CN210561396U - Automatic sizing and splitting machine for glass fiber non-woven fabric rolls - Google Patents

Abstract

The utility model provides an automatic scale cutting machine of fine non-woven fabric book of glass belongs to the technical field of cutting, including frame, positioning mechanism, feeding mechanism and cutting mechanism. The frame is provided with an inflatable shaft which is used for placing the glass fiber non-woven fabric roll and can drive the glass fiber non-woven fabric roll to rotate after being expanded; the positioning mechanism is arranged on the rack in a sliding manner and used for positioning the slitting width of the glass fiber non-woven fabric roll in an axial sliding manner along the inflatable shaft and abutting against one end face of the glass fiber non-woven fabric roll; the feeding mechanism is used for pushing the glass fiber non-woven fabric roll on the air expansion shaft to abut against the positioning mechanism along the axial direction of the air expansion shaft; the cutting mechanism is arranged on the rack in a sliding mode and used for moving to a preset cutting position along the radial direction of the inflatable shaft and cutting the glass fiber non-woven fabric; a matched controller. The utility model provides an automatic scale cutting machine of fine non-woven fabric book of glass has improved the efficiency of cutting of fine non-woven fabric book of glass, and has improved the quality of cutting of fine non-woven fabric book of glass.

Description

Automatic sizing and splitting machine for glass fiber non-woven fabric rolls

Technical Field

The utility model belongs to the technical field of the glass fiber non-woven fabrics is cut, more specifically says, relates to an automatic scale cutting machine of fine non-woven fabric book of glass.

Background

The glass fiber non-woven fabric (glass fiber non-woven fabric) is an inorganic non-metallic material with excellent performance, and has the characteristics of corrosion resistance, good insulativity, strong heat resistance and the like. Therefore, the glass fiber cloth is widely applied to petrochemical industry, road traffic and building industry.

In the process of processing the glass fiber non-woven fabric, a fixed-length cutting process is provided, namely, the wide non-woven fabric is cut into the size required by a user. In the prior art, a worker needs to place a glass fiber non-woven cloth roll on a rotatable shaft, measure and mark a cutting position by using a steel ruler manually, and then manually operate a cutting saw blade to cut the cloth roll. The cutting at every turn all needs the staff to repeat above-mentioned process, has not only increased the cost of labor, cuts inefficiency moreover. In addition, the structure of the glass fiber non-woven fabric is loose, the quality of the product cannot meet the requirement in a manual cutting mode, and the rejection rate is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic scale cutting machine of fine non-woven fabric book of glass aims at solving current glass fiber non-woven fabrics at the in-process of cutting, and the quality of cutting of product can not obtain the assurance, and cuts the problem of inefficiency.

In order to achieve the above object, the utility model adopts the following technical scheme: the automatic sizing and splitting machine for the glass fiber non-woven fabric roll comprises a rack, wherein an air expansion shaft which is used for placing the glass fiber non-woven fabric roll and can drive the glass fiber non-woven fabric roll to rotate after being expanded is arranged on the rack, and the air expansion shaft is rotatably connected with the rack;

the first driver is used for driving the air inflation shaft to rotate;

the positioning mechanism is arranged on the rack in a sliding manner and is used for positioning the slitting width of the glass fiber non-woven fabric roll in an axial sliding manner along the air expansion shaft and abutting against one end face of the glass fiber non-woven fabric roll;

the feeding mechanism is arranged on the rack in a sliding manner and used for pushing the glass fiber non-woven fabric roll on the air expansion shaft to be abutted against the positioning mechanism along the axial direction of the air expansion shaft;

the cutting mechanism is arranged on the rack in a sliding mode and used for moving to a preset cutting position along the radial direction of the air expansion shaft and cutting the glass fiber non-woven fabric; and

a matched controller.

As another embodiment of this application, fine non-woven fabric of glass book automatic scale cutting machine still includes gyration shedding mechanism, gyration shedding mechanism includes:

the sliding table is arranged on the rack in a sliding manner;

the rotary table is rotatably arranged on the sliding table; and

the rotating shaft is arranged on the rotary table;

the second driver is used for driving the sliding table to move along the axial direction of the inflatable shaft;

the third driver is used for driving the rotary table to rotate;

the sliding table is used for driving the rotating shaft to move along the axis direction of the inflatable shaft and is abutted to the inflatable shaft.

