CN211972891U - High-efficient system strand system rope all-in-one of sisal hemp - Google Patents

Abstract

The utility model discloses a sisal hemp high-efficiency stranding and rope-making integrated machine, which comprises a stranding mechanism, a stranding mechanism and a rope-making mechanism which are connected in sequence; the strand making mechanism comprises a strand making bracket and a strand making component, wherein transmission shafts are arranged at two ends of the strand making component and are installed on the strand making bracket through bearings; the stranding mechanism comprises a stranding wheel carrier, a first rope wheel, a rope threading fixing seat, a second rope wheel and a stranding bracket, wherein the first rope wheel is uniformly arranged on the stranding wheel carrier; the rope making mechanism comprises a rope binding support and a rope binding device, and the rope binding device is arranged in the rope binding box through a driving shaft and a driven shaft. The utility model discloses compact structure, production automation are high, can make many ropes of stranded simultaneously, have improved production efficiency to the occupation of land space has been saved.

Description

High-efficient system strand system rope all-in-one of sisal hemp

Technical Field

The utility model relates to a system rope machine, in particular to high-efficient system strand system rope all-in-one of sisal hemp.

Background

In a conventional sisal hemp rope making process, sisal hemp fibers are twisted into strands with certain twist by a strander, and then a plurality of strands are twisted by the strander to make a rope. In the transition process of strand making and rope making processes, due to the machine structure, a strand disc of a strand making machine needs to be taken down after being saturated, then the strand disc and other strand discs are placed on a rotatable shaft bracket together, and the strand disc and other strand discs are processed into a rope through a rope making machine. The operation steps are discontinuous and complicated, have low efficiency and large occupied area, and are not suitable for industrial automatic continuous production.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient system strand system rope all-in-one of sisal hemp, compact structure, production are automatic high, can make many ropes of stranded cable simultaneously, have improved production efficiency to the occupation of land space has been saved.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an efficient sisal hemp stranding and rope making integrated machine comprises a stranding mechanism, a stranding mechanism and a rope making mechanism which are sequentially connected;

the strand making mechanism comprises a strand making bracket and a strand making component, wherein transmission shafts are arranged at two ends of the strand making component and are installed on the strand making bracket through bearings;

the stranding mechanism comprises a stranding wheel carrier, a first rope wheel, a rope threading fixing seat, a second rope wheel and a stranding bracket, wherein the first rope wheel is uniformly arranged on the stranding wheel carrier;

the rope making mechanism comprises a rope bundling support and a rope bundling device, the rope bundling device is arranged in a rope bundling box through a driving shaft and a driven shaft, and the rope bundling box is arranged on the rope bundling support through the driving shaft and the driven shaft;

the stranding member in the stranding mechanism, the rope combining wheel carrier in the stranding mechanism and the rope binding device in the rope making mechanism are driven by the transmission mechanism to rotate.

The strand making component comprises a coil plate, coil pillars, a first rope sheave support and a rope arranging device, wherein two ends of the coil plate are respectively connected with the end of a transmission shaft through right-angle connecting plates, the coil pillars are uniformly arranged on the surfaces of the coil plate on the inner side of the right angle of the right-angle connecting plates, the rope arranging plate is further arranged at the middle position of the coil plate, the transmission shaft is provided with the first rope sheave support, and one end, far away from the strand combining mechanism, of the coil plate is provided with the rope arranging device.

The rope device is including big in the same direction as the rope dish, little in the same direction as the rope dish, first in the same direction as the rope dish mount and second in the same direction as the rope dish mount, big in the same direction as the rope dish with little in the same direction as rope dish parallel arrangement, the side is equipped with first in the same direction as the rope dish mount and second in the same direction as the rope dish mount respectively around little in the same direction as the rope dish, and first in the same direction as the rope dish mount is established between big in the same direction as the rope dish and little in the same direction as the rope dish, big in the same direction as the rope dish, first in the same direction as the rope dish mount and second in the same direction as the rope dish mount and all be connected fixedly with the rope dish fixed pin in the same direction as the rope dish fixed pin, be close to the second in the same direction as the rope dish fixed pin through in the same direction as the rope dish fixed ear and right angle connecting plate fixed connection, all be equipped with even aperture on.

