CN218507985U - Upper and lower double-warp-beam device of water jet loom - Google Patents

Abstract

The utility model discloses a double warp beam device on a water jet loom, which comprises a frame component, an upper warp beam component, a lower warp beam component, an upper tension control system, a lower tension control system, an upper warp let-off power component, a lower warp let-off power component, an upper back beam component and a lower back beam component, wherein two ends of the upper warp beam component are respectively connected with warp let-off wallboards on two sides of the upper part of the frame component, two ends of the lower warp beam component are respectively connected with wallboards on two sides of the lower part of the frame component, the upper warp let-off power component is connected with the warp let-off wallboards, and the lower warp let-off power component is connected with the wallboards; one end of the upper tension control system is connected with the upper back beam assembly, the other end of the upper tension control system is connected with the rack assembly, one end of the lower tension control system is connected with the lower back beam assembly, and the other end of the lower tension control system is connected with the rack assembly. The device weaves through setting up two warp beams about on the frame subassembly, can satisfy different loom tensions, and application scope is wide, can promote the stability of weaving at hydraulic loom's weaving in-process, improves and weaves efficiency.

Description

Upper and lower double-warp-beam device of water jet loom

Technical Field

The utility model relates to a textile machinery equipment field, specific double warp shaft device about hydraulic loom that says so.

Background

The water jet loom is a novel shuttleless loom which utilizes water jet to complete weft insertion, and has the advantages of high weaving speed, high efficiency and wider application. When a water jet loom weaves complex fabrics such as shading cloth, double-layer velvet filling cloth and the like, warp yarns are not single any more, if the weaving is still carried out by using a single warp beam, the tension of the loom is single, the two kinds of warp yarns have different tensions, so that the serious warp breakage problem can occur, and in more serious cases, the weaving work can not be normally carried out, therefore, the double-warp-beam device is necessary for weaving the complex fabrics. As for the existing double-beam device, most of the devices are complex in structure and low in reliability, and due to the structural limitation and the height problem, the stability is poor, and certain safety risk exists. Further improvements and enhancements are needed in the art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a two warp axle devices from top to bottom of hydraulic loom, should be two warp axle devices from top to bottom simple structure reasonable, satisfy the different tension of loom, the stable performance, safe and reliable, convenient easy operation.

The utility model provides a technical scheme that its technical problem adopted is: an upper warp beam and lower warp beam device of a water-jet loom comprises a rack assembly, an upper warp beam assembly, a lower warp beam assembly, an upper tension control system, a lower tension control system, an upper warp let-off power assembly, a lower warp let-off power assembly, an upper back beam assembly and a lower back beam assembly, wherein two ends of the upper warp beam assembly are respectively connected with warp let-off wallboards on two sides of the upper part of the rack assembly; the upper back beam assembly is connected with the bases on two sides of the rack assembly, the lower back beam assembly is connected with the cushion block of the rack assembly, one end of the upper tension control system is connected with the upper back beam assembly, the other end of the upper tension control system is connected with the rack assembly, one end of the lower tension control system is connected with the lower back beam assembly, and the other end of the lower tension control system is connected with the rack assembly.

Further, still include the guide beam subassembly, the guide beam subassembly includes guide beam, left open locking support and right open locking support, the guide beam is connected with the left base and the right base of frame subassembly through left open locking support and right open locking support.

Further, the guide beam assembly is also provided with a safety protection device.

Further, the frame subassembly includes left wallboard, right wallboard, left base, right base, left let-off wallboard, right let-off wallboard, back beam cushion, preceding spacer, back spacer, middle support, transversely strengthen spacer one, transversely strengthen spacer two, connection card, connecting plate, cushion, enhancement support and lower margin, left side wallboard and right wallboard pass through preceding spacer, back spacer and middle leg joint constitution frame construction, left side wallboard and right wallboard rear are equipped with a back beam cushion respectively, left side base and left wallboard and back beam cushion are connected, left side base, left wallboard and back beam cushion interconnect constitution triangle-shaped connection structure, right side base and right wallboard and back beam cushion are connected, right side base, right wallboard and back beam cushion interconnect constitution triangle-shaped connection structure, left side let-off wallboard and left base connect, right let-off wallboard and right side let-off wallboard pass through a reinforcing spacer and two reinforcing spacers, two reinforcing blocks connect through a horizontal spacer and two reinforcing connection blocks, strengthen spacer and two reinforcing block and horizontal connection board.

