire clamping belt wheel 7-20; a second wire clamping belt wheel 7-21; 7-22 parts of wire clamping connecting belt; a second chuck shaft 7-23; 7-24 parts of a wire clamping ratchet wheel; wire clamping pawls 7-25; the handles 7-26 are clamped.

Detailed Description

The first embodiment is as follows:

the invention relates to the technical field of cable processing, in particular to a color matching material extruding mechanism of double-color co-extrusion equipment adaptive to a cable insulating layer, which is used for solving the technical problems by combining with figures 1-20 and comprises a box body 1, a feeding door 2, a stirring device 3, a blanking device 4, an extruding device 5, a line concentration wheel 6 and a line clamping device 7; two groups of feeding doors 2 are hinged to the box body 1, a stirring device 3 is arranged in the box body 1, a blanking device 4 is arranged at the lower end of the stirring device 3, the blanking device 4 is communicated with an extrusion device 5, a wire collecting wheel 6 is also arranged in the box body 1, a through wire groove is processed on the wire collecting wheel 6, and the wire collecting wheel 6 is connected with a wire clamping device 7 through threads;

opening a group of feeding doors 2, screwing a first chuck out of a cable mounting rod, mounting a cable to be contacted with a second chuck, screwing the first chuck, mounting the cable, arranging the first chuck, the second chuck and the mounting rod between two groups of material passing pipes in a blanking device, enabling the cable to pass through an extrusion device 5, then opening another group of feeding doors 2, fixing the cable through a wire clamping device 7 of a wire collecting wheel 6, then stirring the color matching materials by a stirring device 3, stirring two different pigments to prevent hardening, adding the two different color matching materials into a color matching box in the stirring device 3, adjusting the color matching materials, slowly feeding the color matching materials into the extrusion device 5 by the blanking device 4 when the blanking device 4 is needed, and not leading the color matching materials to fall completely due to the action of gravity, the blockage of a pipeline in the wire clamping device 7 is easily caused, the extruding device 5 colors the cable, the cable is collected through the wire collecting wheel 6, the wire collecting wheel is detached after the collection, and then the new wire collecting wheel is in threaded connection with the wire clamping device.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 20, and the first embodiment will be further described, wherein the stirring device 3 includes a transmission motor 3-1, a first transmission shaft 3-2, a first change gear 3-3, a second change gear 3-4, a second transmission shaft 3-5, a third change gear 3-6, a fourth change gear 3-7, a third change gear 3-8, a fifth change gear 3-9, a fourth change gear 3-10, a sixth change gear 3-11, a seventh change gear 3-12, an eighth change gear 3-13, a ninth change gear 3-14, a fifth change gear 3-15, a first change gear 3-16, a second change gear 3-17, a change connecting belt 3-18, a first stirring transmission worm 3-19, a second stirring transmission worm 3-14, a second stirring transmission worm 3-15, a third change gear 3-8, a fifth change gear 3-9, a fourth, 3-20 parts of a first stirring turbine, 3-21 parts of a second stirring transmission worm, 3-22 parts of a second stirring turbine, 3-23 parts of a stirring shaft, 3-24 parts of a batching box, 3-25 parts of a stirring connecting rod, 3-26 parts of a stirring spiral rod, 3-27 parts of a blanking door and 3-28 parts of a discharging pipe; the transmission motor 3-1 is connected with a first speed change shaft 3-2 through a coupling, a first speed change wheel 3-3 is arranged on the first speed change shaft 3-2, the first speed change wheel 3-3 is meshed with a second speed change wheel 3-4, the second speed change wheel 3-4 is arranged on a second speed change shaft 3-5, a third speed change wheel 3-6 is further arranged on the second speed change shaft 3-5, the third speed change wheel 3-6 is meshed with a fourth speed change wheel 3-7, the fourth speed change wheel 3-7 is arranged on a third speed change shaft 3-8, the fourth speed change wheel 3-7 can be meshed with a fifth speed change wheel 3-9, the fifth speed change wheel 3-9 is connected with a fourth speed change shaft 3-10, and the fourth speed change shaft 3-10 is connected with a speed change telescopic rod through a bearing, the fourth speed change shaft 3-10 is connected with a sixth speed change wheel 3-11, the sixth speed change wheel 3-11 can be meshed with a seventh speed change wheel 3-12, the seventh speed change wheel 3-12 is connected with a first speed change shaft 3-2, the fourth speed change shaft 3-10 is provided with an eighth speed change wheel 3-13, the eighth speed change wheel 3-13 is meshed with a ninth speed change wheel 3-14, the ninth speed change wheel 3-14 is arranged on a fifth speed change shaft 3-15, the fifth speed change shaft 3-15 is provided with a first speed change belt wheel 3-16, the first speed change belt wheel 3-16 is connected with a second speed change belt wheel 3-17 through a speed change connecting belt 3-18, the second speed change belt wheel 3-17 is arranged on a first stirring transmission worm 3-19, the two ends of the first stirring transmission worm 3-19 are meshed with first stirring turbines 3-20, each group of the first stirring turbines 3-20 is meshed with second stirring transmission worms 3-21, the second stirring transmission worms 3-21 are meshed with second stirring turbines 3-22, each group of the second stirring turbines 3-22 is arranged on a stirring shaft 3-23, the stirring shaft 3-23 penetrates through a proportioning box 3-24, two groups of stirring connecting rods 3-25 are arranged on the stirring shaft 3-23, each group of the stirring connecting rods 3-25 is provided with a stirring screw rod 3-26, the upper end of each group of the proportioning box 3-24 is hinged with a discharging door 3-27, and the bottom end of each group of the proportioning box 3-24 is communicated with a discharging pipe 3-28, the discharge pipes 3 to 28 are provided with switch valves;