As another embodiment of the present application, the positioning mechanism includes:

the sliding seat is arranged on the rotary table in a sliding mode, a positioning disc used for positioning the glass fiber non-woven fabric roll is arranged on the sliding seat, and a round hole used for allowing the rotating shaft to penetrate through is formed in the positioning disc; and

and the fourth driver is used for driving the sliding seat to slide along the axial direction of the inflatable shaft.

As another embodiment of the present application, an accommodating space for placing the positioning mechanism is provided on the turntable, one end of the positioning mechanism is fixed in the accommodating space, and the other end of the positioning mechanism extends out along the axial direction of the rotating shaft;

and a first bearing seat for arranging the rotating shaft is arranged at the upper end of the rotary table.

As another embodiment of the present application, a linear bearing for facilitating the sliding of the positioning plate along the rotating shaft is disposed between the circular hole and the rotating shaft.

As another embodiment of this application, the edge of positioning disk be equipped with be used for detecting the fine non-woven fabric of glass roll one side with the correlation grating of positioning disk looks butt, the correlation grating with controller electric connection.

As another embodiment of the present application, a second bearing seat is disposed at one end of the frame, and one end of the inflatable shaft is fixed to the second bearing seat;

the rotary unloading mechanism is arranged at the other end of the rack, and the sliding table is used for driving the rotating shaft and enabling one end of the rotating shaft to be abutted against the extending end of the inflatable shaft.

As another embodiment of this application, still be equipped with in the frame and be used for supporting the physiosis axle stretches out the supporting component of tip, the supporting component including set up in fifth driver in the frame and with the hold up that the end is connected that stretches out of fifth driver.

As another embodiment of the application, the slitting mechanism comprises a cutting assembly for cutting the glass fiber non-woven fabric roll and a material pulling assembly for pulling out the glass fiber non-woven fabric cut by the cutting assembly;

the material shifting assembly comprises a first supporting plate arranged on the rack in an axial sliding mode along the inflatable shaft and a sixth driver used for driving the first supporting plate to slide;

the cutting assembly comprises a second supporting plate arranged on the first supporting plate in a sliding mode along the radial direction of the inflatable shaft, a seventh driver used for driving the second supporting plate, a cutting saw blade arranged on the second supporting plate and an eighth driver used for driving the cutting saw blade to rotate;

a fixing frame used for bearing the cutting saw blade is arranged between the cutting saw blade and the second supporting plate.

As another embodiment of the present application, the feeding mechanism includes:

the base is arranged on the rack in a sliding manner, and a material pushing plate used for pushing the glass fiber non-woven fabric to roll to the positioning mechanism to move is arranged on the base;

and the ninth driver is used for driving the base to slide along the axial direction of the air inflation shaft.

The utility model provides an automatic scale cutting machine of fine non-woven fabric book of glass's beneficial effect lies in: compared with the prior art, the utility model discloses fine non-woven fabric of glass rolls up automatic scale cutting machine has settled positioning mechanism, feeding mechanism and cutting mechanism respectively in the frame, and the overall arrangement is clear, and space occupancy is high. Wherein, still be equipped with the physiosis axle in the frame and be used for driving the physiosis first driver of axle, the placing and cutting of the glass fiber non-woven fabrics of can being convenient for. The positioning mechanism can slide along the axial direction of the inflatable shaft and position the slitting width of the glass fiber non-woven fabric roll, the positioning mechanism is convenient to accurately position, and the width of the slit fabric roll can be ensured to be accurate. The slitting mechanism is located at the radial position of the inflatable shaft and can slit the positioned glass fiber non-woven fabric roll. The distance between the positioning mechanism and the slitting mechanism is the slitting width of the glass fiber non-woven fabric roll. The feeding mechanism can push the glass fiber non-woven fabric roll which is positioned on the inflatable shaft and needs to be cut to the positioning mechanism along the inflatable shaft, namely, one side of the glass fiber non-woven fabric roll is abutted to the positioning mechanism, the feeding mode can ensure the accuracy of the cutting position, and further the quality of cut finished products is improved. In addition, the positioning mechanism, the feeding mechanism and the splitting mechanism are also connected with a controller, so that automatic control can be realized. The utility model provides an automatic scale cutting machine of fine non-woven fabric book of glass can use manpower sparingly the cost, improves the efficiency of cutting of fine non-woven fabric book of glass to the quality of cutting of fine non-woven fabric book of glass has been improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic view of a main structure of an automatic sizing and splitting machine for glass fiber non-woven fabric rolls provided by an embodiment of the present invention;