Further, go up tension control system and include connecting rod, round pin axle, solid fixed ring, tension spring, the fixed lantern ring, tension bar, tension sensor and connecting block, the connecting rod is articulated with solid fixed ring through the round pin axle, gu fixed ring connects tension spring, the fixed lantern ring of tension spring connection, fixed lantern ring and tension spring are put with the tension bar cover, tension bar one end is equipped with tension sensor, tension sensor is connected with the connecting block.

Further, the upper back beam assembly comprises an upper fixed beam and an upper swing beam, and two ends of the upper fixed beam and the upper swing beam are respectively connected with the left base and the right base of the rack assembly; the lower back beam assembly comprises a lower fixed beam and a lower swinging beam, and the lower fixed beam and the lower swinging beam are respectively connected with a back beam cushion block of the rack assembly.

Further, go up the fixed beam and include the fixed beam body, go up through the roof beam baffle, go up the couple and go up through the roof beam pin, two go up the couple respectively with left base and right pedestal connection, go up through the roof beam baffle and be connected with the connecting rod, go up through the roof beam pin and be connected with left warp feeding wallboard.

Further, the lower part of the rack assembly is also provided with a height increasing platform assembly, and the height increasing platform assembly is fixedly connected with the left wall plate and the right wall plate of the rack assembly.

The utility model has the advantages that:

the utility model discloses can be effectual current situation such as solving current hydraulic loom upper and lower two warp beam device structure complicacy, the operation is inconvenient, and structural stability is poor weaves through two warp beams about setting up on the frame subassembly, satisfies different loom tension, and application scope is wide, can promote the stability of weaving at hydraulic loom's weaving in-process, improves and weaves efficiency, has very high economic benefits and practical value.

The device makes the warp pass through the guide beam redirecting through setting up the guide beam subassembly, passes through in the guide beam below, and the fixed beam is walked around in the bending again, gets into through last swinging boom and weaves the mouth, makes things convenient for operating personnel to connect the yarn operation when the broken yarn appears.

Drawings

Fig. 1 is a front view of the present invention;

FIG. 2 is a left side view of FIG. 1;

FIG. 3 is a front view of the rack assembly;

FIG. 4 is a left side view of FIG. 3;

FIG. 5 is a front view of the tension control system;

FIG. 6 is a left side view of FIG. 5;

FIG. 7 is a front view of the upper back beam assembly;

FIG. 8 is a front view of the guide beam assembly;

fig. 9 is a left side view of fig. 8.

In the figure:

1 a rack assembly; 101 a left wall panel; 102 a right wall panel; 103 left base; 104 a right base; 105 left let-off wall board; 106, sending right warp into the wallboard; 107 back beam cushion blocks; 108 front upper supporting step; 109, back upper supporting blocks; 110 front lower brace; 111 rear lower supporting gear; 112 an intermediate support; 113 ground feet; 114 a first transverse reinforcing brace; 115 a transverse reinforcing brace II; 116 connecting a card; 117 a connecting plate; 118 cushion blocks; 119 reinforcing the support;

2, an upper beam assembly; 3 a lower beam assembly;

4, an upper tension control system; 401 connecting rods; 402 a pin shaft; 403 securing the ring; 404 a tension spring; 405 a fixed collar; 406 a tension bar; 407 a tension sensor; 408 connecting blocks; 409 set screws;

5, a tension control system; 6, an upper warp feeding power assembly; 7 lower let-off power assembly;

8, fixing the beam; 801 fixing a beam body; 802 upper warp beam baffle; 803 is hooked; 804, stopping the rod through a beam;

9, an upper swing beam; 10 lower fixed beam; 11 lower swing beam;

12 guiding the beam assembly; 1201 a guide beam; 1202 left open locking bracket; 1203 right-opening locking bracket; 1204 a security device;

13 raising the stage assembly.