the transmission motor 3-1 drives the first speed changing shaft 3-2 to rotate, further drives the first speed changing wheel 3-3 to drive, the second speed changing wheel 3-4 rotates along with the first speed changing wheel, further drives the second speed changing shaft 3-5 to drive, further rotates the third speed changing wheel 3-6, and drives the third speed changing shaft 3-8 to drive, when the speed changing telescopic rod drives the fourth speed changing shaft 3-10 and the fifth speed changing wheel 3-9 on the fourth speed changing shaft 3-10 to be meshed with the fourth speed changing wheel 3-7, the fifth speed changing wheel 3-9 can be driven to rotate through the fourth speed changing wheel 3-7, further drives the fourth speed changing shaft 3-10 to rotate, and can drive the eighth speed changing wheel 3-13 to rotate through the rotation of the fourth speed changing shaft 3-10, the ninth variable-speed wheel 3-14 is rotated along with the first variable-speed wheel 3-14, according to a transmission ratio formula in a mechanical design manual, the transmission speed of the third variable-speed shaft 3-8 is one third of that of the first variable-speed shaft 3-2, the rotation speed of the fifth variable-speed shaft 3-15 is one third of that of the first variable-speed shaft 3-2 through the ninth variable-speed wheel 3-14, the first variable-speed belt wheel 3-16 is further driven to rotate, the transmission of the second variable-speed belt wheel 3-17 can be driven through the variable-speed connecting belt 3-18, the first stirring worm rotates along with the first variable-speed wheel, the two groups of first stirring turbines 3-20 are further driven to rotate, and at the moment, in the process of using the mixture liquid, the mixture liquid can be stirred at a low speed, each group of the first stirring turbines 3-20 can drive the second stirring transmission turbine to rotate, and the second, thereby driving the rotation of the stirring shaft 3-23, leading the two groups of stirring connecting rods 3-25 to rotate along with the rotation, driving the rotation of the stirring spiral rods 3-26 in the rotating process, leading the stirring spiral rods 3-26 to be composed of spiral rods with different spiral line heights, stirring the burdening liquid with all depths in the speed changing process, stirring the burdening liquid in all directions to generate vortex, preventing the burdening liquid from solidifying, leading the cross section of the stirring spiral rods 3-26 to be elliptical, increasing the direction of change of the burdening hydraulic force, opening a switch valve when needing to be used, leading the burdening liquid to enter the discharge pipe 3-28 and then enter the blanking device 4, when the variable speed telescopic rod drives the fourth variable speed shaft 3-10 and the sixth variable speed wheel 3-11 on the fourth variable speed shaft 3-10 to be meshed with the seventh variable speed wheel 3-12, at this time, the first speed changing shaft 3-2 drives the sixth speed changing wheel 3-11 to rotate so as to further drive the seventh speed changing wheel 3-12 to rotate, the eighth speed changing wheel 3-13 on the fourth speed changing shaft 3-10 drives the ninth speed changing wheel 3-14 to rotate, at this time, the operating speed of the fourth speed changing shaft 3-10 is the same as that of the first speed changing shaft 3-2, and the rotation of the ninth speed changing wheel 3-14 can drive the fifth speed changing shaft 3-15 to rotate, so that the first speed changing belt wheel 3-16 rotates along with the first speed changing shaft, the second speed changing belt wheel 3-17 can be driven to rotate through the speed changing connecting belt 3-18, so that the first stirring transmission worm 3-19 rotates along with the first speed changing shaft, and at this time, the state of no dosage liquid is used, and the dosage liquid is prevented from being stirred when the dosage liquid is not used.