The rope bundling device comprises a wheel-shaped rope bundling roller, a first spiral rope bundling roller, a second spiral rope bundling roller, a third rope pulley, a fourth rope pulley, a fifth rope pulley and a second rope pulley support, wherein the wheel-shaped rope bundling roller, the first spiral rope bundling roller and the second spiral rope bundling roller are sequentially arranged in a rope bundling box through a transmission shaft respectively, a driving shaft, the third rope pulley, the fourth rope pulley and a control block are arranged on the rope bundling box at the end of the wheel-shaped rope bundling roller, the fourth rope pulley is arranged on the second rope pulley support, the third rope pulley, the fourth rope pulley and the control block can move left and right, a driven shaft and the fifth rope pulley are arranged on the rope bundling box at the end of the second spiral rope bundling roller, and the driving shaft and the driven shaft are respectively provided with the second rope pulley support.

The driving shaft is connected with a first chain wheel on a long shaft of the rope binding roller through a first transmission chain, the long shaft of the rope binding roller is connected with a second transmission chain through a second chain wheel, the second transmission chain is connected with a driven shaft through a third chain wheel, a fourth chain wheel on a long shaft of the rope binding roller is connected with a fifth chain wheel through a third transmission chain, a transmission shaft, a bevel gear and a fourth transmission chain, and the fifth chain wheel, the fifth transmission chain, the sixth transmission chain and a seventh transmission chain respectively drive the wheel-shaped rope binding roller, the first spiral rope binding roller and the second spiral rope binding roller to rotate.

The transmission mechanism comprises a motor, a belt, a small belt wheel, a large belt wheel, a belt seat bearing and a main transmission shaft, wherein the motor and the belt seat bearing are both arranged at the lower part of the rope combining support, the small belt wheel is arranged on an output shaft of the motor and connected with the large belt wheel on the main transmission shaft through the belt, the main transmission shaft is arranged on the rope combining support through the belt seat bearing, and the main transmission shaft respectively drives a transmission shaft of the stranding member, a rotating shaft at one end of the rope combining wheel carrier and a driving shaft of the rope bundling device to operate through a transmission chain combination on the double chain wheels.

The utility model has the advantages that:

with this system thigh mechanism, plying mechanism and system rope mechanism make up the mode of operation in proper order, optimized traditional mode, realized connecting production, improved the efficiency of system rope, the labour that significantly reduces.

The whole strand making and rope making process is directly controlled by one motor, and the rope making device has the advantages of compact structure and small occupied area.

The coil plates in the stranding mechanism are arranged in two rows, and correspond to the two rows of rope combining wheel frames of the stranding mechanism and the two rows of rope binding boxes of the rope collecting mechanism, a plurality of strands of rope cables can be simultaneously manufactured, so that the processing amount of raw material fibers is increased, and the turnover space of rope strands is saved.

Drawings

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

FIG. 2 is a schematic view of the strand making mechanism of the present invention;

FIG. 3 is a schematic view of a strand making member of the present invention;

fig. 4 is a schematic view of the rope guiding device of the present invention;

fig. 5 is a schematic view of the stranding mechanism of the present invention;

fig. 6 is a schematic view of the transmission of the stranding mechanism of the present invention;

fig. 7 is a schematic view of a rope making mechanism of the present invention;

fig. 8 is a schematic structural view of the rope binding box and the rope binding device of the present invention.

