CN210796848U

CN210796848U - Multi-die-head non-woven fabric production line capable of rotating and lifting on line

Info

Publication number: CN210796848U
Application number: CN201921732001.XU
Authority: CN
Inventors: 陈文域
Original assignee: Changzhou Ipone Machinery Co ltd
Current assignee: Changzhou Ipone Machinery Co ltd
Priority date: 2019-10-16
Filing date: 2019-10-16
Publication date: 2020-06-19
Anticipated expiration: 2029-10-16

Abstract

The utility model discloses a multimode head non-woven fabrics production line that can go up and down in online rotation, including melting spray box, drafting system, rolling mill and rolling machine, melt the spray box with the drafting system is all fixed through the support, melt the inside melt-blown equipment that is provided with of spray box and be used for controlling melt-blown equipment and carry out the melt-blown elevating system that goes up and down, inside lapping machine, the spinning equipment that can horizontal migration and being used for control of being provided with of drafting system the spinning elevating system that spinning equipment goes up and down carries out. The utility model is suitable for a production of non-woven fabrics, melt the equipment of spouting in this production line and can go up and down, spinning equipment both can rotate and can go up and down, and the lapper can carry out horizontal migration simultaneously for this spinning machine can be applicable to different types of non-woven fabrics production.

Description

Multi-die-head non-woven fabric production line capable of rotating and lifting on line

Technical Field

The utility model belongs to the technical field of the non-woven fabrics production, specifically be a multi-die non-woven fabrics production line that can rotate the lift on line.

Background

Nonwoven fabrics, also known as nonwovens, are composed of oriented or random fibers. The non-woven fabric is called as the fabric because of the appearance and certain properties of the fabric, has the characteristics of moisture resistance, air permeability, flexibility, light weight, no combustion supporting, easy decomposition, no toxicity or irritation, rich color, low price, recycling and the like, and is produced by adopting polypropylene (pp) granules as raw materials through a continuous one-step method of high-temperature melting, spinning, line laying and hot-pressing coiling;

however, the positions of the spinning mechanism and the receiving mechanism in the existing non-woven fabric production line are fixed, so that one non-woven fabric production line can only produce one non-woven fabric.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve its spinning mechanism and receiving mechanism's position in the current non-woven fabrics production line and be fixed, so the problem that the same kind of non-woven fabrics can only be produced to the non-woven fabrics production line in one, provide a multi-die non-woven fabrics production line that can rotatory go up and down on line.

The utility model adopts the technical scheme as follows:

the utility model provides a multimode head non-woven fabrics production line that can online rotatory lift, is including melting spray box, drafting system, rolling mill and rolling machine, melt spray box with the drafting system is all fixed through the support, melt spray box inside be provided with melt the melting and spout equipment and be used for controlling melt and spout the melting and spout elevating system that equipment goes up and down, drafting system inside be provided with can horizontal migration's lapper, spinning equipment and be used for controlling spinning elevating system that spinning equipment goes up and down.

The melt-blown lifting mechanism comprises a melt-blown lifting platform, melt-blown equipment is arranged on the melt-blown lifting platform, a portal is arranged at four corner positions of the melt-blown lifting platform on the support, a first motor is arranged at the top of the portal, a worm is arranged below an output shaft of the first motor, the bottom of the worm is rotatably inserted into the portal, lifting turbines are arranged at four corner positions of the melt-blown lifting platform, the lifting turbines are clamped in the portal, and the worm penetrates through the lifting turbines.

Pulleys are arranged at two ends of the web former, a travelling mechanism is formed between the pulleys and the outer wall frame of the web former, and the travelling mechanism is driven by a cylinder arranged on the outer wall frame of the web former.

The spinning lifting mechanism comprises a net forming lifting platform, four corners of the net forming lifting platform are provided with embedded plates, the embedded plates are clamped in clamping grooves which are formed in the inner side of the support in advance, hydraulic rods are arranged on the embedded plates, and the other ends of the hydraulic rods are installed on the inner walls of the clamping grooves of the support.

The net-forming lifting platform is characterized in that a rotating mechanism is further arranged on the net-forming lifting platform and comprises a rotating platform, spinning equipment is arranged on the rotating platform, a driven fluted disc is sleeved at the bottom of the rotating platform, a second motor is installed on the rotating platform, a driving gear is sleeved on an output shaft of the second motor, and the driving gear is meshed with the driven fluted disc and is connected with the driven fluted disc.

The spinning equipment comprises an upper part and a lower part, wherein the upper part comprises an extruder, a filter, a metering pump, a spinning box and an air box, the lower part comprises a drafting device and a diffuser, the drafting device is the same, two spinning lifting mechanisms are arranged inside the drafting system, the support is positioned at the position of the drafting system and is divided into three layers, a web former is arranged at the bottom layer of the support, the two spinning lifting mechanisms are respectively arranged at the middle layer and the top layer of the support, the upper part of the spinning equipment is arranged on the spinning lifting mechanism at the top layer of the support, and the lower part of the spinning equipment is arranged on the spinning lifting mechanism at the middle layer of.

