CN211003962U - Air splicer for chemical fiber yarn winding machine - Google Patents

Abstract

The utility model discloses an air splicer for chemical fiber yarn cone winder, including splicer body and automatic water supply mechanism, the splicing chamber has been seted up to the inside of splicer body, and the both sides of splicer body install the clamp splice respectively, one side of clamp splice is fixed with the sheet rubber, and the opposite side of clamp splice is fixed with the blade, the inside gomphosis of splicer body has the water smoke pipe, and the bottom of water smoke pipe is connected with the water storage box, be fixed connection between water storage box and the splicer body, and the inlet tube has been seted up on the top of water storage box. The utility model discloses in, lifting the support through the water level and moving floating ball rebound, floating ball is driving the sealing plug rebound, can fill water when the water storage box, the sealing plug is automatic to plug up its inlet tube, and when the water level descends, floating ball descends and is driving the sealing plug and descend, automatic opens the inlet tube and intake, has changed need manual work from time to time in the past and has added water the phenomenon, and has prevented that the water storage box does not have the yarn quality of twisting that water caused from declining.

Description

Air splicer for chemical fiber yarn winding machine

Technical Field

The utility model relates to a splicer technical field especially relates to a chemical fiber yarn air splicer for cone winder.

Background

In the winding process of the existing cotton spinning factory, the splicer is used for performing knotless connection on the broken ends of the yarns in connection, the strength, the fineness, the knot forming rate and the appearance of the connection part all influence the working efficiency and the finished product quality of the spun yarns, and the water mist air splicer is used for improving the strength and the knot forming rate of the yarn splicing and twisting part.

When the existing air splicer for a chemical fiber yarn winder works and is used, the water tank at the bottom end is often incapable of being sprayed out due to the fact that the water level is too low, so that the effective utilization rate of the water tank is low, water needs to be added manually in an indefinite manner, and the workload is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current air splicer for chemical fiber yarn cone winder, when its work was used, the water tank of bottom often will be unable blowout because of the water level is too low water appearing to the availability factor that has leaded to the water tank is low, needs the manual work of indefinite form to add water, has improved the shortcoming of work load, and the air splicer for chemical fiber yarn cone winder who provides.

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

an air splicer for a chemical fiber yarn winder comprises a splicer body and an automatic water supplementing mechanism, wherein a splicing cavity is formed in the splicer body, clamping blocks are respectively installed on two sides of the splicer body, a rubber sheet is fixed on one side of each clamping block, a blade is fixed on the other side of each clamping block, a water spray pipe is embedded in the splicer body, the bottom end of the water spray pipe is connected with a water storage tank, the water storage tank is fixedly connected with the splicer body, a water inlet pipe is formed in the top end of the water storage tank, the automatic water supplementing mechanism is arranged at the bottom end of the water inlet pipe, a supporting plate is arranged in the automatic water supplementing mechanism and fixedly connected with the water storage tank, a first chute is embedded and connected to one side, close to the central line of the water inlet pipe, of the supporting plate, a first sliding block is sleeved and connected in the first chute, and a sealing plug is fixedly connected to the other side of the first sliding block, the sealing plug is connected with the inlet tube relatively, and the bottom of sealing plug is connected with the floating ball, the bottom arrangement of water storage box has fixed establishment, and the both sides arrangement of water storage box has disassembly body.

As a further description of the above technical solution:

the sealing plug is fixedly connected with the floating ball, and a sliding structure is formed between the sealing plug and the first sliding groove.

As a further description of the above technical solution:

the fixing mechanism is characterized in that the supporting plate is arranged in the fixing mechanism, a first supporting rod is connected to one side of the supporting plate, a rotating shaft is fixedly connected to the other side of the first supporting rod, a second supporting rod is fixedly connected to the other side of the rotating shaft, a clamping groove is welded to one side of the second supporting rod, a first clamping plate is connected to the clamping groove in an sleeved mode, a hand screwing bolt is connected to the top end of the clamping groove in a threaded mode, and the hand screwing bolt is movably connected with the first clamping plate.

As a further description of the above technical solution:

the supporting plate is connected with the first supporting rod in a welding mode, and the first supporting rod forms a rotating structure with the second supporting rod through the rotating shaft.

As a further description of the above technical solution:

the inside of the dismounting mechanism comprises a second sliding groove, the second sliding groove and the supporting plate are integrally connected through a groove, a second sliding block is connected in the second sliding groove in an sleeved mode, the top end of the second sliding block is connected with a second clamping plate in a welded mode, two sides of the second sliding groove are fixedly connected with return springs respectively, and the return springs are fixedly connected with the second sliding block.