In the figure: 1 strand making support, 2 transmission shafts, 3 coil plates, 4 coil supports, 5 first rope pulley supports, 6 rope arranging plates, 7 large rope arranging disks, 8 small rope arranging disks, 9 first rope arranging disk fixing supports, 10 second rope arranging disk fixing supports, 11 rope arranging disk fixing pins, 12 rope arranging disk fixing lugs, 13 rope combining wheel supports, 14 first rope pulleys, 15 rope penetrating fixing seats, 16 second rope pulleys, 17 rope combining supports, 18 rotating shafts, 19 rope bundling supports, 20 driving shafts, 21 driven shafts, 22 rope bundling boxes, 23 wheel-shaped rope bundling rollers, 24 first spiral rope bundling rollers, 25 second spiral rope bundling rollers, 26 third rope pulleys, 27 fourth rope pulleys, 28 fifth rope pulleys, 29 second rope pulley supports, 30 first transmission chains, 31 rope bundling roller long shafts, 32 first chain wheels, 33 second chain wheels, 34 second transmission chains, 35 third chain wheels, 36 fourth chain wheels, 37 third transmission chains, 38 fourth transmission chains, 39 fifth chain wheels, 40 a fifth transmission chain, 41 a sixth transmission chain, 42 a seventh transmission chain, 43 a motor, 44 a belt, 45 a small belt wheel, 46 a large belt wheel, 47 a belt seat bearing, 48 a main transmission shaft, 49 double chain wheels, 50 a transmission chain combination and 51 a control block.

Detailed Description

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

As shown in fig. 1 to 8, an efficient sisal hemp stranding and rope making integrated machine comprises a stranding mechanism, a stranding mechanism and a rope making mechanism which are connected in sequence;

the strand making mechanism comprises a strand making bracket 1 and a strand making component, wherein two ends of the strand making component are provided with transmission shafts 2, and the transmission shafts 2 are arranged on the strand making bracket 1 through bearings;

the stranding mechanism comprises a stranding wheel frame 13, a first rope wheel 14, a rope threading fixing seat 15, a second rope wheel 16 and a stranding bracket 17, wherein the first rope wheel 14 is uniformly arranged on the stranding wheel frame 13, one end of the stranding wheel frame 13 is provided with a rotating shaft 18, the rotating shaft 18 is connected with the stranding bracket 17 through a bearing, the other end of the stranding wheel frame is connected with the rope threading fixing seat 15, and the second rope wheel 16 is arranged on the rope threading fixing seat 15;

the rope making mechanism comprises a rope bundling support 19 and a rope bundling device, the rope bundling device is arranged in a rope bundling box 22 through a driving shaft 20 and a driven shaft 21, and the rope bundling box 22 is arranged on the rope bundling support 19 through the driving shaft 20 and the driven shaft 21;

the stranding member in the stranding mechanism, the rope combining wheel carrier 13 in the stranding mechanism and the rope binding device in the rope making mechanism are driven by the transmission mechanism to rotate.

The strand making component comprises a coil plate 3, a coil support 4, a first rope sheave support 5 and a rope arranging device, wherein two ends of the coil plate 3 are respectively connected with the end parts of a transmission shaft 2 through right-angle connecting plates, the coil support 4 is uniformly arranged on the surface of the coil plate 3 on the inner side of a right angle of each right-angle connecting plate, a rope arranging plate 6 is further arranged in the middle of the coil plate 3, the first rope sheave support 5 is arranged on the transmission shaft 2, the rope arranging device is arranged at one end, far away from the stranding mechanism, of the coil plate 3 and can generate tensile force on strands, and knotting or winding phenomena caused by the fact that the strands are combined to form a rope without the tensile force problem are avoided.

The rope arranging device comprises a big rope arranging disc 7, a small rope arranging disc 8, a first rope arranging disc fixing frame 9 and a second rope arranging disc fixing frame 10, the big rope guiding disc 7 and the small rope guiding disc 8 are arranged in parallel, the front side and the rear side of the small rope guiding disc 8 are respectively provided with a first rope guiding disc fixing frame 9 and a second rope guiding disc fixing frame 10, namely, a first rope-arranging disc fixing frame 9 is arranged between a big rope-arranging disc 7 and a small rope-arranging disc 8, the big rope-arranging disc 7, the small rope-arranging disc 8, the first rope-arranging disc fixing frame 9 and a second rope-arranging disc fixing frame are all connected and fixed with a rope-arranging disc fixing pin 11, the rope-arranging disc fixing pin 11 close to one end of the second rope-arranging disc fixing frame 10 is fixedly connected with a right-angle connecting plate through a rope-arranging disc fixing lug 12, the big rope dish 7 in the same direction as is all equipped with even aperture with little rope dish 8 in the same direction as, all be equipped with the centre bore on the intermediate position of first rope dish mount 9 in the same direction as and second rope dish mount 10 in the same direction as.