The third concrete implementation mode:

the second embodiment is further described with reference to fig. 1-20, where the blanking device 4 includes a blanking box 4-1, a material passing pipe 4-2, a blanking shaft 4-3, a blanking mounting disk 4-4, a blanking blade 4-5, a blanking belt pulley 4-6, a blanking transmission belt 4-7, a clutch transmission turbine 4-8, a clutch transmission worm 4-9, a first clutch transmission belt pulley 4-10, a clutch connection belt 4-11, a second clutch transmission belt pulley 4-12, a third clutch transmission belt pulley 4-13, a clutch shaft 4-14, a clutch box 4-15, and a clutch electric push rod 4-16; the bottom end of the blanking box 4-1 is connected with one end of a material passing pipe 4-2, the other end of the material passing pipe 4-2 is communicated with an extrusion device 5, a pressure valve is arranged on the material passing pipe 4-2, a group of blanking shafts 4-3 are arranged in the blanking box 4-1, blanking mounting disks 4-4 are arranged on the blanking shafts 4-3, a plurality of groups of blanking blades 4-5 are arranged around the blanking mounting disks 4-4, each group of blanking blades 4-5 is provided with a blanking groove, one group of blanking blades 4-5 are contacted with the bottom end of a discharge pipe 3-28, each group of blanking shafts 4-3 are provided with blanking belt wheels 4-6, two groups of blanking belt wheels 4-6 are connected through a blanking transmission belt 4-7, and a clutch transmission turbine 4-8 is arranged on one group of the blanking shafts 4-3, the clutch transmission worm gear 4-8 is meshed with the clutch transmission worm 4-9, a first clutch transmission belt wheel 4-10 is arranged on the clutch transmission worm 4-9, the first clutch transmission belt wheel 4-10 is connected with a second clutch transmission belt wheel 4-12 and a third clutch transmission belt wheel 4-13 through a clutch connecting belt 4-11, the second clutch transmission belt wheel 4-12 is connected with a third speed changing shaft 3-8, the third clutch transmission belt wheel 4-13 is arranged on a clutch shaft 4-14, the clutch shaft 4-14 is arranged in a clutch box 4-15, and the clutch box 4-15 is arranged on a clutch electric push rod 4-16;

