CN215561043U - Non-woven fabrics water thorn machine - Google Patents

Abstract

The application relates to the field of non-woven fabric production equipment, in particular to a non-woven fabric spunlace machine which comprises two mounting plates arranged at intervals, wherein a first carrying roller and a second carrying roller are vertically arranged between the two mounting plates at intervals; two guide rollers are arranged between the first carrying roller and the second carrying roller, non-woven fabric is wound between the two guide rollers in an S-shaped mode, a connecting plate is connected between the two guide rollers, and a driving assembly used for rotating the connecting plate is arranged on the mounting plate. Compared with the prior art, the scheme realizes double-sided spunlace of the non-woven fabric, and can improve the effect of spunlace reinforcement of the non-woven fabric. In addition, the tension degree of the non-woven fabric can be adjusted to reduce the influence of the relaxation of the non-woven fabric on the spunlace reinforcement effect.

Description

Non-woven fabrics water thorn machine

Technical Field

The application relates to the field of non-woven fabric production equipment, in particular to a non-woven fabric spunlace machine.

Background

The non-woven fabric is a fabric without warps and wefts, and the spunlace non-woven fabric is formed by jetting high-pressure micro water flow onto one or more layers of fiber nets through a spunlace head so as to mutually entangle fibers of the non-woven fabric, so that the non-woven fabric is reinforced and has certain strength.

In the traditional spunlace machine, the non-woven fabric is transmitted on a plurality of groups of transmission rollers, although the non-woven fabric is subjected to spunlace by corresponding spunlace heads, the non-woven fabric can only be subjected to spunlace on one surface, so that the reinforcing effect of the non-woven fabric through spunlace is poor, and improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to promote the reinforced effect of non-woven fabrics water thorn, this application provides a non-woven fabrics water thorn machine.

The application provides a non-woven fabrics water thorn machine adopts following technical scheme:

a non-woven fabric spunlace machine comprises two mounting plates which are arranged at intervals, wherein a first carrying roller and a second carrying roller are vertically arranged between the two mounting plates at intervals, non-woven fabric is wound between the first carrying roller and the second carrying roller in an S-shaped mode, a first spunlace head is arranged on one side of the non-woven fabric, which is far away from the first carrying roller, and a second spunlace head is arranged on one side of the non-woven fabric, which is far away from the second carrying roller; two guide rollers are arranged between the first carrying roller and the second carrying roller, non-woven fabric is wound between the two guide rollers in an S-shaped mode, a connecting plate is connected between the two guide rollers, and a driving assembly used for rotating the connecting plate is arranged on the mounting plate.

Through adopting above-mentioned technical scheme, the non-woven fabrics is around accepting between the roller at first accepting roller and second with the mode of S-shaped, and when the non-woven fabrics transmitted first accepting roller department, first spunlace head carries out the water thorn to the one side of non-woven fabrics, and when the non-woven fabrics reachd the second and accept the roller, the second spunlace head will be the another side of spunlace non-woven fabrics to realized the two-sided water thorn of non-woven fabrics, can promote the reinforced effect of non-woven fabrics water thorn. The non-woven fabrics is around between two guide rolls, and when the tension of non-woven fabrics was lower, the staff made two guide rolls rotate around the axis of rotation of connecting plate through drive assembly, and the tensioning degree of non-woven fabrics will change for reduce the influence that the non-woven fabrics relaxes the water thorn and consolidate the effect.

Preferably, the driving assembly comprises a threaded rod rotatably connected to a mounting plate, a sliding block is sleeved on the threaded rod in a threaded manner, a rack is arranged on the sliding block, a gear meshed with the rack is rotatably connected to the mounting plate, and the gear is coaxially connected with the connecting plate.

Through adopting above-mentioned technical scheme, the staff rotatory threaded rod, the slider will drive the rack and remove, and the rack just can take place to rotate together with the connecting plate to the connecting plate just can drive two guide rolls and rotate. And through the drive of threaded rod, can promote swivelling joint board's precision, the tensioning degree of the staff of being convenient for control non-woven fabrics.

Preferably, the mounting plate is further provided with a limiting rod penetrating through the sliding block, and the limiting rod is parallel to the threaded rod.

Through adopting above-mentioned technical scheme, the gag lever post can restrict the slider and follow the threaded rod and rotate, and the position of rack can be more stable to can make the rack drive gear rotation smoothly.

Preferably, two baffles are arranged between the two mounting plates at intervals, and the arrangement direction of the two baffles is perpendicular to the arrangement direction of the two mounting plates.

Through adopting above-mentioned technical scheme, the space that two mounting panels and two baffles enclose can prevent the spill of water to reduce staff to equipment surrounding work environment's clearance.