fig. 2 is a schematic structural view of a rotary unloading mechanism of the automatic glass fiber non-woven fabric roll sizing and cutting machine provided by the embodiment of the utility model;

fig. 3 is a schematic structural view of a positioning mechanism of an automatic sizing and splitting machine for glass fiber non-woven fabric rolls provided by an embodiment of the present invention;

fig. 4 is a schematic view of a combined structure of a rotary discharging mechanism and a positioning mechanism of the automatic glass fiber non-woven fabric roll sizing and cutting machine provided by the embodiment of the invention;

fig. 5 is a schematic structural view of a feeding mechanism of the automatic glass fiber non-woven fabric roll sizing and cutting machine provided by the embodiment of the present invention;

fig. 6 is a schematic structural view of a slitting mechanism of the automatic glass fiber non-woven fabric roll sizing and slitting machine according to the embodiment of the present invention;

fig. 7 is a schematic structural view of a frame and a supporting frame of the automatic glass fiber non-woven fabric roll sizing and cutting machine according to the embodiment of the present invention;

in the figure: 10. a frame; 11. an inflatable shaft; 111. a first driver; 12. a second bearing housing; 20. a positioning mechanism; 21. a sliding seat; 211. a linear bearing; 22. a fourth driver; 23. positioning a plate; 30. a feeding mechanism; 31. a base; 32. a material pushing plate; 33. a ninth driver; 40. a slitting mechanism; 41. cutting the assembly; 411. a second pallet; 412. a seventh driver; 413. cutting the saw blade; 414. a fixed mount; 415. an eighth driver; 42. a material poking component; 421. a first pallet; 422. a sixth driver; 50. a rotary unloading mechanism; 51. a sliding table; 52. a rotating shaft; 53. a turntable; 531. an accommodating space; 532. a first bearing housing; 54. a second driver; 55. a third driver; 60. a support assembly; 61. a fifth driver; 62. lifting; 70. and (5) rolling the glass fiber non-woven fabric.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 and fig. 7, the automatic sizing and splitting machine for glass fiber nonwoven fabric rolls provided by the present invention will now be described. The automatic glass fiber non-woven fabric roll sizing and splitting machine comprises a rack 10, a positioning mechanism 20, a feeding mechanism 30 and a splitting mechanism 40. The machine frame 10 is horizontally arranged, an air inflation shaft 11 used for placing a glass fiber non-woven fabric roll 70 to be slit is horizontally arranged above the machine frame 10, one end of the air inflation shaft 11 is rotatably connected with one end of the machine frame 10, the length of the air inflation shaft 11 is smaller than that of the machine frame 10, and one end of the air inflation shaft 11 is further connected with a first driver 111 for rotation. The other end of the frame 10 is provided with a positioning mechanism 20, the positioning mechanism 20 can slide along the axial direction of the inflatable shaft 11, and can accurately position the slitting width of the glass fiber non-woven fabric roll 70 to be slit, that is, the distance between the slitting mechanism 40 and the positioning mechanism 20 along the axial direction of the inflatable shaft 11. The frame 10 is further provided with a feeding mechanism 30, the feeding mechanism 30 abuts against one side of the glass fiber non-woven fabric roll 70 to be slit, the feeding mechanism 30 slides relative to the frame 10 and pushes the glass fiber non-woven fabric roll 70 to the other side along the inflatable shaft 11 to abut against the positioning mechanism 20. The frame 10 is further provided with a slitting mechanism 40 for slitting the glass fiber non-woven fabric with a set slitting width, and the slitting mechanism 40 is slidably arranged on the frame 10 and is located on one radial side of the inflatable shaft 11. In addition, the positioning mechanism 20, the feeding mechanism 30 and the splitting mechanism 40 are connected with a controller in a matching way.

The utility model provides an automatic scale cutting machine of fine non-woven fabric book of glass, working method is:

(A) firstly, placing a glass fiber non-woven fabric roll 70 to be slit on an air expanding shaft 11 (namely, sleeving the glass fiber non-woven fabric roll on the air expanding shaft 11);

(B) the positioning mechanism 20 slides along the axial direction of the inflatable shaft 11, and determines a stop position according to the width to be cut;

(C) the feeding mechanism 30 props against one side of the glass fiber non-woven fabric roll 70, and stops when pushing the glass fiber non-woven fabric roll to the other side along the air expansion shaft 11 to prop against the positioning mechanism 20;

(D) at this time, the air inflation shaft 11 inflates and fixes the glass fiber non-woven fabric roll 70, and the first driver 111 drives the air inflation shaft 11 to rotate. The slitting mechanism 40 slides along the radial direction of the air shaft 11 to the position of the glass fiber non-woven fabric roll 70, and slits the glass fiber non-woven fabric roll 70.