when the clutch electric push rod 4-16 drives the clutch box 4-15 to stretch, the third clutch transmission belt wheel 4-13 can be separated from the clutch shaft 4-14, the device can not move, when the clutch electric push rod 4-16 drives the clutch box 4-15 to return to the original position, the third clutch transmission belt wheel 4-13 is contacted with the clutch connecting belt 4-11, the third speed changing shaft 3-8 can drive the second clutch transmission belt wheel 4-12 to rotate, the first clutch transmission belt wheel 4-10 can be driven by the clutch connecting belt 4-11, the third clutch transmission belt wheel 4-13 can be driven to rotate, the clutch shaft 4-14 and the clutch transmission worm 4-9 are driven to rotate, the clutch transmission turbine 4-8 rotates along with the clutch transmission turbine 4-8, and the blanking shaft 4-3 is driven to rotate, the blanking belt wheel 4-6 connected with the blanking shaft 4-3 rotates along with the blanking belt wheel, the rotation of the other group of blanking belt wheel 4-6 can be driven by the blanking transmission belt 4-7, the other group of blanking shaft 4-3 rotates along with the other group of blanking shaft 4-3, the rotation of each group of blanking shaft 4-3 can drive the rotation of the blanking mounting disc 4-4, the highest end of the blanking mounting disc 4-4 is not contacted with the discharging pipe 3-28 any more, the dosage liquid in the dosage barrel can slowly fall into the blanking box 4-1 through the blanking groove processed on the blanking blade 4-5 when the switch valve on the discharging pipe 3-28 is in the open state, the dosage liquid is prevented from falling into the blanking box 4-1 completely when the switch valve is opened, the blockage of the blanking box 4-1 is caused, and the device can not run, the opening of the switch valve and the pressurizing valve can enable the ingredient liquid to enter the material passing pipe 4-2 and then enter the extruding device 5.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-20, wherein the extrusion device 5 comprises an extrusion half cylinder 5-1, an extrusion cylinder 5-2, a main lifting plate 5-3, a secondary lifting plate 5-4, a connecting half ring 5-5, a first extrusion connecting rod 5-6, a second extrusion connecting rod 5-7, an extrusion connecting spring 5-8, an extrusion housing 5-9, an extrusion cam 5-10, a first extrusion shaft 5-11, a first extrusion pulley 5-12, an extrusion connecting belt 5-13, a second extrusion pulley 5-14, an extrusion worm 5-15, an extrusion turbine 5-16, a second extrusion shaft 5-17 and an extrusion electric push rod 5-18; each group of the material passing pipes 4-2 is communicated with an extrusion half cylinder 5-1, two groups of the extrusion half cylinders 5-1 form an extrusion cylinder 5-2, a main lifting plate 5-3 and a slave lifting plate 5-4 are arranged in the extrusion cylinder 5-2, the main lifting plate 5-3 and the slave lifting plate 5-4 have the same structure, the upper end of each group of the main lifting plate 5-3 is fixedly connected with a connecting semi-ring 5-5, the connecting semi-ring 5-5 is fixedly connected with a first extrusion connecting rod 5-6, each group of the first extrusion connecting rod 5-6 and a second extrusion connecting rod 5-7 are fixedly connected, the upper end of the second extrusion connecting rod 5-7 is fixedly connected with an extrusion connecting spring 5-8, and the second extrusion connecting rod 5-7 is slidably connected with an extrusion shell 5-9, the bottom end of the extrusion shell 5-9 is also fixedly connected with an extrusion connecting spring 5-8, the extrusion shell 5-9 is fixedly connected with the box body 1, the second extrusion connecting rod 5-7 is in contact with an extrusion cam 5-10, the extrusion cam 5-10 is connected with a first extrusion shaft 5-11, the first extrusion shaft 5-11 is arranged between two groups of proportioning boxes 3-24, the first extrusion shaft 5-11 is provided with a first extrusion belt wheel 5-12, the first extrusion belt wheel 5-12 is connected with a second extrusion belt wheel 5-14 through an extrusion connecting belt 5-13, the second extrusion belt wheel 5-14 is arranged on an extrusion worm 5-15, the extrusion worm 5-15 is engaged with an extrusion turbine 5-16, the extrusion turbine 5-16 is provided with a second extrusion shaft 5-17, the second extrusion shaft 5-17 is connected with an extrusion electric push rod 5-18;

the main lifting plate 5-3 comprises a plurality of groups of lifting sleeve plates 5-3-1, a group of lifting sleeve plates 5-3-1 with large radius are sleeved in a group of lifting sleeve plates 5-3-1 with small radius, and the group of lifting sleeve plates 5-3-1 with large radius are connected with the group of lifting sleeve plates 5-3-1 with small radius through lifting springs 5-3-2;

