CN220412321U - Non-woven fabrics production material feeding unit - Google Patents

Abstract

The utility model discloses a non-woven fabric production feeding device, which relates to the technical field of non-woven fabric feeding devices and comprises a base, wherein driving belts are arranged at two ends of the inner wall of the base, and a propelling mechanism is arranged on the base and the driving belts and comprises a sliding assembly, a lifting assembly and a synchronizing assembly. According to the utility model, the driving motor drives the threaded rod to rotate so as to drive the first sliding block and the synchronous pressing plate to slide to the top end of the cut non-woven fabric, then the driving cylinder drives the synchronous pressing plate to slide down to the top end of the cut non-woven fabric, at the moment, the gear teeth of the rack and the gear are meshed with each other, the driving motor drives the synchronous pressing plate and the rack to slide again, the rack slides to drive the gear and the driving belt to rotate, the driving belt rotates so as to drive the cut non-woven fabric and the synchronous pressing plate to slide synchronously for discharging, and the cut non-woven fabric cannot rub with the upper surface of the driving belt to cause abrasion to cloth during discharging.

Description

Non-woven fabrics production material feeding unit

Technical Field

The utility model relates to the technical field of non-woven fabric feeding devices, in particular to a non-woven fabric production feeding device.

Background

The non-woven fabric has no warps and wefts, is very convenient to cut and sew, is light in weight and easy to shape, is deeply favored by handcrafted lovers, is a fabric formed by spinning without weaving, and is formed by only orienting or arranging textile short fibers or filaments at any time to form a fiber net structure and then reinforcing by adopting mechanical, thermal bonding or chemical methods; the non-woven fabric is characterized by short process flow, high production rate, high yield, low cost, wide application, multiple raw material sources and the like, and the non-woven fabric breaks through the traditional textile raw materials because the fibers are directly bonded together by a physical method instead of interweaving and braiding the yarns one by one.

When the non-woven fabric production material feeding unit among the prior art cuts the non-woven fabrics of production and sends out, the non-woven fabrics that is cut is passed through material feeding unit and is promoted the ejection of compact at the top face of drive belt generally, and the non-woven fabrics that is cut receives the frictional force on drive belt top and takes place the friction with it in ejecting process, and the frictional force that the non-woven fabrics received on the drive belt also can become great when material feeding unit's ejecting force is great, and great frictional force very easily makes the non-woven fabrics bottom receive wearing and tearing and damage for cloth production is not up to standard, based on this, has proposed a non-woven fabrics production material feeding unit.

Disclosure of Invention

The utility model aims at: in order to solve the problem that the bottom of the non-woven fabric discharging device is worn out due to the fact that the bottom of the non-woven fabric discharging device is rubbed with a driving belt when the non-woven fabric is pushed out in the prior art, the non-woven fabric production feeding device is provided.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the non-woven fabric production and feeding device comprises a base, wherein two ends of the inner wall of the base are provided with driving belts, the base and the driving belts are provided with a propelling mechanism, the propelling mechanism is used for propelling and driving cut non-woven fabrics to synchronously slide with the driving belts and send out, and the propelling mechanism comprises a sliding assembly, a lifting assembly and a synchronizing assembly;

the sliding component in the driving state drives the lifting component to synchronously slide;

the lifting assembly in a driving state drives the synchronous assembly to ascend or descend;

one of the synchronizing assemblies in the lowered state is rotatably connected with the outer wall of the other synchronizing assembly.

As still further aspects of the utility model: the sliding assembly comprises a first sliding chute, a motor, a threaded rod, a sliding shaft, a first sliding block and a first connecting shaft;

the utility model discloses a motor, including base, first spout, threaded rod, sliding shaft, first slider, threaded rod, sliding shaft, first spout symmetry set up in the top both sides of base, the motor install in one side of base, threaded rod, sliding shaft rotate respectively connect in two the inner wall both ends of first spout, the output of motor runs through the outer wall of base with one end fixed connection of threaded rod, the symmetry set up first slider respectively threaded connection in threaded rod, sliding connection in the outer wall of sliding shaft, first connecting shaft sets up in two the top of first slider.