(E) After the slitting is completed, the air inflation shaft 11 is deflated, and at the moment, the worker takes down the cut glass fiber non-woven fabric roll 70.

It should be noted that the linear distance between the positioning mechanism 20 and the slitting mechanism 40 is the slitting width, the position of the slitting mechanism 40 is fixed, and the positioning mechanism 20 slides along the inflatable shaft 11 to determine the slitting width of the glass fiber nonwoven fabric roll 70.

The utility model provides an automatic scale cutting machine of fine non-woven fabric book of glass compares with prior art, the utility model discloses the fine non-woven fabric book of glass 70 automatic scale cutting machine has settled positioning mechanism 20, feeding mechanism 30 and cutting mechanism 40 respectively in frame 10, and the overall arrangement is clear, and the space occupancy is high. Wherein, still be equipped with physiosis axle 11 and be used for driving physiosis axle 11's first driver 111 on the frame 10, can be convenient for placing and cutting of glass fiber non-woven fabrics. The positioning mechanism 20 can slide along the axial direction of the inflatable shaft 11 and position the slitting width of the glass fiber non-woven fabric roll 70, the structure is convenient for the accurate positioning of the positioning mechanism 20, and the accurate width of the fabric roll slit at each time can be ensured. The slitting mechanism 40 is located at the radial position of the inflatable shaft 11, and can slit the positioned glass fiber non-woven fabric roll 70. The distance between the positioning mechanism 20 and the slitting mechanism 40 is the slitting width of the glass fiber nonwoven roll 70. The feeding mechanism 30 can push the glass fiber non-woven fabric roll 70 which is positioned on the inflatable shaft 11 and needs to be cut to the positioning mechanism 20 along the inflatable shaft 11, namely, one side of the glass fiber non-woven fabric roll 70 is abutted to the positioning mechanism 20, the feeding mode can ensure the accuracy of the cutting position, and further the quality of the cut finished product is improved. In addition, the positioning mechanism 20, the feeding mechanism 30 and the slitting mechanism 40 are also connected with a controller, so that automatic control can be realized. The utility model provides an automatic scale cutting machine of fine non-woven fabric book 70 of glass can use manpower sparingly the cost, improves fine non-woven fabric book 70 of glass's efficiency of cutting to fine non-woven fabric book 70 of glass's quality of cutting has been improved.

As the utility model provides a glass fiber non-woven fabric rolls up automatic scale cutting machine's a specific embodiment, please refer to in the lump and draw in fig. 1 and fig. 7, glass fiber non-woven fabric rolls up 70 automatic scale cutting machine still includes gyration shedding mechanism 50, when gyration shedding structure can be convenient for cut mechanism 40 and cut, glass fiber non-woven fabric rolls up 70 stable along with physiosis axle 11 rotates, also can be convenient for simultaneously cut mechanism 40 and cut the completion back, the staff can be very convenient the glass fiber non-woven fabric roll up 70 that will cut good lift off. The rotary discharging mechanism 50 includes a slide table 51, a rotary table 53, a rotary shaft 52, a second driver 54, and a third driver 55. Wherein, the sliding table 51 is arranged on the frame 10 in a sliding way, the upper end of the sliding table 51 is provided with a revolving platform 53 in a rotating way, and the top of the revolving platform 53 is provided with a rotating shaft 52. The slide table 51 can slide the rotary table 53 and the rotary shaft 52 on the rotary table 53 along the axis of the inflator shaft 11, and bring the rotary shaft 52 into contact with the inflator shaft 11. In addition, a second driver 54 is used for driving the sliding table 51 to move along the axial direction of the inflatable shaft 11, and a third driver 55 is used for driving the rotary table 53 to drive the rotating shaft 52 to horizontally rotate. The glass fiber non-woven fabric roll cutting machine is simple in structure and high in practicability, the cutting precision of the glass fiber non-woven fabric roll 70 can be improved, and the cutting quality of the glass fiber non-woven fabric roll 70 is further improved.