the cable passes through the lower secondary lifting plate 5-4, the lifting sleeve plate 5-3-1 with small radius is pressed into the lifting sleeve plate 5-3-1 with large radius by pressing the lifting spring 5-3-2, the lifting sleeve plate 5-3-1 with small radius is pressed into the lifting sleeve plate 5-3-1 with large radius by the lifting spring 5-3-2, the lifting sleeve plate 5-3-1 can be tightly contacted with the cable by the lifting spring 5-3-2 to ensure the internal pressure to be constant, the cable is finally connected with the wire clamping device 7 by the main lifting plate 5-3, the extrusion electric push rod 5-18 drives the second extrusion shaft 5-17 to enable the extrusion turbine 5-16 on the second extrusion shaft 5-17 to be meshed with the auxiliary worm on the first speed change shaft 3-2, and the rotation of the first speed change shaft 3-2 can drive the auxiliary worm to rotate, further driving the extrusion turbines 5-16 to rotate, the extrusion turbines 5-16 can drive the extrusion worms 5-15 to rotate and further drive the second extrusion belt wheels 5-14 to transmit, the extrusion connecting belts 5-13 can drive the first extrusion belt wheels 5-12 to rotate, so that the first extrusion shafts 5-11 rotate along with the first extrusion shafts, thereby driving the extrusion cams 5-10 to rotate, the extrusion cams 5-10 are in contact with the second extrusion connecting rods 5-7, when the protruding parts of the extrusion cams 5-10 rotate to be in contact with the second extrusion connecting rods 5-7, the second extrusion connecting rods 5-7 can be pressed downwards to give pressure to the extrusion connecting springs 5-8, further driving the first extrusion connecting rods 5-6 to be pressed downwards to move downwards through the two groups of connecting semi-rings 5-5, further driving the main lifting plate 5-3 to move downwards, because the main lifting plate 5-3, the slave lifting plate 5-4, the cable and the extrusion cylinder 5-2 form a relatively closed environment, when the main lifting plate 5-3 is pressed downwards, the slave lifting plate 5-4 can move downwards due to the action of pressure, when the non-protruding part of the extrusion cam 5-10 rotates to be contacted with the second extrusion connecting rod 5-7, because one end of the connecting spring is connected with the extrusion shell 5-9, the extrusion shell 5-9 is fixed on the box body 1, the connecting spring drives the second extrusion connecting rod 5-7 to move upwards, so that the second extrusion connecting rod 5-7 is always contacted with the extrusion cam 5-10, ensuring the next pressing, at the moment, the main lifting plate 5-3 moves upwards, and the slave lifting plate 5-4 can move upwards under the action of pressure, the cable is coated with two different colors under the driving of the lifting plate 5-4 of the dosage liquid, so that the cable has a plurality of color differences.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1 to 20, and the embodiment further describes the first embodiment, wherein the thread clamping device 7 comprises a thread clamping shaft 7-1, a first thread clamping wheel 7-2, a second thread clamping wheel 7-3, a third thread clamping wheel 7-4, a thread clamping electric push rod 7-5, a thread clamping box 7-6, a thread clamping door 7-7, a thread clamping fixed block 7-8, a thread clamping claw 7-9, a thread clamping sleeve 7-10, a thread clamping inclined rod 7-11, a clamping spring 7-12, a first thread clamping block 7-13, a second thread clamping block 7-14, a thread clamping straight rod 7-15, a thread clamping moving plate 7-16, a thread clamping transmission rod 7-17, a thread clamping transmission wheel 7-18, a first thread clamping shaft 7-19, a first thread clamping belt wheel 7-20, a second thread clamping belt wheel 7-21, a first thread clamping belt wheel 7-7, a second thread clamping belt wheel 7-9, a second thread clamping, The wire clamping connecting band 7-22, the second wire clamping shaft 7-23, the wire clamping ratchet wheel 7-24, the wire clamping pawl 7-25 and the clamping handle 7-26; the wire clamping shaft 7-1 is arranged in the box body 1, a first wire clamping wheel 7-2 is arranged on the wire clamping shaft 7-1, the first wire clamping wheel 7-2 and a second wire clamping wheel 7-3 can be meshed through a third wire clamping wheel 7-4, the third wire clamping wheel 7-4 is connected with a wire clamping electric push rod 7-5 through a bearing, the third wire clamping wheel 7-4 is arranged on a fifth speed changing shaft 3-15, a wire clamping box 7-6 is arranged on the wire clamping shaft 7-1, a wire clamping door 7-7 is hinged on the wire clamping box 7-6, a wire clamping fixing block 7-8 is arranged in the wire clamping box 7-6, two wire clamping claws 7-9 are hinged on the wire clamping fixing block 7-8, and each wire clamping claw 7-9 is fixedly connected with a wire clamping sleeve 7-10, the wire clamping sleeve 7-10 is sleeved with a wire clamping inclined rod 7-11, the wire clamping sleeve 7-10 is fixedly connected with the wire clamping inclined rod 7-11 through a clamping spring 7-12, the wire clamping inclined rod 7-11 is contacted with a first wire clamping block 7-13, the first wire clamping block 7-13 is fixedly connected with a second wire clamping block 7-14, the first wire clamping block 7-13 is fixedly connected with a wire clamping straight rod 7-15, the wire clamping straight rod 7-15 is fixedly connected with a wire clamping moving plate 7-16, a plurality of groups of wire clamping transmission rods 7-17 are fixedly connected on the wire clamping moving plate 7-16, the wire clamping transmission rods 7-17 are meshed with wire clamping transmission wheels 7-18, and the wire clamping transmission wheels 7-18 are arranged on first wire clamping shafts 7-19, the first wire clamping shaft 7-19 is provided with a first wire clamping belt wheel 7-20, the first wire clamping belt wheel 7-20 is connected with a second wire clamping belt wheel 7-21 through a wire clamping connecting belt 7-22, the second wire clamping belt wheel 7-21 is arranged on a second wire clamping shaft 7-23, a wire clamping ratchet wheel 7-24 is arranged on the second wire clamping shaft 7-23, the wire clamping ratchet wheel 7-24 is meshed with a wire clamping pawl 7-25, and the second clamping shaft 7-23 is fixed with a clamping handle 7-26;