As a further description of the above technical solution:

the second sliding block is directly movably connected with the second sliding groove, and the second sliding block forms an elastic telescopic structure with the second sliding groove through a return spring.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, lifting the support through the water level and moving floating ball rebound, floating ball is driving the sealing plug rebound, can fill water when the water storage box, the sealing plug is automatic to plug up its inlet tube, and when the water level descends, floating ball descends and is driving the sealing plug and descend, automatic opens the inlet tube and intake, has changed need manual work from time to time in the past and has added water the phenomenon, and has prevented that the water storage box does not have the yarn quality of twisting that water caused from declining.

2. The utility model discloses in, through manual twisting hand bolt of twisting, can fix the draw-in groove on chemical fiber yarn winding machine, and it is convenient to install, through axis of rotation and first bracing piece, can be free carry out parallel translation with the device rotatory, make it use more in a flexible way.

3. The utility model discloses in, stir two second splint through manual, can convenient and fast dismantle and install water storage box and splicer body, the maintenance and the inspection of the later stage splicer body of being convenient for makes its maintenance labour saving and time saving.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the side view of the automatic water replenishing mechanism of the present invention;

fig. 3 is a schematic structural view of the side view of the middle dismounting mechanism of the present invention.

Illustration of the drawings:

1. a splicer body; 2. splicing the cavity; 3. a clamping block; 4. a rubber sheet; 5. a blade; 6. a water mist pipe; 7. a water storage tank; 8. a water inlet pipe; 9. an automatic water replenishing mechanism; 901. a support plate; 902. a first chute; 903. a first slider; 904. a sealing plug; 905. a floating ball; 10. a fixing mechanism; 1001. a support plate; 1002. a first support bar; 1003. a rotating shaft; 1004. a second support bar; 1005. a card slot;

1006. a first splint; 1007. screwing the bolt by hand; 11. a disassembly mechanism; 1101. a second chute; 1102. a second slider; 1103. a second splint; 1104. a return spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-3, an air splicer for a chemical fiber yarn winder comprises a splicer body 1 and an automatic water supply mechanism 9, wherein a splicing cavity 2 is arranged inside the splicer body 1, clamping blocks 3 are respectively arranged on two sides of the splicer body 1, a rubber sheet 4 is fixed on one side of each clamping block 3, a blade 5 is fixed on the other side of each clamping block 3, a water mist pipe 6 is embedded inside the splicer body 1, the bottom end of the water mist pipe 6 is connected with a water storage tank 7, the water storage tank 7 is fixedly connected with the splicer body 1, the top end of the water storage tank 7 is provided with a water inlet pipe 8, the automatic water supply mechanism 9 is arranged at the bottom end of the water inlet pipe 8, the automatic water supply mechanism 9 comprises a support plate 901 inside, the support plate 901 is fixedly connected with the water storage tank 7, and a first chute 902 is embedded on one side of the support plate 901 close to the central line of the water inlet pipe 8, first slider 903 is sleeved and connected in first chute 902, and the opposite side fixedly connected with sealing plug 904 of first slider 903, be connected relatively between sealing plug 904 and the inlet tube 8, and the bottom of sealing plug 904 is connected with floating ball 905, and settle the bottom of water storage box 7 has fixed establishment 10, and settle the both sides of water storage box 7 has disassembly body 11, and floating ball 905 can drive sealing plug 904 upward movement through buoyancy.

Further, the sealing plug 904 is fixedly connected with the floating ball 905, and the sealing plug 904 forms a sliding structure with the first sliding groove 902 through the sealing plug 904, so that the water inlet pipe 8 can be automatically blocked and opened.

Further, the inside of the fixing mechanism 10 includes a supporting plate 1001, one side of the supporting plate 1001 is connected with a first supporting rod 1002, the other side of the first supporting rod 1002 is fixedly connected with a rotating shaft 1003, the other side of the rotating shaft 1003 is fixedly connected with a second supporting rod 1004, one side of the second supporting rod 1004 is connected with a clamping groove 1005 in a welding mode, a first clamping plate 1006 is connected in the clamping groove 1005 in an sleeved mode, the top end of the clamping groove 1005 is connected with a hand-screwed bolt 1007 in a threaded mode, and the hand-screwed bolt 1007 is movably connected with the first clamping plate 1006.

Further, be welded connection between layer board 1001 and first bracing piece 1002, and constitute revolution mechanic between first bracing piece 1002 through axis of rotation 1003 and the second bracing piece 1004, hand screw bolt 1007 is twisted to hand, can extrude first splint 1006 and fix draw-in groove 1005 on chemical fibre yarn winder.

Further, the inside of the detaching mechanism 11 includes a second chute 1101, and the second chute 1101 and the supporting plate 1001 form an integrated connection through a slot, a second slider 1102 is sleeved in the second chute 1101, a second clamping plate 1103 is welded to the top end of the second slider 1102, return springs 1104 are fixedly connected to two sides of the second chute 1101 respectively, and the return springs 1104 and the second slider 1102 are fixedly connected, so that the second slider 1102 can be extruded to move towards the center line direction of the supporting plate 1001 through the elasticity of the return springs 1104.