Preferably, the side edge of the baffle is connected with the mounting plate on the same side through a bolt.

Through adopting above-mentioned technical scheme, the staff of being convenient for of setting up of bolt is dismantled the baffle from the mounting panel to possess the operation of maintenance and clearance operation of broad operating space.

Preferably, the one baffle is provided with a viewing port.

Through adopting above-mentioned technical scheme, the back is installed to the baffle, and the staff can obtain the field of vision of position between two mounting panels through the viewing aperture, and the staff of being convenient for controls the tensioning degree of non-woven fabrics.

Preferably, a feeding roller is arranged above the first receiving roller, and the height of the axis of the feeding roller is greater than that of the top of the baffle.

Through adopting above-mentioned technical scheme, the setting of guide roll can make the non-woven fabrics get into between two mounting panels with the horizontally position, avoids the friction with the baffle top to avoid the non-woven fabrics to influence the quality because of rubbing with the baffle.

Preferably, a discharge roller is arranged below the second carrying roller.

Through adopting above-mentioned technical scheme, the ejection of compact direction of discharge roller can change the non-woven fabrics makes the feeding and the ejection of compact opposite direction of non-woven fabrics, and the non-woven fabrics can smooth and easy transmission between non-woven fabrics processing equipment.

In summary, the present application includes at least one of the following beneficial technical effects:

through the arrangement of the first carrying roller, the first spunlace heads, the second punishment carrying roller and the second spunlace heads, the two sides of the non-woven fabric can be subjected to spunlace, so that the spunlace reinforcement effect of the non-woven fabric can be improved;

through the arrangement of the guide roller, the connecting plate and the driving assembly, the tensioning degree of the non-woven fabric can be adjusted, and the influence of the relaxation of the non-woven fabric on the spunlace reinforcement effect can be reduced;

through the arrangement of the baffle, water splashed by the spunlace non-woven fabric can be blocked, so that the cleaning of working environment around equipment by workers is reduced;

through the setting of feed roll and discharge roller, the non-woven fabrics can break away from the contact with the baffle to make the non-woven fabrics can transmit smoothly.

Drawings

FIG. 1 is a schematic view of the overall structure of a nonwoven spunlace machine in an embodiment of the present application;

FIG. 2 is a schematic sectional view mainly showing a nonwoven fabric conveyance path;

fig. 3 is an enlarged schematic view of a portion a of fig. 1, mainly showing a driving assembly.

Description of reference numerals: 1. mounting a plate; 2. a spunlace mechanism; 21. a first receiving roller; 22. a first hydroentangling head; 23. a second receiving roller; 24. a second hydroentangling head; 3. an adjustment mechanism; 31. a guide roller; 32. a connecting plate; 33. a drive assembly; 331. a threaded rod; 332. a slider; 333. a limiting rod; 334. a rack; 335. a gear; 336. a knob; 4. a baffle plate; 41. a viewing port; 42. a bolt; 5. a feed roll; 6. and a discharging roller.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses non-woven fabrics water thorn machine. Referring to fig. 1 and 2, the spunlace machine comprises two mounting plates 1 arranged at intervals along the horizontal direction, a spunlace mechanism 2 and an adjusting mechanism 3 are arranged between the two mounting plates 1, the spunlace mechanism 2 is used for spunlacing the non-woven fabric, and the adjusting mechanism 3 is used for adjusting the tensioning degree of the non-woven fabric.

Referring to fig. 2, the spunlace mechanism 2 comprises a first receiving roller 21 and a second receiving roller 23 which are sequentially arranged from top to bottom at intervals, the first receiving roller 21 and the second receiving roller 23 are rotatably connected with the mounting plates 1 on two sides, and the non-woven fabric is wound between the first receiving roller 21 and the second receiving roller 23 in an S-shaped manner. First water stabs 22 are arranged on one side of the first bearing roller 21 in the horizontal direction at intervals, two ends of each first water stabs 22 are connected with the two mounting plates 1 respectively, second water stabs 24 are arranged on one side of the second bearing roller 23 in the horizontal direction at intervals, two ends of each second water stabs 24 are connected with the two mounting plates 1 respectively, and projections of the first water stabs 22 in the height horizontal plane of the second bearing roller 23 and the second water stabs 24 are located on two sides of the second bearing roller 23 respectively.

The worker winds the nonwoven fabric around the first receiving roller 21 and the second receiving roller 23 in an S-shaped manner, and the portion of the nonwoven fabric wound around the first receiving roller 21 passes between the first receiving roller 21 and the first hydroentangling head 22, and the portion of the nonwoven fabric wound around the second receiving roller 23 passes between the second receiving roller 23 and the second hydroentangling head 24. In the process of non-woven fabric transmission, when the non-woven fabric passes through the first receiving roller 21, one side surface of the non-woven fabric is subjected to spunlace reinforcement by the first spunlace heads 22, and when the non-woven fabric is transmitted to the second receiving roller 23, the other side surface of the non-woven fabric is subjected to spunlace by the second spunlace heads 24, so that the spunlace reinforcement effect of the non-woven fabric can be improved.