by opening the wire clamping door 7-7 and rotating the clamping handle 7-26, the rotation of the clamping handle 7-26 can drive the second clamping shaft 7-23 to rotate, so that the wire clamping ratchet 7-24 rotates, the wire clamping pawl 7-25 clamps the wire clamping ratchet 7-24, so that the second wire clamping belt wheel 7-23 rotates, the wire clamping connecting belt 7-22 can drive the first wire clamping belt wheel 7-20 to rotate, so that the first wire clamping shaft 7-19 rotates along with the first wire clamping shaft 7-19, because the first wire clamping shaft 7-19 is connected with the second wire clamping shaft 7-23 through the fixing shell, the wire clamping connecting belt 7-22 cannot generate elastic deformation, the first wire clamping shaft 7-19 can drive the wire clamping driving wheel 7-18 to rotate, because the bottom end of the wire clamping motion plate 7-16 is provided with the clamping driving block, the wire clamping device is meshed with the limiting grooves on the wire clamping fixed blocks 7-8, so that the wire clamping transmission wheels 7-18 can drive the wire clamping moving plates 7-16 to move towards the wire clamping transmission wheels 7-18, further drive the wire clamping straight rods 7-15 to move, and enable the second wire clamping blocks 7-14 and the first wire clamping blocks 7-13 to move along with the wire clamping moving plates, as the first wire clamping blocks 7-13 are contacted with the wire clamping inclined rods 7-11, the wire clamping inclined rods 7-11 are meshed with the second wire clamping blocks 7-14, as the wire clamping inclined rods 7-11 are fixedly connected with the wire clamping sleeves 7-10 through the clamping springs 7-12, the wire clamping inclined rods 7-11 can be tightly meshed with the second wire clamping blocks 7-14, and the wire clamping inclined rods 7-11 can drive the wire clamping sleeves 7-10 to move, so that one ends of the two sets of wire clamping claws 7-9 are expanded outwards relatively, the other ends of the two groups of wire clamping claws 7-9 move oppositely to clamp the cable, the wire clamping fixing block 7-8 can fix the position of the above part, the wire clamping electric push rod 7-5 can drive the third wire clamping wheel 7-4 to be meshed with the first wire clamping wheel 7-2 and the second wire clamping wheel 7-3, when the fifth speed changing shaft 3-15 rotates, the third wire clamping wheel 7-4 is driven to rotate, further the second wire clamping wheel 7-3 can drive the first wire clamping wheel 7-2 to rotate, the wire clamping shaft 7-1 rotates along with the third wire clamping wheel, further the wire clamping box 7-6 is driven to rotate, the cable is prevented from moving when the wire clamping shaft 7-1 rotates, when the rotation is not needed, the wire clamping electric push rod 7-5 can drive the third wire clamping wheel 7-4 not to be meshed with the first wire clamping wheel 7-2 and the second wire clamping wheel 7-3, the thread clamping device is no longer moved.

The control mode of the invention is automatically controlled by the controller, the control circuit of the controller can be realized by simple programming of a person skilled in the art, the invention belongs to the common knowledge in the field, and the invention is mainly used for protecting mechanical devices, so the control mode and the circuit connection are not explained in detail in the invention.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.