Detailed Description

The upper and lower double warp shaft devices of the water jet loom of the present invention will be described in detail with reference to the attached drawings. It should be noted that the components illustrated in the figures are not necessarily drawn to scale. Descriptions of well-known components and well-known techniques are omitted so as to not unnecessarily limit the present invention.

As shown in fig. 1 to fig. 9, the utility model discloses a two warp beam devices from top to bottom of hydraulic loom, including frame subassembly 1, go up warp beam subassembly 2, down warp beam subassembly 3, go up tension control system 4, tension control system 5 down, go up let-off power component 6, let-off power component 7 down, go up back beam subassembly and back beam subassembly down, the one end of going up warp beam subassembly 2 is connected with frame subassembly 1's left let-off wallboard 105, and the other end of going up warp beam subassembly is connected with frame subassembly's right let-off wallboard 106. One end of the lower beam assembly 3 is connected with a left wall plate 101 at the lower part of the frame assembly, and the other end is connected with a right wall plate 102 at the lower part of the frame assembly. An upper warp feeding power component 6 for transmitting power to the upper warp beam component 2 is connected with a warp feeding wall plate on one side of the upper part of the rack component 1, and is mainly used for providing power for the upper warp beam component. A lower warp feeding power component 7 for transmitting power to the lower warp beam component 3 is connected with a wall plate at one side of the lower part of the rack component 1; go up the back beam subassembly and the pedestal connection of frame subassembly both sides, back beam subassembly is connected with the cushion 118 of frame subassembly down, the one end and the last back beam subassembly of going up tension control system 4 are connected, are connected with last fixed beam 8 through connecting rod 401, and the other end passes through connecting block 408 and is connected with the left base 103 of frame subassembly 1, the one end and the back beam subassembly down of tension control system 5 are connected, are connected with lower fixed beam 10 through connecting rod 401, and the other end passes through the connecting block and is connected with the left wallboard 101 of frame subassembly.

The utility model discloses a two warp beam devices still are equipped with guide beam subassembly 12, make the warp pass through guide beam 1201 redirecting, pass through in guide beam 1201 below, and the fixed beam 8 is walked around in the bending again, finally gets into the fell of a loom through last swinging girder 9, and this design makes things convenient for operating personnel to connect the yarn operation when the broken yarn appears.

As shown in fig. 8 and 9, the guide beam assembly includes a guide beam 1201, a 1202 left-open locking bracket and 1203 a right-open locking bracket, and the guide beam 1201 is connected with the left base 103 and the right base 104 of the rack assembly 1 through the 1202 left-open locking bracket and 1203 a right-open locking bracket, so as to facilitate the installation and the removal of the guide beam 1201. The guiding beam assembly 12 is further provided with a safety device 1204 for ensuring safety in use, and the safety device 1204 is composed of a buckle and a protection ring and is fixed on the reinforcing support 119.

As shown in fig. 3 and 4, the rack assembly 1 adopts a building block type overlapping scheme, the whole rack assembly forms modularization, serialization and universalization, and has high universality and interchangeability, the rack assembly comprises a 101 left wall plate, a 102 right wall plate, a 103 left base, a 104 right base, a 105 left let-off wall plate, a 106 right let-off wall plate, a 107 back beam cushion block, a 108 front upper supporting block, a 109 back upper supporting block, a 110 front lower supporting block, a 111 back lower supporting block, a 112 middle support, a 114 transverse reinforcing supporting block I, a 115 transverse reinforcing supporting block II, a 116 connecting clamp, a 117 connecting plate, a 118 cushion block, a 119 reinforcing support and 113 ground feet, the left wall plate and the right wall plate are connected through the front upper supporting block, the front lower supporting block, the back upper supporting block, the back lower supporting block and the middle support to form a frame structure, a back beam cushion block is respectively arranged behind the left wall plate and the right wall plate, the left base is connected with the left wall plate and the back beam cushion block, the left wall plate base, the left wall plate and the back beam base are connected with each other to form a triangular connection structure, and the triangular cushion block of the rack assembly is improved in firmness. The right side base is connected with right wallboard and back beam cushion, right side base, right wallboard and back beam cushion interconnect constitute triangle-shaped connection structure, a left side let-off wallboard and left pedestal connection, the right side let-off wallboard and right pedestal connection, a left side let-off wallboard and right let-off wallboard are connected through horizontal enhancement kicker one and horizontal enhancement kicker two, transversely strengthen kicker one and transversely strengthen kicker two and connect the card through two connecting cards, transversely strengthen kicker two and pass through connecting plate, cushion, strengthen supporting and left base and right pedestal connection, frame subassembly 1 forms closed frame, stable in structure.