The rope binding device comprises a wheel-shaped rope binding roller 23, a first spiral rope binding roller 24, a second spiral rope binding roller 25, a third rope wheel 26, a fourth rope wheel 27, a fifth rope wheel 28 and a second rope wheel support 29, wherein the wheel-shaped rope binding roller 23, the first spiral rope binding roller 24 and the second spiral rope binding roller 25 are sequentially arranged in a rope binding box 22 through a transmission shaft respectively, a driving shaft 20, the third rope wheel 26, the fourth rope wheel 27 and a control block 51 are arranged on the rope binding box 22 at the end of the wheel-shaped rope binding roller 23, the fourth rope wheel 27 is arranged on the second rope wheel support 29, the third rope wheel 26, the fourth rope wheel 27 and the control block 51 can move left and right, a driven shaft 21 and a fifth rope wheel 28 are arranged on the rope binding box 22 at the end of the second spiral rope binding roller 25, and second rope wheel supports 29 are arranged on the driving shaft 20 and the driven shaft 21.

The driving shaft 20 is connected with a first chain wheel 32 on a long shaft 31 of the rope binding roller through a first transmission chain 30, the long shaft 31 of the rope binding roller is connected with a second transmission chain 34 through a second chain wheel 33, the second transmission chain 34 is connected with a driven shaft 21 through a third chain wheel 35, a fourth chain wheel 36 on the long shaft 31 of the rope binding roller is connected with a fifth chain wheel 39 through a third transmission chain 37, a transmission shaft, a bevel gear and a fourth transmission chain 38, and the fifth chain wheel 39, the fifth transmission chain 40, a sixth transmission chain 41 and a seventh transmission chain 42 respectively drive the wheel-shaped rope binding roller 23, the first spiral rope binding roller 24 and the second spiral rope binding roller 25 to rotate.

The transmission mechanism comprises a motor 43, a belt 44, a small belt pulley 45, a large belt pulley 46, a belt seat bearing 47 and a main transmission shaft 48, wherein the motor 43 and the belt seat bearing 47 are both arranged at the lower part of the rope combining support 17, the small belt pulley 45 is arranged on an output shaft of the motor 43, the small belt pulley 45 is connected with the large belt pulley 46 on the main transmission shaft 48 through the belt 44, the main transmission shaft 48 is arranged on the rope combining support 17 through the belt seat bearing 47, and the main transmission shaft 48 respectively drives the transmission shaft 2 of the stranding member, the rotating shaft 18 at one end of the rope combining wheel support 13 and the driving shaft 20 of the rope bundling device to operate through a transmission chain combination 50 on a double chain wheel 49.

The working principle of the device is that,

1. in the stranding mechanism:

the coil plate 3 is fixedly arranged on the strand making bracket 1 through bearings at two ends, and the raw material wire wheel can be placed on the coil support 4 by manually pushing and pulling the coil plate 3;

the coil support posts 4 are fixedly arranged on the coil plate 3 through nuts, and a plurality of coil support posts 4 can be used for placing a required number of raw material wire wheels;

the rope arranging device is arranged at one end of the raw material stranding mechanism, so that tension can be generated, and knotting or winding phenomena caused by the tension problem when the rope is stranded to be stranded are avoided;

during operation, place the raw materials line wheel of required system thigh on coil pillar 4, with raw materials line end of a thread pass in proper order greatly in the same direction as the aperture on rope dish 7, first in the same direction as the aperture in the middle of rope dish mount 9, the aperture on the small rope dish 8, the second is in the same direction as the aperture in the middle of rope dish mount 10, the aperture in the middle of coil plate 3, wear out the hole at the 5 middle parts of the first rope sheave support of keeping away from plying mechanism one end, pull out the roller department on the first rope sheave support 5, the roller department on the first rope sheave support 5 of lengthening to the other end again, walk around the hole that the roller passed first rope sheave support 5 middle part, wear out the sprocket to plying mechanism.