Further, the second slider 1102 is directly movably connected with the second sliding groove 1101, and the second slider 1102 forms an elastic telescopic structure with the second sliding groove 1101 through the return spring 1104, so that the device is convenient to detach and mount.

The working principle is as follows: when in use, firstly, the hand-operated screwing bolt 1007 is manually screwed, the clamping groove 1005 can be fixed on a chemical fiber yarn winding machine, the first supporting rod 1002 can be driven to rotate through the rotating shaft 1003, so that the device can freely move and rotate in parallel, when in use, two yarn sand tails are alternately placed in the splicing cavity 2, then the two yarns are clamped by the clamping block 3, the two yarns are cut into two yarn tails with certain length by the blade 5, the splicing device body 1 is internally provided with the untwisting pipe, the yarn tails are sprayed into the untwisting cavity from the untwisting pipe through compression ventilation, the yarn tails are untwisted into parallel fiber bundles under the action of compressed air, the floating ball 905 moves upwards through the rising of the water level, the floating ball 905 drives the sealing plug 904 to move upwards, when the water storage tank 7 is filled with water, the sealing plug 904 automatically plugs the water inlet pipe 8, and when the water level descends, the decline of floating ball 905 is driving sealing plug 904 to descend, and automatic opening inlet tube 8 is intake, keeps the water yield of water storage box 7 sufficient, when needs dismantle the maintenance or when removing to the device, through two second splint 1103 of manual stirring, second splint 1103 slides in second spout 1101 through second slider 1102, loosens its water storage box 7 and splicer body 1, the maintenance in the later stage of being convenient for.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. An air splicer for a chemical fiber yarn winder comprises a splicer body (1) and an automatic water replenishing mechanism (9), and is characterized in that a splicing cavity (2) is formed in the splicer body (1), clamping blocks (3) are respectively installed on two sides of the splicer body (1), a rubber sheet (4) is fixed on one side of each clamping block (3), a blade (5) is fixed on the other side of each clamping block (3), a water spray pipe (6) is embedded in the splicer body (1), the bottom end of each water spray pipe (6) is connected with a water storage tank (7), the water storage tank (7) is fixedly connected with the splicer body (1), a water inlet pipe (8) is formed in the top end of each water storage tank (7), the automatic water replenishing mechanism (9) is arranged at the bottom end of the water inlet pipe (8), and a support plate (901) is arranged in the automatic water replenishing mechanism (9), be fixed connection between backup pad (901) and water storage box (7), and the one side gomphosis that is close to inlet tube (8) central line of backup pad (901) is connected with first spout (902), first slider (903) have been cup jointed in first spout (902), and the opposite side fixedly connected with sealing plug (904) of first slider (903), be connected relatively between sealing plug (904) and inlet tube (8), and the bottom of sealing plug (904) is connected with floating ball (905), settle the bottom of water storage box (7) has fixed establishment (10), and settle the both sides of water storage box (7) has disassembly body (11).

2. The air splicer for the chemical fiber yarn winder according to claim 1, wherein the sealing plug (904) is fixedly connected with the floating ball (905), and the sealing plug (904) passes through the sealing plug (904) and forms a sliding structure with the first sliding groove (902).

3. The air splicer for the chemical fiber yarn winder according to claim 1, wherein the fixing mechanism (10) comprises a supporting plate (1001), one side of the supporting plate (1001) is connected with a first supporting rod (1002), the other side of the first supporting rod (1002) is fixedly connected with a rotating shaft (1003), the other side of the rotating shaft (1003) is fixedly connected with a second supporting rod (1004), one side of the second supporting rod (1004) is welded with a clamping groove (1005), a first clamping plate (1006) is sleeved in the clamping groove (1005), the top end of the clamping groove (1005) is in threaded connection with a hand-screwed bolt (1007), and the hand-screwed bolt (1007) is movably connected with the first clamping plate (1006).

4. An air splicer for a chemical fiber yarn winder according to claim 3, wherein the supporting plate (1001) is connected with the first supporting rod (1002) by welding, and the first supporting rod (1002) is connected with the second supporting rod (1004) by a rotating shaft (1003) to form a rotating structure.

5. The air splicer for the chemical fiber bobbin winder according to claim 1, wherein the inside of the detaching mechanism (11) comprises a second chute (1101), the second chute (1101) and the supporting plate (1001) are integrally connected through a slot, a second slider (1102) is sleeved in the second chute (1101), the top end of the second slider (1102) is connected with a second clamping plate (1103) in a welding manner, two sides of the second chute (1101) are respectively fixedly connected with a return spring (1104), and the return spring (1104) and the second slider (1102) are fixedly connected.

6. The air splicer for a chemical fiber yarn winder according to claim 5, wherein the second slider (1102) is directly movably connected with the second chute (1101), and the second slider (1102) forms an elastic telescopic structure with the second chute (1101) through a return spring (1104).

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