When the feeding mechanism 30 pushes the glass fiber non-woven fabric roll 70 to the position of the positioning mechanism 20 along the air expansion shaft 11, the glass fiber non-woven fabric roll 70 passes through the air expansion shaft 11 and the rotating shaft 52 respectively until one side of the glass fiber non-woven fabric roll 70 is abutted against the positioning mechanism 20. After the splitting mechanism 40 completes splitting, the second driver 54 drives the sliding table 51 to withdraw for a distance in the forward direction, so that the rotating shaft 52 is separated from the air inflation shaft 11, the third driver 55 drives the revolving table 53 to rotate, and then the split glass fiber non-woven fabric roll 70 is rotated to the other side, so that the worker can take down the glass fiber non-woven fabric roll 70 conveniently.

It should be noted that the lower end of the sliding table 51 is provided with a guide rail for facilitating the sliding of the sliding table 51, wherein the second driver 54 may be a driving cylinder, and the third driver 55 may be a stepping motor, or other drivers.

Referring to fig. 1 and 7 together, a positioning mechanism 20 includes a sliding seat 21 and a fourth driver 22. The sliding seat 21 is slidably disposed on the revolving platform 53, the sliding seat 21 is provided with a positioning disc 23 for positioning the glass fiber non-woven fabric roll 70, and the positioning disc 23 is provided with a circular hole for the rotating shaft 52 to pass through. And a fourth driver 22 for driving the sliding seat 21 to slide. The revolving platform 53 is provided with two guide rails for the sliding seat 21 to slide, the sliding seat 21 is slidably arranged on the guide rails, the sliding seat 21 can slide stably, a lead screw for driving the sliding seat 21 to slide is arranged in the middle of the two guide rails, and the fourth driver 22 is connected with one end of the lead screw. The round hole on the positioning disc 23 can be penetrated by the rotating shaft 52, that is, the sliding seat 21 drives the positioning disc 23 to slide, and simultaneously, the positioning disc 23 also slides on the rotating shaft 52. The lead screw has the characteristics of stable transmission and high transmission precision, and the positioning precision can be further improved by the structure and the transmission relation of the positioning mechanism 20.

The fourth actuator 22 can be a stepping motor, and the slitting width is the distance between the positioning plate 23 and the slitting mechanism 40.

As an embodiment of the utility model provides a fine non-woven fabric of glass book automatic scale cutting machine's a specific implementation mode, please refer to fig. 1 and fig. 7 together, be equipped with the accommodation space 531 that is used for placing positioning mechanism 20 on the revolving platform 53, accommodation space 531 is a cavity that link up that sets up on revolving platform 53 along the axial of physiosis axle 11, positioning mechanism 20 has been placed to its inside, positioning mechanism 20's one end is fixed in accommodation space 531, the other end stretches out along the axial of pivot 52, so that positioning disk 23 can slide along pivot 52, be equipped with the bearing frame that is used for settling pivot 52 in the upper end of revolving platform 53, the one end of pivot 52 is settled in the bearing frame. This kind of structure can improve space utilization, places positioning mechanism 20 and gyration shedding mechanism 50 in an organic whole simultaneously, and under the drive of second driver 54 and third driver 55, along with gyration shedding mechanism 50 synchronous rotation, is convenient for unload, also is convenient for fix a position, has further guaranteed the accuracy of fixing a position.

It should be noted that the rotating shaft 52 may also be an inflatable shaft 11 structure, and an end of the rotating shaft 52 of the inflatable shaft 11 structure, which is disposed in the first bearing seat 532, is a non-inflatable structure, so as to ensure that the end can also rotate in the first bearing seat 532 after the rotating shaft 52 is inflated.

Referring to fig. 1 and 7 together, a linear bearing 211 for facilitating the sliding of the positioning plate 23 along the rotating shaft 52 is disposed between the circular hole and the rotating shaft 52. The linear bearing 211 can facilitate the sliding of the positioning plate 23 on the rotating shaft 52, further improving the positioning accuracy.

In addition, the positioning disc 23 can also rotate on the linear bearing 211, when the first driver 111 drives the physiosis shaft 11 to rotate, the glass fiber non-woven fabric roll 70 can also rotate along with the rotation, on the side where the glass fiber non-woven fabric roll 70 is abutted to the positioning disc 23, the positioning disc 23 can rotate along with the glass fiber non-woven fabric roll 70, the initial positioning disc 23 is in a non-power driving mode, the structural relationship can guarantee that no friction exists between the positioning disc 23 and the glass fiber non-woven fabric roll 70, and the positioning accuracy is further improved.