As still further aspects of the utility model: the lifting assembly comprises an air cylinder, a second connecting shaft, a fixed block, a second sliding groove, a fixed shaft, a second sliding block and a connecting frame;

the fixed block symmetry set up in the both ends of base, the second spout is seted up respectively and is located two the top of fixed block, the fixed axle is connected in two the inner wall both ends of second spout, second slider sliding connection in the fixed axle, the linking bridge set up in the top of second slider, the cylinder connect in the other end of linking bridge, the output cover of cylinder is located the outer wall department of first connecting axle, the symmetry set up the second connecting axle set up respectively in two output one side of cylinder.

As still further aspects of the utility model: the synchronous component comprises a gear, a synchronous pressing plate and a rack;

the two gears are symmetrically arranged on two sides of the conveying roller on the inner side of the transmission belt, the synchronous pressing plate is fixedly connected between the two second connecting shafts, the racks are symmetrically arranged on two sides of the bottom end of the synchronous pressing plate, and the outer walls of the racks are rotationally connected with the outer walls of the gears.

As still further aspects of the utility model: and the height of the synchronous pressing plate is higher than the height of the top surface of the driving belt when the synchronous pressing plate slides to the lowest point.

As still further aspects of the utility model: the two cylinders are operated by an external control system to synchronously operate.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the driving motor drives the threaded rod to rotate so as to drive the first sliding block and the synchronous pressing plate to slide to the top end of the cut non-woven fabric, then the driving cylinder drives the synchronous pressing plate to slide down to the top end of the cut non-woven fabric, at the moment, the gear teeth of the rack and the gear are meshed with each other, the driving motor drives the synchronous pressing plate and the rack to slide again, the rack slides to drive the gear and the driving belt to rotate, the driving belt rotates so as to drive the cut non-woven fabric and the synchronous pressing plate to slide synchronously for discharging, and the cut non-woven fabric cannot rub with the upper surface of the driving belt to cause abrasion to cloth during discharging.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of another angle structure of the present utility model;

fig. 3 is a schematic diagram of the motor structure of the present utility model.

In the figure: 1. a base; 2. a transmission belt; 3. a synchronization component; 301. a gear; 302. a synchronous pressing plate; 303. a rack; 4. a sliding assembly; 401. a first chute; 402. a motor; 403. a threaded rod; 404. a slide shaft; 405. a first slider; 406. a first connecting shaft; 5. a lifting assembly; 501. a cylinder; 502. a second connecting shaft; 503. a fixed block; 504. a second chute; 505. a fixed shaft; 506. a second slider; 507. and a connecting frame.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1 to 3, in an embodiment of the present utility model, a feeding device for producing non-woven fabrics includes a base 1, two ends of an inner wall of the base 1 are provided with a driving belt 2, the base 1 and the driving belt 2 are provided with a pushing mechanism, the pushing mechanism is used for pushing and driving the cut non-woven fabrics and the driving belt 2 to slide synchronously and send out, and the pushing mechanism includes a sliding component 4, a lifting component 5 and a synchronizing component 3;

the sliding component 4 in a driving state drives the lifting component 5 to synchronously slide;

the lifting component 5 in a driving state drives the synchronous component 3 to ascend or descend;

one synchronizing assembly 3 in the lowered state is rotatably connected to the outer wall of the other synchronizing assembly 3.

In this embodiment: after the non-woven fabric is cut into a required shape by a cutting machine and is synchronously pushed out for collecting and finishing, a worker can drive the sliding component 4 to operate, the operating state sliding component 4 drives the lifting component 5 to synchronously slide, when the lifting component 5 slides to the top end of the cut fabric, the lifting component 5 is driven to operate, the operating state lifting component 5 drives the synchronizing component 3 to slide down to the top end surface of the cut fabric, at the moment, one synchronizing component 3 just slides down to be meshed with the outer wall of the other synchronizing component 3, then the sliding component 4 is driven to drive the lifting component 5 and one synchronizing component 3 to slide, one synchronizing component 3 slides to drive the other synchronizing component 3 to rotate, the other synchronizing component 3 rotates to drive the driving belt 2 to rotate, and the non-woven fabric placed on the driving belt 2 synchronously slides out of the feeding with one synchronizing component 3.

