CN217534867U - Driving roller feeding device of flexible material cutting equipment - Google Patents

Abstract

The utility model discloses an active roller feeding device of flexible material cutting equipment, which comprises a frame, wherein a gantry is arranged on the frame, the gantry is arranged on the frame in a sliding manner, a feeding mechanism for conveying flexible materials is also arranged on the frame, and a material spreading mechanism for spreading the flexible materials is arranged on the gantry; the material spreading mechanism comprises a first speed reduction motor, a first sliding plate, a first rack and a material spreading assembly, wherein the first rack is arranged on the gantry, the first sliding plate is arranged on the gantry in a sliding mode, the material spreading assembly is arranged on the first sliding plate, the first speed reduction motor is arranged on the first sliding plate, and the output end of the first speed reduction motor is in transmission connection with the first rack. When the flexible material is spread, the flexible material is placed on the rack, the first sliding plate is driven to move on the gantry under the driving of the first speed reducing motor, and then the spreading component is driven to move on the gantry, so that the cutting and spreading component moves to the position of the flexible material folds to scrape the flexible material, and the utilization rate of the flexible material is improved.

Description

Driving roller feeding device of flexible material cutting equipment

Technical Field

The utility model belongs to the technical field of the flexible material processing technique and specifically relates to a flexible material cutting equipment's initiative cylinder material feeding unit is related to.

Background

A flexible material cutting device is a device for cutting a flexible material into a required shape. When the flexible material cutting device is used, the feeding device is needed to convey the flexible material to the position below the cutting device, and then the cutting device cuts the flexible material. When the flexible material under the cutting device is not sufficiently flat, the cutting effect of the cutting device may be reduced.

At present, the application of a Chinese utility model with the publication number of CN214455537U and the publication number of 2021, 10 months and 22 days provides a flexible material anti-wrinkling mechanism, which comprises a base, wherein a bottom plate is arranged at the top of the base, two groups of support rods are arranged on two sides of the bottom plate at the top of the base, a slide rail is arranged on the surface of each group of support rods, the slide rail is connected with a connecting column in a sliding manner, one end of the connecting column, which is far away from the slide rail, is connected with a rotating column, two groups of water injection ports are arranged on the outer wall of one side of the rotating column, and the surface of the rotating column is connected with a roller; the utility model discloses effectively solved flexible material and produced fold and unedged condition in transportation process, avoided taking place because of the condition that the finished product that the flexible material fold leads to producing has the flaw, effectively improved the yield of production work.

In view of the above-mentioned related art, the inventor believes that, when the flexible material is placed on a feeding table during cutting, the flexible material is prone to wrinkle; when using the cylinder to expand the great depths of flexible material fold, the cylinder can be pressed fold department and pile up, and then damages flexible material, and then reduces flexible material's utilization ratio.

SUMMERY OF THE UTILITY MODEL

In order to improve the utilization ratio to the flexible material, the utility model provides a flexible material cutting equipment's initiative cylinder material feeding unit.

The utility model provides a pair of flexible material cutting equipment's initiative cylinder material feeding unit adopts following technical scheme:

a driving roller feeding device of flexible material cutting equipment comprises a rack, wherein a gantry is arranged on the rack, the gantry is arranged on the rack in a sliding manner, a feeding mechanism for conveying flexible materials is further arranged on the rack, and a material spreading mechanism for spreading the flexible materials is arranged on the gantry;

the material spreading mechanism comprises a first sliding assembly, a second sliding assembly and a material spreading assembly, wherein the first sliding assembly is arranged on the gantry in a sliding mode, the second sliding assembly is arranged on the first sliding assembly in a sliding mode, and the material spreading assembly is arranged on the second sliding assembly;

the material spreading assembly comprises a connecting rod and a scraping plate, the connecting rod is rotatably arranged on the second sliding assembly, and the scraping plate is arranged on the connecting rod.

Through adopting above-mentioned technical scheme, when spreading the material to flexible material, place flexible material in the frame, can drive the connecting rod and remove when the slip subassembly slides on the longmen, and then drive and scrape the flitch and remove on the longmen, the connecting rod rotates and can drive and scrape the flitch rotation, makes to scrape the flitch and remove to the position of flexible material fold and strickle off flexible material, and then improves the utilization ratio to flexible material.

Optionally, the first sliding assembly includes a first gear motor, a first sliding plate, and a first rack, the first rack is disposed on the gantry, the first sliding plate is slidably disposed on the gantry, the first gear motor is disposed on the first sliding plate, and an output end of the first gear motor is in transmission connection with the first rack.

Through adopting above-mentioned technical scheme, first slide of output drive of first gear motor moves on longmen, and then drives the connecting rod and scrape the flitch and move on longmen, and then can make and scrape the flitch and strickle off flexible material most fold region.

Optionally, the first sliding assembly further includes a first sliding block and a first sliding rail, the first sliding rail is disposed on the gantry, the first sliding block is disposed on the first sliding plate, and the first sliding block is slidably disposed on the first sliding rail.