As a specific implementation manner of the automatic sizing and splitting machine for glass fiber nonwoven fabric roll provided by the embodiment of the present invention, please refer to fig. 1 and fig. 7, an edge of the positioning plate 23 is provided with an opposite grating for detecting one side of the glass fiber nonwoven fabric roll 70 and abutting against the positioning plate 23, and the opposite grating is electrically connected to the controller. The correlation grating comprises a signal transmitting end and a signal receiving end, the signal transmitting end and the signal receiving end are fixed on the sliding seat 21 through L-shaped supports respectively, the two end portions are located at the edge positions of the positioning disc 23 and are opposite in position, and the correlation grating can detect whether one side of the glass fiber non-woven fabric roll 70 is abutted to the positioning disc 23. After the glass fiber non-woven fabric roll 70 abuts against the positioning disc 23, the correlation grating transmits a signal to the controller, and the controller controls the feeding mechanism 30 to stop. The arrangement of the correlation grating can prevent the glass fiber non-woven fabric roll 70 from forming a stack at the positioning disc 23, which causes the problem of inaccurate positioning precision.

As an embodiment of the automatic sizing and splitting machine for glass fiber nonwoven fabric rolls provided by the embodiment of the present invention, please refer to fig. 1 and 7 together, one end of the frame 10 is provided with the second bearing seat 12, one end of the air-expanding shaft 11 is fixed on the second bearing seat 12, the one end of the air-expanding shaft 11 disposed on the second bearing seat 12 is not an air-expanding structure, so as to facilitate the rotation of the air-expanding shaft 11. The other end of the inflatable shaft 11 extends out, so that the glass fiber non-woven fabric is conveniently sleeved on the shaft.

The rotary discharging mechanism 50 is disposed at the other end of the frame 10, i.e., the second bearing seat 12 is opposite to the first bearing seat 532, but the first bearing seat 532 is located on the rotary table 53 in the rotary discharging mechanism 50, and the rotating shaft 52 also extends toward the axial direction of the air inflation shaft 11. The sliding table 51 drives the rotating shaft 52 on the rotating table 53 and enables the extending end of the rotating shaft 52 to be abutted with the extending end of the inflatable shaft 11. So that the feeding mechanism 30 can push the roll 70 of the glass fiber non-woven fabric onto the rotating shaft 52 along the air inflation shaft 11 for slitting.

As a specific implementation manner of the automatic sizing and splitting machine for glass fiber nonwoven fabric rolls provided by the embodiment of the present invention, please refer to fig. 1 and 7, a support assembly 60 for supporting the extending end of the physiosis shaft 11 is further disposed on the frame 10, and the support assembly 60 includes a fifth driver 61 disposed on the frame 10 and a support 62 connected to the extending end of the fifth driver 61. When the rotating shaft 52 and the inflatable shaft 11 are not abutted to each other, that is, before positioning and discharging, the support assembly 60 controls the support 62 to ascend through the fifth driver 61 to the support 62 to abut against the extending end of the inflatable shaft 11, so as to prevent the extending end of the inflatable shaft 11 from being bent due to excessive weight, and further prevent the inflatable shaft 11 from deforming.

The connection between the frame 10 and the air-expanding shaft 11 may be provided with a mounting seat, which is open, that is, the air-expanding shaft 11 and the second bearing seat 12 may be placed on the mounting seat at any time, or may be taken off from the mounting seat at any time, so as to place the glass fiber non-woven fabric roll 70 on the air-expanding shaft 11.

As a specific implementation manner of the automatic sizing and cutting machine for glass fiber non-woven fabric roll provided by the embodiment of the present invention, please refer to fig. 1 and 7 together, the cutting mechanism 40 includes a cutting assembly 41 for cutting the glass fiber non-woven fabric roll 70 and a material shifting assembly 42 for shifting out the glass fiber non-woven fabric cut by the cutting assembly 41.

The material shifting assembly 42 includes a first supporting plate 421 axially slidably disposed on the frame 10 along the inflatable shaft 11 and a sixth driver 422 for driving the first supporting plate 421 to slide, and a guide rail for the first supporting plate 421 to slide is disposed on the frame 10. The cutting assembly 41 includes a second supporting plate 411 arranged on the first supporting plate 421 in a radial sliding manner along the inflatable shaft 11, a seventh driver 412 for driving the second supporting plate 411, a cutting saw blade 413 arranged on the second supporting plate 411, and an eighth driver 415 for driving the cutting saw blade 413 to rotate, wherein a guide rail for the second supporting plate 411 to slide is arranged on the first supporting plate 421. A fixing frame 414 for bearing the cutting saw blade 413 is arranged between the cutting saw blade 413 and the second supporting plate 411.