The upper warp beam assembly 2 is arranged right above the lower warp beam assembly 3, a gravity center projection point formed by the upper warp beam assembly 2, the left base 103, the right base 104, the left let-off wall plate 105, the right let-off wall plate 106, the transverse reinforcing first supporting stop 114, the transverse reinforcing second supporting stop 115 and the reinforcing support 119 is positioned in front of the lower warp beam assembly 3, and the whole loom is more stable. The first transverse reinforcing supporting rib 114 and the second transverse reinforcing supporting rib 115 are connected through two connecting clamps 116 to form a reinforcing structure, so that the rigidity and the strength of the integral structure of the weaving machine are better.

The upper tension control system 4 and the lower tension control system 5 take the same configuration. As shown in fig. 5 and 6, the upper tension control system 4 includes a connecting rod 401, a pin 402, a fixing ring 403, a tension spring 404, a fixing collar 405, a tension rod 406, a tension sensor 407, and a connecting block 408, the connecting rod 401 is hinged to the fixing ring 403 through the pin 402, the fixing ring 403 is connected to the tension spring 404, the tension spring 404 is connected to the fixing collar 405, the fixing collar and the tension spring are sleeved to the tension rod, one end of the tension rod 406 is provided with the tension sensor 407, and the tension sensor 407 is connected to the connecting block 408. Wherein the connecting rod 401 and the fixing ring 403 are hinged together by a pin 402, and the relative rotation of the connecting rod 401 and the fixing ring 403 is prevented by the locking of the set screw 409.

The upper back beam assembly comprises an 8 upper fixed beam and a 9 upper swinging beam, and two ends of the 8 upper fixed beam and the 9 upper swinging beam are respectively connected with a left base and a right base of the rack assembly; the lower back beam assembly comprises a lower fixing beam 10 and a lower swinging beam 11, and the lower fixing beam and the lower swinging beam 11 are respectively connected with a back beam cushion block of the rack assembly.

As shown in fig. 7, the upper fixed beam includes an upper fixed beam body 801, an upper warp beam baffle plate 802, upper hooks 803, and an upper warp beam baffle rod 804, the two upper hooks 803 are respectively connected to the left base 103 and the right base, the upper warp beam baffle plate 802 is connected to the connecting rod 401, and the upper warp beam baffle rod 804 is connected to the left warp feeding wall panel 105. When the upper fixed beam 8 is placed on the upper hook 803, the upper warp beam stopper 804 cooperates with the upper warp beam stopper 802 to prevent the upper fixed beam 8 from rotating and prevent the upper swing beam 9 from drooping.

As shown in fig. 2, a height increasing platform assembly 13 is further disposed at the lower portion of the rack assembly, and the height increasing platform assembly 13 is fixedly connected to the left wall plate 101 and the right wall plate 102 of the rack assembly 1.

The utility model discloses can be effectual solve about the current hydraulic loom two warp shaft device structure complicated, the operation is inconvenient, current situation such as structural stability difference, the utility model discloses can promote the stability of weaving at hydraulic loom's weaving in-process, improve and weave efficiency, have very high economic benefits and practical value.

The foregoing is merely illustrative of some of the principles of the present invention and the description is not intended to limit the invention to the specific constructions and applications shown, so that all modifications and equivalents that may be utilized are within the scope of the invention.

Other technical features than those described in the specification are known to those skilled in the art.