2. In the plying mechanism:

during operation, the stranded rope passes through the second rope wheel 16 from the strand making mechanism, passes through the hole on the rope threading fixing seat 15, penetrates into the rope combining wheel frame 13, passes through the first rope wheel 14 in the rope combining wheel frame 13, and penetrates out of the second rope wheel bracket 29 at the front end of the strand making mechanism.

3. In the rope making mechanism:

the wheel-shaped rope bundling roller 23 is arranged at the fixed position of the rope bundling box 22 and is used for uniformly winding the manufactured rope;

the first spiral rope bundling roller 24 and the second spiral rope bundling roller 25 are arranged at specific positions of the rope bundling box 22, ropes are wound on the circular ring-shaped tracks in a staggered mode, and then the ropes extend to the third rope pulley 26, the fourth rope pulley 27 and the fifth rope pulley 28, so that the second spiral rope bundling roller 25 can conveniently and uniformly collect the ropes;

the second rope wheel bracket 29 is arranged at two ends of the rope bundle box 22, the second rope wheel bracket 29 is arranged at one section close to the stranding mechanism, and the second rope wheel bracket 29 is also arranged at the other end of the rope bundle box 22;

the control block 51, the third rope pulley 26 and the fourth rope pulley 27 can move left and right, so that the ropes can be uniformly wound;

when the rope stranding machine works, a rope passing through the stranding mechanism penetrates through a hole of the driving shaft 20, the fourth rope pulley 27 connected with the driving shaft 20 penetrates through the fourth rope pulley 27 on the driven shaft 21, enters the hole of the driven shaft 21, and is wound around the first spiral rope bundling roller 24 and the second spiral rope bundling roller 25, then the third rope pulley 26 swings left and right through the fifth rope pulley 28 and the third rope pulley 26, the control block 51 limits the stroke, and finally the rope is wound on the wheel-shaped rope bundling roller 23 to be disassembled.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (6)

1. The utility model provides a high-efficient system strand system rope all-in-one of sisal hemp which characterized in that: comprises a stranding mechanism, a stranding mechanism and a rope making mechanism which are connected in sequence;

the strand making mechanism comprises a strand making support (1) and a strand making component, wherein transmission shafts (2) are arranged at two ends of the strand making component, and the transmission shafts (2) are installed on the strand making support (1) through bearings;

the stranding mechanism comprises a stranding wheel frame (13), a first rope wheel (14), a rope threading fixing seat (15), a second rope wheel (16) and a stranding support (17), wherein the first rope wheel (14) is uniformly arranged on the stranding wheel frame (13), one end of the stranding wheel frame (13) is provided with a rotating shaft (18), the rotating shaft (18) is connected with the stranding support (17) through a bearing, the other end of the stranding wheel frame is connected with the rope threading fixing seat (15), and the second rope wheel (16) is arranged on the rope threading fixing seat (15);

the rope making mechanism comprises a rope bundling support (19) and a rope bundling device, the rope bundling device is arranged in a rope bundling box (22) through a driving shaft (20) and a driven shaft (21), and the rope bundling box (22) is arranged on the rope bundling support (19) through the driving shaft (20) and the driven shaft (21);

the stranding member in the stranding mechanism, the rope combining wheel carrier (13) in the stranding mechanism and the rope binding device in the rope making mechanism are driven by the transmission mechanism to rotate.

2. The sisal hemp efficient stranding and rope making all-in-one machine as claimed in claim 1, is characterized in that: strand component, including coil plate (3), coil pillar (4), first rope sheave support (5) and in the same direction as the rope device, coil plate (3) both ends pass through the right angle connecting plate respectively with transmission shaft (2) end connection, evenly be equipped with coil pillar (4) on the face of the inboard coil plate of right angle (3) of right angle connecting plate, still be equipped with reason rope board (6) in the intermediate position of coil plate (3), be equipped with first rope sheave support (5) on transmission shaft (2), the one end of keeping away from straggling mechanism of coil plate (3) is equipped with in the same direction as the rope device.