After the feeding mechanism 30 finishes working, that is, after the glass fiber nonwoven fabric roll 70 is positioned at the cutting position, the material pushing assembly 42 in the cutting mechanism 40 is stationary, the cutting assembly 41 slides towards the glass fiber nonwoven fabric roll 70 relative to the material pushing assembly 42, and the rotating fabric roll is cut along with the feeding of the cutting saw blade 413. After the cutting is completed, the second supporting plate 411 drives the cutting saw blade 413 to slide a small distance in the forward direction (to prevent the cutting saw blade 413 from interfering with the rotating shaft 52 during the material shifting), at this time, the material shifting assembly 42 works, the first supporting plate 421 drives the cutting assembly 41 to slide towards the positioning mechanism 20 along the axis of the physiosis shaft 11, the cutting saw blade 413 horizontally slides and abuts against one side of the cut glass fiber non-woven fabric roll 70, the glass fiber non-woven fabric roll is pushed onto the rotating shaft 52, the material shifting work is completed, and the original (initial) position is returned.

It should be noted that the moving direction of the first supporting plate 421 and the moving direction of the second supporting plate 411 are perpendicular to each other. The initial position of the slitting mechanism 40 is the position where the cutting saw blade 413 is diametrically opposite to the abutment position of the air-expanding shaft 11 and the rotating shaft 52, and before material shifting, the positioning mechanism 20 slides a certain distance in the forward direction, so that the positioning disc 23 and one side of the glass fiber non-woven fabric roll 70 are not abutted any more.

The distance between the cutting blade 413 and the positioning plate 23 is the cutting width. The sixth driver 422 may be an air cylinder, the seventh driver 412 may be a step motor, and the eighth driver 415 may be a dc motor.

Referring to fig. 1 and 7 together, a feeding mechanism 30 includes a base 31 and a ninth driver 33 as a specific embodiment of the automatic sizing and splitting machine for glass fiber nonwoven fabric rolls provided by the embodiment of the present invention. The base 31 is slidably disposed on the frame 10, and the base 31 is provided with a material pushing plate 32 for pushing the glass fiber non-woven fabric roll 70 to move toward the positioning mechanism 20. A ninth driver 33 for driving the base 31 to slide along the axial direction of the air inflation shaft 11.

In the feeding transmission structure, a chain transmission manner may be adopted, that is, the ninth driver 33 drives the transmission chain to rotate, and the transmission chain drives the base 31 to slide along the axial direction of the inflatable shaft 11. The transmission chain is looped around two chain wheels on the frame 10 and is also connected with the base 31, and the ninth driver 33 drives one of the chain wheels to rotate. The base 31 is fixedly provided with a material pushing plate 32 for pushing the glass fiber non-woven fabric roll 70 to be slit to move towards the positioning mechanism 20, and one side of the material pushing plate 32 is abutted against one side of the glass fiber non-woven fabric roll 70. The ninth driver 33 can be a servo motor, and the structure is convenient for pushing materials, and can ensure starting and stopping of feeding.

Need to be right the utility model provides a fine non-woven fabric of glass book automatic scale cutting machine explains is: the first driver 111, the second driver 54, the third driver 55, the fourth driver 22, the fifth driver 61, the sixth driver 422, the seventh driver 412, the eighth driver 415, and the ninth driver 33 are electrically connected to the controller, respectively. The controller is a PLC and respectively controls the work of each driver.

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 (10)

1. Automatic scale cutting machine is rolled up to fine non-woven fabric of glass, its characterized in that includes:

the glass fiber non-woven fabric roll expanding device comprises a rack, wherein an expanding shaft which is used for placing a glass fiber non-woven fabric roll and can drive the glass fiber non-woven fabric roll to rotate after being expanded is arranged on the rack, and the expanding shaft is rotationally connected with the rack;

the first driver is used for driving the air inflation shaft to rotate;

the positioning mechanism is arranged on the rack in a sliding manner and is used for positioning the slitting width of the glass fiber non-woven fabric roll in an axial sliding manner along the air expansion shaft and abutting against one end face of the glass fiber non-woven fabric roll;

the feeding mechanism is arranged on the rack in a sliding manner and used for pushing the glass fiber non-woven fabric roll on the air expansion shaft to be abutted against the positioning mechanism along the axial direction of the air expansion shaft;

the cutting mechanism is arranged on the rack in a sliding mode and used for moving to a preset cutting position along the radial direction of the air expansion shaft and cutting the glass fiber non-woven fabric; and

a matched controller.