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, melt the equipment of spouting and set up on melting and spout lifting platform, and melt and spout lifting platform can realize going up and down through the operation of first motor to make melting and spout equipment and below become the interval of netting equipment can change, make melting and spout equipment spout the material and scatter the degree adjustable, make this equipment can be applicable to different types of non-woven fabrics and use.

2. The utility model discloses in, spinning equipment sets up on spinning elevating system, and spinning elevating system includes lift platform and rotary platform, spinning equipment is located rotary platform, such structure setting makes lift platform can drive spinning equipment when going up and down to go up and down, the interval between diffuser and its below lapper on the spinning equipment has been changed, make the distribution thickness and the degree of scattering of silk material on the lapper can change, rotary platform can drive spinning equipment when rotatory simultaneously and rotate, thereby make the scope of this applicable production line cloth production wider.

3. The utility model discloses in, the lapper can move on the horizontal direction for the material number of piles on the lapper can change, thereby makes the cloth kind that the device is applicable more.

Drawings

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

FIG. 2 is a schematic structural view of a lifting mechanism for melt-blowing in the present invention;

FIG. 3 is an enlarged view of the area A of FIG. 1 according to the present invention;

fig. 4 is a top view of the middle spinning lifting mechanism of the present invention.

The labels in the figure are: 1. a melt spraying box; 2. a melt blowing apparatus; 3. a support; 4. a web former; 5. a rolling mill; 6. a winding machine; 7. a drafting system; 801. a first motor; 802. a worm; 803. a gantry; 804. lifting the turbine; 805. a melt-blown lifting platform; 901. a second motor; 902. forming a net lifting platform; 903. a driving gear; 904. a driven fluted disc; 905. rotating the platform; 906. a hydraulic lever; 907. a tabling plate; 10. spinning equipment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1-4, a multi-die non-woven fabric production line capable of rotating and lifting on line comprises a melt-blowing box 1, a drafting system 7, a rolling mill 5 and a winding machine 6, wherein the melt-blowing box 1 and the drafting system 7 are fixed through a support 3, melt-blowing equipment 2 and a melt-blowing lifting mechanism for controlling the melt-blowing equipment 2 to lift are arranged inside the melt-blowing box 1, a web former 4 capable of moving horizontally, spinning equipment 10 and a spinning lifting mechanism for controlling the spinning equipment 10 to lift are arranged inside the drafting system 7, pulleys are arranged at two ends of the web former 4, a traveling mechanism is formed between each pulley and a wall frame of the web former 4, and the traveling mechanism is driven by a cylinder arranged on the wall frame of the web former 4.

Spinning equipment 10 includes upper and lower two parts altogether, wherein upper portion is including the extruder, the filter, the measuring pump, spinning case and bellows, the lower part includes draft ware and diffuser, same drafting system 7 is inside to be provided with two spinning elevating system altogether, support 3 is located the drafting system 7 position and divide into the three-layer, wherein web former 4 sets up in the bottom of support 3, two spinning elevating system set up respectively in the intermediate level and the top layer of support 3, wherein the upper portion of spinning equipment 10 sets up on the spinning elevating system on support 3 top layer, the lower part of spinning equipment 10 sets up on the spinning elevating system in support 3 intermediate level.

By adopting the technical scheme:

when the cylinder that sets up on the outer wall frame of web former 4 is operating, can promote web former 4 and move on the horizontal direction to change the material number of piles on the web former 4, make the applicable cloth kind of this device more.

Embodiment 1, referring to fig. 1 to 2, the melt-blowing lifting mechanism includes a melt-blowing lifting platform 805, the melt-blowing apparatus 2 is disposed on the melt-blowing lifting platform 805, a gantry 803 is disposed at four corners of the melt-blowing lifting platform 805 on the support 3, a first motor 801 is disposed at the top of the gantry 803, a worm 802 is mounted below an output shaft of the first motor 801, the bottom of the worm 802 is rotatably inserted into the gantry 803, lifting turbines 804 are disposed at four corners of the melt-blowing lifting platform 805, the lifting turbines 804 are engaged in the gantry 803, and the worm 802 penetrates through the lifting turbines 804.

By adopting the technical scheme:

when first motor 801 moves, can drive worm 802 and rotate, because the effect of lift turbine 804 makes it drive and melts the whole lift that goes up and down of melt-blown lift platform 805 to realized melting the lift of equipment 2, changed melting the interval of equipment 2 and below netting equipment of melting, thereby made melting equipment 2 spout the material and scatter the degree adjustable, make this equipment can be applicable to different kinds of cloth and use.