Claims (8)

1. An upper warp beam and lower warp beam device of a water jet loom is characterized by comprising a rack assembly, an upper warp beam assembly, a lower warp beam assembly, an upper tension control system, a lower tension control system, an upper warp feeding power assembly, a lower warp feeding power assembly, an upper back beam assembly and a lower back beam assembly, wherein two ends of the upper warp beam assembly are respectively connected with warp feeding wallboards on two sides of the upper part of the rack assembly; the upper back beam assembly is connected with the bases on two sides of the rack assembly, the lower back beam assembly is connected with the cushion blocks of the rack assembly, one end of the upper tension control system is connected with the upper back beam assembly, the other end of the upper tension control system is connected with the rack assembly, one end of the lower tension control system is connected with the lower back beam assembly, and the other end of the lower tension control system is connected with the rack assembly.

2. The upper and lower double-warp-beam device of the water jet loom as claimed in claim 1, further comprising a guide beam assembly, wherein the guide beam assembly comprises a guide beam, a left-open type locking bracket and a right-open type locking bracket, and the guide beam is connected with the left base and the right base of the frame assembly through the left-open type locking bracket and the right-open type locking bracket.

3. The double warp beam apparatus of water jet loom as claimed in claim 2, wherein the guide beam assembly is further provided with a safety guard.

4. The upper and lower double-warp-beam device of the water jet loom according to claim 1 or 2, wherein the frame assembly comprises a left wall plate, a right wall plate, a left base, a right base, a left let-off wall plate, a right let-off wall plate, a back beam cushion block, a front upper brace, a back upper brace, a front lower brace, a back lower brace, a middle support, a first lateral reinforcement brace, a second lateral reinforcement brace, a connecting clip, a connecting plate, a cushion block, a reinforcement support and a ground foot, wherein the left wall plate and the right wall plate are connected through the front upper brace, the front lower brace, the back upper brace, the back lower brace and the middle support to form a frame structure, the back beam cushion block is arranged behind the left wall plate and the right wall plate respectively, the left base is connected with the left wall plate and the back cushion block, the left base, the left wall plate and the back beam cushion block are connected to form a triangular connecting structure, the right base is connected with the right wall plate and the back beam cushion block, the right base is connected with the right base through the left base, the right base is connected with the left base through the left base and the left base through the reinforcing brace, the reinforcing plate and the back beam cushion block, the right base is connected with the left base through the first lateral reinforcement brace and the second lateral reinforcement brace, the left base, and the left base, and the middle support brace, and the middle support.

5. The upper and lower double-warp-beam device of the water jet loom as claimed in claim 1 or 2, wherein the upper tension control system comprises a connecting rod, a pin shaft, a fixing ring, a tension spring, a fixing collar, a tension rod, a tension sensor and a connecting block, the connecting rod is hinged to the fixing ring through the pin shaft, the fixing ring is connected with the tension spring, the tension spring is connected with the fixing collar, the fixing collar and the tension spring are sleeved with the tension rod, the tension rod is provided with the tension sensor at one end, and the tension sensor is connected with the connecting block.

6. The upper and lower double-warp-beam device of the water jet loom as claimed in claim 1, wherein the upper back beam assembly comprises an upper fixed beam and an upper swing beam, and both ends of the upper fixed beam and the upper swing beam are respectively connected with the left base and the right base of the frame assembly; the lower back beam assembly comprises a lower fixed beam and a lower swinging beam, and the lower fixed beam and the lower swinging beam are respectively connected with a back beam cushion block of the rack assembly.

7. The upper and lower double-warp-beam device of the water-jet loom as claimed in claim 6, wherein the upper fixed beam comprises an upper fixed beam body, an upper warp-beam baffle, an upper hook and an upper warp-beam stop lever, the two upper hooks are respectively connected with the left base and the right base, the upper warp-beam baffle is connected with the connecting rod, and the upper warp-beam stop lever is connected with the left warp-feeding wall plate.

8. The upper and lower double-beam device of the water jet loom as claimed in claim 1, wherein the lower part of the frame assembly is further provided with a height increasing platform assembly, and the height increasing platform assembly is fixedly connected with the left wall plate and the right wall plate of the frame assembly.

Images