Referring to fig. 1 and 2, the adjusting mechanism 3 includes two guide rollers 31 parallel to each other, the two guide rollers 31 are located between the first receiving roller 21 and the second receiving roller 23, and the nonwoven fabric is wound between the two guide rollers 31 in an S-shaped manner at a portion between the first receiving roller 21 and the second receiving roller 23. Two ends of the guide roller 31 are respectively provided with a connecting plate 32, the end part of the guide roller 31 is rotatably connected with one end of the connecting plate 32, the other end of the connecting plate 32 is rotatably connected with the other guide roller 31, and the two connecting plates 32 are respectively rotatably connected with the mounting plate 1 on the same side. One of the mounting plates 1 is provided with a driving assembly 33, and the driving assembly 33 is used for rotating the connecting plate 32 on the same side.

Referring to fig. 3, the driving includes rotating a threaded rod 331 connected to the mounting plate 1, the threaded rod 331 is horizontally disposed, a length direction of the threaded rod 331 is parallel to a side surface of the adjacent mounting plate 1, and the threaded rod 331 and the connection plate 32 are respectively located at both sides of the corresponding mounting plate 1. The threaded rod 331 is sleeved with a sliding block 332 in a threaded manner, the top of the sliding block 332 is fixedly connected with a rack 334, the length direction of the rack 334 is parallel to that of the threaded rod 331, the mounting plate 1 is rotatably connected with a gear 335 meshed with the rack 334, and the gear 335 is coaxially connected with the connecting plate 32. A knob 336 is also mounted on one end of threaded rod 331 to facilitate rotation of threaded rod 331 by the worker. The mounting plate 1 is further fixedly connected with a limiting rod 333, the limiting rod 333 is parallel to the threaded rod 331, meanwhile, the limiting rod 333 penetrates through the sliding block 332, the sliding block 332 is limited to rotate along with the threaded rod 331, the position of the rack 334 can be more stable, and the rack 334 can smoothly drive the gear 335 to rotate.

The staff holds knob 336 and rotates threaded rod 331, under the screw thread traction effect, slider 332 will take rack 334 horizontal migration, under the meshing effect of gear 335 rack 334, gear 335 just can rotate along with adjacent connecting plate 32 to two guide roll 31 just can rotate around the axis of rotation of connecting plate 32, the non-woven fabrics transmission distance around between two guide roll 31 changes, the tensioning degree of non-woven fabrics just can change, when the non-woven fabrics is comparatively lax, tensioning non-woven fabrics can reduce the influence that the non-woven fabrics lax was strengthened the water thorn effect. Through the driven mode of rotatory threaded rod 331, can have higher precision to rotate connecting plate 32, the tensioning degree of the staff of being convenient for control non-woven fabrics.

Referring to fig. 1, two baffle plates 4 are further arranged between the two mounting plates 1, the arrangement direction of the two baffle plates 4 is perpendicular to the arrangement direction of the two mounting plates 1, one baffle plate 4 is located on one side, away from the first receiving roller 21, of the first hydroentangling head 22, and the other baffle plate 4 is located on one side, away from the second receiving roller 23, of the second hydroentangling head 24. The two baffle plates 4 are positioned at the same height, the height of the top of the baffle plate 4 is higher than that of the top side of the first adapting roller 21, and the height of the bottom of the baffle plate 4 is lower than that of the lower side of the second adapting roller 23. In the spunlace process, water splashed by the spunlaces on the non-woven fabric is blocked in a space enclosed by the baffle 4 and the mounting plate 1, so that the cleaning of working environment around equipment by workers can be reduced.

Referring to fig. 1, one of the baffles 4 is provided with a viewing port 41, so that a worker can see the adjustment condition of the non-woven fabric on the two guide rollers 31 through the viewing port 41, and can provide reference for the worker to rotate the threaded rod 331, thereby facilitating the operation of the worker. In addition, the both sides of baffle 4 are connected with mounting panel 1 through bolt 42 respectively, and the setting of bolt 42 makes baffle 4 can follow and dismantles between two mounting panels 1, and the staff alright has more extensive operating space to maintain and the clearance operation.