3. The sisal hemp efficient stranding and rope making all-in-one machine as claimed in claim 2, wherein: the rope arranging device comprises a big rope arranging disc (7), a small rope arranging disc (8), a first rope arranging disc fixing frame (9) and a second rope arranging disc fixing frame (10), wherein the big rope arranging disc (7) and the small rope arranging disc (8) are arranged in parallel, the front side and the rear side of the small rope arranging disc (8) are respectively provided with the first rope arranging disc fixing frame (9) and the second rope arranging disc fixing frame (10), namely the first rope arranging disc fixing frame (9) is arranged between the big rope arranging disc (7) and the small rope arranging disc (8), the big rope arranging disc (7), the small rope arranging disc (8), the first rope arranging disc fixing frame (9) and the second rope arranging disc fixing frame are fixedly connected with a rope arranging disc fixing pin (11), the rope arranging disc fixing pin (11) close to one end of the second rope arranging disc fixing frame (10) is fixedly connected with a right-angle connecting plate through a rope arranging disc fixing lug (12), and even small holes are arranged on the big rope arranging disc (7) and the small rope arranging disc (8), and middle holes are formed in the middle positions of the first rope arranging disc fixing frame (9) and the second rope arranging disc fixing frame (10).

4. The sisal hemp efficient stranding and rope making all-in-one machine as claimed in claim 1, is characterized in that: the rope binding device comprises a wheel-shaped rope binding roller (23), a first spiral rope binding roller (24), a second spiral rope binding roller (25), a third rope pulley (26), a fourth rope pulley (27), a fifth rope pulley (28) and a second rope pulley support (29), wherein the wheel-shaped rope binding roller (23), the first spiral rope binding roller (24) and the second spiral rope binding roller (25) are sequentially arranged in a rope binding box (22) through transmission shafts respectively, a driving shaft (20), the third rope pulley (26), the fourth rope pulley (27) and a control block (51) are arranged on the rope binding box (22) at the end of the wheel-shaped rope binding roller (23), the fourth rope pulley (27) is arranged on the second rope pulley support (29), the third rope pulley (26), the fourth rope pulley (27) and the control block (51) can move left and right, a driven shaft (21) and the fifth rope pulley (28) are arranged on the rope binding box (22) at the end of the second spiral rope binding roller (25), and second rope wheel brackets (29) are arranged on the driving shaft (20) and the driven shaft (21).

5. The sisal hemp efficient stranding and rope making all-in-one machine as claimed in claim 4, wherein: the driving shaft (20) is connected with a first chain wheel (32) on a rope binding roller long shaft (31) through a first transmission chain (30), the rope binding roller long shaft (31) is connected with a second transmission chain (34) through a second chain wheel (33), the second transmission chain (34) is connected with a driven shaft (21) through a third chain wheel (35), a fourth chain wheel (36) on the rope binding roller long shaft (31) is connected with a fifth chain wheel (39) through a third transmission chain (37), a transmission shaft, a bevel gear and a fourth transmission chain (38), and the fifth chain wheel (39), the fifth transmission chain (40), the sixth transmission chain (41) and the seventh transmission chain (42) respectively drive the wheel-shaped rope binding roller (23), the first spiral rope binding roller (24) and the second spiral rope binding roller (25) to rotate.

6. The sisal hemp efficient stranding and rope making all-in-one machine as claimed in claim 1, is characterized in that: the transmission mechanism comprises a motor (43), a belt (44), a small belt wheel (45), a large belt wheel (46), a belt seat bearing (47) and a main transmission shaft (48), wherein the motor (43) and the belt seat bearing (47) are installed on the lower portion of the rope combining support (17), the small belt wheel (45) is arranged on an output shaft of the motor (43), the small belt wheel (45) is connected with the large belt wheel (46) on the main transmission shaft (48) through the belt (44), the main transmission shaft (48) is arranged on the rope combining support (17) through the belt seat bearing (47), and the main transmission shaft (48) respectively drives the transmission shaft (2) of the stranding member, the rotating shaft (18) at one end of the rope combining wheel support (13) and the driving shaft (20) of the rope binding device to operate through a transmission chain combination (50) on a double chain wheel (49).

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