2. The automatic glass fiber nonwoven fabric roll sizing and cutting machine according to claim 1, wherein the automatic glass fiber nonwoven fabric roll sizing and cutting machine further comprises a rotary discharging mechanism, and the rotary discharging mechanism comprises:

the sliding table is arranged on the rack in a sliding manner;

the rotary table is rotatably arranged on the sliding table; and

the rotating shaft is arranged on the rotary table;

the second driver is used for driving the sliding table to move along the axial direction of the inflatable shaft;

the third driver is used for driving the rotary table to rotate;

the sliding table is used for driving the rotating shaft to move along the axis direction of the inflatable shaft and is abutted to the inflatable shaft.

3. The automatic sizing and slitting machine for glass fiber nonwoven fabric rolls as claimed in claim 2, wherein the positioning mechanism comprises:

the sliding seat is arranged on the rotary table in a sliding mode, a positioning disc used for positioning the glass fiber non-woven fabric roll is arranged on the sliding seat, and a round hole used for allowing the rotating shaft to penetrate through is formed in the positioning disc; and

and the fourth driver is used for driving the sliding seat to slide along the axial direction of the inflatable shaft.

4. The automatic glass fiber nonwoven fabric roll sizing and cutting machine according to claim 3, wherein the rotary table is provided with a containing space for placing the positioning mechanism, one end of the positioning mechanism is fixed in the containing space, and the other end of the positioning mechanism extends out along the axial direction of the rotating shaft;

and a first bearing seat for arranging the rotating shaft is arranged at the upper end of the rotary table.

5. The automatic sizing and slitting machine for glass fiber nonwoven fabric rolls as claimed in claim 3, wherein a linear bearing for facilitating the sliding of the positioning disc along the rotating shaft is arranged between the circular hole and the rotating shaft.

6. The automatic sizing and slitting machine for glass fiber nonwoven fabric rolls as claimed in claim 3, wherein an opposite grating for detecting that one side of the glass fiber nonwoven fabric roll abuts against the positioning plate is arranged at the edge of the positioning plate, and the opposite grating is electrically connected with the controller.

7. The automatic sizing and slitting machine for glass fiber nonwoven fabric rolls as claimed in claim 2, wherein one end of the frame is provided with a second bearing seat, and one end of the air inflation shaft is fixed on the second bearing seat;

the rotary unloading mechanism is arranged at the other end of the rack, and the sliding table is used for driving the rotating shaft and enabling one end of the rotating shaft to be abutted against the extending end of the inflatable shaft.

8. The automatic sizing and slitting machine for glass fiber nonwoven fabric rolls as claimed in claim 7, wherein a support assembly for supporting the protruding end of the air shaft is further provided on the frame, and the support assembly comprises a fifth driver provided on the frame and a support connected to the protruding end of the fifth driver.

9. The automatic sizing and cutting machine for the glass fiber non-woven fabric roll according to any one of claims 1 to 8, wherein the cutting mechanism comprises a cutting component for cutting the glass fiber non-woven fabric roll and a material pulling component for pulling out the glass fiber non-woven fabric cut by the cutting component;

the material shifting assembly comprises a first supporting plate arranged on the rack in an axial sliding mode along the inflatable shaft and a sixth driver used for driving the first supporting plate to slide;

the cutting assembly comprises a second supporting plate arranged on the first supporting plate in a sliding mode along the radial direction of the inflatable shaft, a seventh driver used for driving the second supporting plate, a cutting saw blade arranged on the second supporting plate and an eighth driver used for driving the cutting saw blade to rotate;

a fixing frame used for bearing the cutting saw blade is arranged between the cutting saw blade and the second supporting plate.

10. The automatic sizing and splitting machine for glass fiber non-woven fabric rolls as claimed in any one of claims 1 to 8, wherein the feeding mechanism comprises:

the base is arranged on the rack in a sliding manner, and a material pushing plate used for pushing the glass fiber non-woven fabric to roll to the positioning mechanism to move is arranged on the base;

and the ninth driver is used for driving the base to slide along the axial direction of the air inflation shaft.

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