Embodiment 2, referring to fig. 3 to 4, the spinning lifting mechanism includes a mesh-forming lifting platform 902, four corners of the mesh-forming lifting platform 902 are provided with embedded plates 907, the embedded plates 907 are engaged with slots pre-opened on the inner side of the support 3, a hydraulic rod 906 is provided on the embedded plates 907, the other end of the hydraulic rod 906 is installed on the inner walls of the slots of the support 3, a rotating mechanism is further provided on the mesh-forming lifting platform 902, the rotating mechanism includes a rotating platform 905, the spinning device 10 is disposed on the rotating platform 905, a driven fluted disc 904 is sleeved at the bottom of the rotating platform 905, a second motor 901 is installed on the rotating platform 905, an output shaft of the second motor 901 is sleeved with a driving gear 903, and the driving gear 903 is engaged with the driven fluted.

By adopting the technical scheme:

when hydraulic stem 906 moves, can promote to prop net lift platform 902 and go up and down, changed the interval between diffuser and its below lapper 4 on the spinning equipment 10 for the distribution thickness and the degree of scattering of silk material on lapper 4 can change, and when second motor 901 moves simultaneously, through the meshing effect of driving gear 903 and driven fluted disc 904, drive rotary platform 905 and rotate, thereby drive whole spinning equipment 10 and rotate, further promoted the applicable cloth production's of this production line scope.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a can online rotatory lift's multimode head non-woven fabrics production line, includes melt spray box (1), drafting system (7), rolling mill (5) and rolling machine (6), its characterized in that: the melt-blown spinning device is characterized in that the melt-blown box (1) and the drawing system (7) are fixed through a support (3), melt-blown equipment (2) and a melt-blown lifting mechanism used for controlling the melt-blown equipment (2) to lift are arranged inside the melt-blown box (1), and a web former (4) capable of moving horizontally, spinning equipment (10) and a spinning lifting mechanism used for controlling the spinning equipment (10) to lift are arranged inside the drawing system (7).

2. The multi-die nonwoven fabric production line capable of rotating and ascending and descending in-line according to claim 1, wherein: the melt-blown lifting mechanism comprises a melt-blown lifting platform (805), the melt-blown equipment (2) is arranged on the melt-blown lifting platform (805), four corner positions of the melt-blown lifting platform (805) on the support (3) are provided with door frames (803), the top of each door frame (803) is provided with a first motor (801), a worm (802) is installed below an output shaft of each first motor (801), the bottoms of the worms (802) are rotatably inserted into the door frames (803), four corner positions of the melt-blown lifting platform (805) are provided with lifting turbines (804), the lifting turbines (804) are clamped in the door frames (803), and the worms (802) penetrate through the lifting turbines (804).

3. The multi-die nonwoven fabric production line capable of rotating and ascending and descending in-line according to claim 1, wherein: pulleys are arranged at two ends of the net forming machine (4), a traveling mechanism is formed between the pulleys and an outer wall frame of the net forming machine (4), and the traveling mechanism is driven by a cylinder arranged on the outer wall frame of the net forming machine (4).

4. The multi-die nonwoven fabric production line capable of rotating and ascending and descending in-line according to claim 1, wherein: the spinning lifting mechanism comprises a net forming lifting platform (902), four corners of the net forming lifting platform (902) are provided with embedded plates (907), the embedded plates (907) are clamped in clamping grooves formed in the inner side of the support (3) in advance, hydraulic rods (906) are arranged on the embedded plates (907), and the other ends of the hydraulic rods (906) are installed on the inner walls of the clamping grooves of the support (3).

5. The multi-die nonwoven fabric production line capable of rotating and ascending and descending in-line according to claim 4, wherein: still be provided with rotary mechanism on net formation lift platform (902), rotary mechanism includes rotary platform (905), spinning equipment (10) set up in on rotary platform (905), driven fluted disc (904) has been cup jointed to rotary platform (905) bottom, install second motor (901) on rotary platform (905), driving gear (903) have been cup jointed on the output shaft of second motor (901), driving gear (903) with driven fluted disc (904) meshing is connected.

6. The multi-die nonwoven fabric production line capable of rotating and ascending and descending in-line according to claim 1, wherein: spinning equipment (10) is including upper and lower two parts altogether, and wherein upper portion is including extruder, filter, measuring pump, spinning case and bellows, and the lower part includes draft ware and diffuser, and is same inside being provided with two spinning elevating system altogether of draft system (7), support (3) are located draft system (7) position divide into the three-layer, and wherein web former (4) set up in the bottom of support (3), two spinning elevating system set up respectively in the intermediate level and the top layer of support (3), wherein the upper portion of spinning equipment (10) sets up on the spinning elevating system of support (3) top layer, and the lower part of spinning equipment (10) sets up on the spinning elevating system in support (3) intermediate level.