Referring to fig. 1 and 3, the sliding assembly 4 includes a first chute 401, a motor 402, a threaded rod 403, a sliding shaft 404, a first slider 405, and a first connecting shaft 406;

the first sliding grooves 401 are symmetrically formed in two sides of the top end of the base 1, the motor 402 is arranged on one side of the base 1, the threaded rods 403 and the sliding shafts 404 are respectively connected to two ends of the inner walls of the two first sliding grooves 401 in a rotating mode, the output ends of the motor 402 penetrate through the outer wall of the base 1 and are fixedly connected with one end of the threaded rods 403, the symmetrically arranged first sliding blocks 405 are respectively connected to the threaded rods 403 in a threaded mode and are connected to the outer wall of the sliding shafts 404 in a sliding mode, and the first connecting shafts 406 are arranged on the top ends of the two first sliding blocks 405.

In this embodiment: the driving motor 402 makes its operation, the motor 402 of running state drives threaded rod 403 synchronous rotation, threaded rod 403 rotates and drives first slider 405 to slide in the outer wall department of threaded rod 403, under the effect of synchronous subassembly 3, lifting unit 5, another first slider 405 is driven to slide along slide shaft 404 synchronous slip to one first slider 405, the staff drives first slider 405 through operating motor 402 forward or reverse rotation, synchronous subassembly 3, lifting unit 5 slides to the top of being cut the non-woven fabrics and drives its ejection of compact, after the ejection of compact is accomplished, drive motor 402 drives first slider 405 again and slides to the top of new being cut the non-woven fabrics and drive its ejection of compact, thereby constantly circulate the ejection of compact.

Referring to fig. 1 and 3, the lifting assembly 5 includes an air cylinder 501, a second connecting shaft 502, a fixed block 503, a second sliding groove 504, a fixed shaft 505, a second sliding block 506, and a connecting frame 507;

the fixed block 503 symmetry sets up in the both ends of base 1, and the second spout 504 is seted up on the top of two fixed blocks 503 respectively, and fixed axle 505 is connected in the inner wall both ends of two second spouts 504, and second slider 506 sliding connection is in fixed axle 505, and link 507 sets up in the top of second slider 506, and cylinder 501 is connected in the other end of link 507, and the outer wall department of first connecting axle 406 is located to the output cover of cylinder 501, and the second connecting axle 502 of symmetry setting sets up in the output one side of two cylinders 501 respectively.

In this embodiment: the motor 402 is operated to rotate, the first sliding block 405, the first connecting shaft 406, the air cylinder 501 and the synchronizing assembly 3 are driven to slide, the air cylinder 501 slides to drive the connecting frame 507 and the second sliding block 506 to synchronously slide along the fixed shaft 505, when the synchronizing assembly 3 and the air cylinder 501 reach the top end of the cut non-woven fabric, the air cylinder 501 is driven to operate, and the output end of the air cylinder 501 stretches out to drive one synchronizing assembly 3 to slide downwards to the top end of the cut non-woven fabric and attach to the top end of the cut non-woven fabric.

Referring to fig. 1, the synchronization assembly 3 includes a gear 301, a synchronization pressing plate 302, and a rack 303;

the two gears 301 are symmetrically arranged on two sides of the conveying roller on the inner side of the driving belt 2, the synchronous pressing plate 302 is fixedly connected between the two second connecting shafts 502, the racks 303 are symmetrically arranged on two sides of the bottom end of the synchronous pressing plate 302, and the outer walls of the racks 303 are rotationally connected to the outer walls of the gears 301.

In this embodiment: the cylinder 501 drives the output end to extend out to drive the synchronous pressing plate 302 to slide down to the top end of the cut non-woven fabric and to be attached to the synchronous pressing plate, meanwhile, the rack 303 is meshed with the gear teeth of the gear 301, at the moment, the driving motor 402 drives the first sliding block 405, the cylinder 501, the synchronous pressing plate 302 and the rack 303 to slide synchronously, the movement of the rack 303 can drive the gear 301 to rotate, the gear 301 rotates to drive the conveying roller to rotate, and the conveying roller rotates to drive the driving belt 2 to rotate, so that the synchronous pressing plate 302, the cut non-woven fabric and the driving belt 2 slide synchronously.