Referring to fig. 2, a feeding roller 5 is further arranged above the first receiving roller 21 between the two mounting plates 1, the feeding roller 5 is parallel to the first receiving roller 21, two ends of the feeding roller 5 are respectively rotatably connected with the two mounting plates 1, the position of the rotating axis of the feeding roller 5 is higher than the position of the top of the baffle 4, the non-woven fabric is firstly wound on the feeding roller 5 and then wound on the first receiving roller 21, and the non-woven fabric can be separated from contact transmission with the top of the baffle 4 on one side, so that the quality of the non-woven fabric is prevented from being influenced by friction with the baffle 4.

Referring to fig. 2, a discharge roller 6 is rotatably connected between the two mounting plates 1 below the second receiving roller 23, and the nonwoven fabric wound around the second receiving roller 23 is discharged out of the space between the two mounting plates 1 through the discharge roller 6. The position of the rotating axis of the discharging roller 6 is lower than the position of the bottom of the baffle 4, and the non-woven fabric can avoid the collision with the bottom of the baffle 4. In addition, the non-woven fabric which bypasses the second receiving roller 23 bypasses the discharging roller 6 in an S-shaped mode, the non-woven fabric can be conveyed out from the two mounting plates 1 in a direction different from the conveying direction of the non-woven fabric which enters the two mounting plates 1, and the non-woven fabric can be smoothly conveyed between the non-woven fabric processing equipment.

The implementation principle of the embodiment of the application is as follows: the non-woven fabric sequentially bypasses the feeding roller 5, the first receiving roller 21, the two guide rollers 31, the second receiving roller 23 and the discharging roller 6 in an S-shaped mode, one side surface of the part of the non-woven fabric contacting with the first receiving roller 21 can be subjected to spunlace by the first spunlace heads 22, when the non-woven fabric is transmitted to the second receiving roller 23, the other side surface of the non-woven fabric can be subjected to spunlace by the second spunlace heads 24, the two surfaces of the non-woven fabric are subjected to spunlace, and therefore the spunlace reinforcing effect of the non-woven fabric can be improved.

The tensioning condition of non-woven fabrics is looked over through viewing aperture 41 on a side shield 4 to the staff, and when the non-woven fabrics was comparatively lax, the staff passed through rotary threaded rod 331, made two guide rollers 31 rotate around the axis of rotation of connecting plate 32, increased the transmission distance of non-woven fabrics between two guide rollers 31, and the tensioning degree of non-woven fabrics just can increase to reduce the influence that the non-woven fabrics is lax to the water thorn reinforcing effect.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A non-woven fabrics water thorn machine which characterized in that: the device comprises two mounting plates (1) which are arranged at intervals, wherein a first carrying roller (21) and a second carrying roller (23) are vertically arranged between the two mounting plates (1) at intervals, non-woven fabric is wound between the first carrying roller (21) and the second carrying roller (23) in an S-shaped mode, a first spunlace head (22) is arranged on one side of the non-woven fabric, which is far away from the first carrying roller (21), and a second spunlace head (24) is arranged on one side of the non-woven fabric, which is far away from the second carrying roller (23); two guide rollers (31) are arranged between the first receiving roller (21) and the second receiving roller (23), non-woven fabric is wound between the two guide rollers (31) in an S-shaped mode, a connecting plate (32) is connected between the two guide rollers (31), and a driving assembly (33) used for rotating the connecting plate (32) is arranged on the mounting plate (1).

2. A nonwoven spunlace machine according to claim 1, wherein: drive assembly (33) are including rotating threaded rod (331) of connection on an installation board (1), and threaded sleeve is equipped with slider (332) on threaded rod (331), is equipped with rack (334) on slider (332), and the last rotation of installation board (1) is connected with gear (335) with rack (334) meshing, and gear (335) and connecting plate (32) coaxial line are connected.

3. A nonwoven spunlace machine according to claim 2, wherein: the mounting plate (1) is further provided with a limiting rod (333) penetrating through the sliding block (332), and the limiting rod (333) is parallel to the threaded rod (331).

4. A nonwoven spunlace machine according to claim 1, wherein: two interval is equipped with two baffles (4) between mounting panel (1), and the direction of arranging of two baffles (4) is perpendicular with the direction of arranging of two mounting panels (1).

5. A nonwoven spunlace machine according to claim 4, wherein: the side edge of the baffle (4) is connected with the mounting plate (1) on the same side through a bolt (42).

6. A nonwoven spunlace machine according to claim 4, wherein: wherein the one baffle (4) is provided with an observation port (41).

7. A nonwoven spunlace machine according to claim 4, wherein: and a feeding roller (5) is arranged above the first receiving roller (21), and the height of the position of the axis of the feeding roller (5) is greater than that of the top of the baffle (4).

8. A nonwoven spunlace machine according to claim 7, wherein: a discharge roller (6) is arranged below the second carrying roller (23).

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