Referring to fig. 1-2, the height of the synchronous pressing plate 302 is higher than the top surface of the driving belt 2 when it slides to the lowest point.

In this embodiment: the synchronous pressing plate 302 is used for pressing down and fixing the cut non-woven fabric and driving the cut non-woven fabric to discharge, so that a space for placing the non-woven fabric is reserved between the synchronous pressing plate and the driving belt 2.

Referring to fig. 1 to 3, two cylinders 501 are operated by an external control system to operate synchronously.

In this embodiment: in order to allow the synchronized platen 302 to rise or slide horizontally, the two cylinders 501 need to be operated in synchronization.

The foregoing description is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical solution of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (6)

1. The non-woven fabric production and feeding device comprises a base (1), wherein a transmission belt (2) is arranged at two ends of the inner wall of the base (1), and the non-woven fabric production and feeding device is characterized in that a pushing mechanism is arranged on the base (1) and the transmission belt (2) and is used for pushing and driving cut non-woven fabrics to synchronously slide and feed out with the transmission belt (2), and comprises a sliding component (4), a lifting component (5) and a synchronizing component (3);

the sliding component (4) in a driving state drives the lifting component (5) to synchronously slide;

the lifting component (5) in a driving state drives the synchronous component (3) to ascend or descend;

one synchronizing assembly (3) in the descending state is rotatably connected with the outer wall of the other synchronizing assembly (3).

2. The non-woven fabric production and feeding device according to claim 1, wherein the sliding assembly (4) comprises a first chute (401), a motor (402), a threaded rod (403), a sliding shaft (404), a first slider (405) and a first connecting shaft (406);

the first sliding grooves (401) are symmetrically formed in two sides of the top end of the base (1), the motor (402) is installed on one side of the base (1), the threaded rods (403) and the sliding shafts (404) are respectively connected to two ends of the inner walls of the first sliding grooves (401) in a rotating mode, and the output ends of the motor (402) penetrate through the outer wall of the base (1) and are fixedly connected with one end of the threaded rods (403);

the first sliding blocks (405) which are symmetrically arranged are respectively connected with the threaded rod (403) in a threaded mode and are connected with the outer wall of the sliding shaft (404) in a sliding mode, and the first connecting shafts (406) are arranged at the top ends of the two first sliding blocks (405).

3. The non-woven fabric production and feeding device according to claim 2, wherein the lifting assembly (5) comprises a cylinder (501), a second connecting shaft (502), a fixed block (503), a second sliding groove (504), a fixed shaft (505), a second sliding block (506) and a connecting frame (507);

fixed block (503) symmetry set up in the both ends of base (1), second spout (504) set up respectively in two the top of fixed block (503), fixed axle (505) connect in two the inner wall both ends of second spout (504), second slider (506) sliding connection in fixed axle (505), link (507) set up in the top of second slider (506), cylinder (501) connect in the other end of link (507), the output cover of cylinder (501) is located the outer wall department of first connecting axle (406), second connecting axle (502) of symmetry setting set up respectively in two output one side of cylinder (501).

4. A nonwoven fabric production feeding device according to claim 3, characterized in that the synchronizing assembly (3) comprises a gear (301), a synchronizing pressure plate (302), a rack (303);

the two gears (301) are symmetrically arranged on two sides of a conveying roller on the inner side of the driving belt (2), the synchronous pressing plate (302) is fixedly connected between the two second connecting shafts (502), the racks (303) are symmetrically arranged on two sides of the bottom end of the synchronous pressing plate (302), and the outer walls of the racks (303) are rotationally connected to the outer walls of the gears (301).

5. The nonwoven fabric production feeding device according to claim 4, wherein the height of the synchronous pressing plate (302) is higher than the top surface of the belt (2) when it slides to the lowest point.

6. A nonwoven fabric production feeding device according to claim 3, characterized in that both cylinders (501) are operated by an external control system in synchronization.