Through adopting above-mentioned technical scheme, first slider slides on first slide rail, and then drives first slide and slide on longmen, because the setting of first slider and first slide rail, makes first gear motor's output and first rack interlock more accurate, and then makes longmen move on the frame at the steady uniform velocity in the frame.

Optionally, the second sliding assembly includes a second sliding plate and an air cylinder, the second sliding plate is slidably disposed on the first sliding plate, the air cylinder is disposed on the second sliding plate, an output end of the air cylinder is in transmission connection with the second sliding plate, and the material spreading assembly is disposed on the second sliding plate.

Through adopting above-mentioned technical scheme, the output of cylinder can drive the second slide and remove, and then drives and cut the exhibition material spare and remove, makes the exhibition material subassembly keep away from the flexible material, and then reduces the probability that the exhibition material subassembly lacerated flexible material leveling zone.

Optionally, the second sliding assembly further includes a second sliding rail and a second sliding block, the second sliding rail is disposed on the first sliding plate, the second sliding block is disposed on the second sliding plate, and the second sliding block is slidably disposed on the second sliding rail.

Through adopting above-mentioned technical scheme, the second slider slides on the second slide rail, and then drives the second slide and remove on first slide, makes the cylinder more smooth drive second slide on first slide.

Optionally, the second sliding assembly further includes a second speed reduction motor, the second speed reduction motor is disposed on the second sliding plate, one end of the connecting rod is in transmission connection with an output end of the second speed reduction motor, and the other end of the connecting rod is connected with the scraper plate.

Through adopting above-mentioned technical scheme, when spreading the material to flexible material, second gear motor can drive the connecting rod and rotate, and then can drive and scrape the flitch and rotate, and then can strickle off to the region of fold on the flexible material.

Optionally, a second rack and a gantry support seat are arranged on the frame, a third gear motor is arranged on the gantry, the gantry support seat is slidably arranged on the frame, the gantry is arranged on the gantry support seat, and an output end of the third gear motor is in transmission connection with the second rack.

By adopting the technical scheme, the gantry support can slide on the frame under the driving of the third speed reduction motor, the gantry support can drive the gantry to move on the frame, and then the material spreading mechanism is driven to move on the frame, so that the material spreading mechanism can scrape the area of the flexible material folds on the frame.

Optionally, the feeding mechanism includes a fourth speed reduction motor and a driving roller, the fourth speed reduction motor is disposed on the frame, the driving roller is rotatably disposed on the frame, an output end of the fourth speed reduction motor is in transmission connection with the driving roller, and linear speeds of the fourth speed reduction motor and the third speed reduction motor are synchronously controlled by an electric signal.

By adopting the technical scheme, the fourth speed reducing motor can drive the driving roller to rotate so as to drive the conveying belt to rotate, so that the flexible material moves along with the conveying belt; the linear speeds of the third speed reducing motor and the fourth speed reducing motor are the same, so that the moving speed of the flexible material is the same as that of the scraping plate, the scraping plate can scrape the fold of the flexible material all the time, and the probability of the flexible material accumulating on the conveying belt can be reduced; because the third gear motor and the fourth gear motor are arranged at the same linear speed, the scraping plate can be moved on the frame while scraping the folds of the flexible material, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic overall structure diagram of embodiment 1 of the present application;

fig. 2 is an enlarged view of a portion a of fig. 1.

Description of reference numerals: 100. a frame; 200. a material spreading mechanism; 210. a first slide assembly; 211. a first reduction motor; 212. a first slide plate; 213. a first rack; 214. a first slider; 215. a first slide rail; 220. a second slide assembly; 221. a second reduction motor; 222. a second slide plate; 223. a second slider; 224. a second slide rail; 225. a cylinder; 230. a material spreading component; 231. a connecting rod; 232. a scraping plate; 300. a feeding mechanism; 310. a fourth reduction motor; 320. a driving roller; 330. a conveyor belt; 400. a second rack; 500. a third reduction motor; 600. a gantry; 700. gantry supporting seat.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-2.

The embodiment of the application discloses flexible material cutting equipment's initiative cylinder material feeding unit, refers to fig. 1, and a flexible material cutting equipment's initiative cylinder material feeding unit includes frame 100, and the length direction of setting for frame 100 is the X axle direction, and the width direction of frame 100 is the Y axle direction, and vertical direction is the Z axle direction. The gantry 600 is arranged on the rack 100, the gantry 600 is arranged on the rack 100 in a sliding manner, the rack 100 is also provided with a feeding mechanism 300 for conveying flexible materials, and the gantry 600 is provided with a material spreading mechanism 200 for spreading the flexible materials; when the flexible material is spread, the flexible material is placed on the rack 100, and under the driving of the first speed reduction motor 211, the first sliding plate 212 is driven to move on the gantry 600, so that the spreading component 230 is driven to move on the gantry 600, the spreading component 230 moves to the position of the flexible material folds to scrape the flexible material, and the utilization rate of the flexible material is improved.

Referring to fig. 1, the feeding mechanism 300 includes a fourth gear motor 310, a driving roller 320, a driving wheel and a driven wheel, the fourth gear motor 310 is connected to the frame 100 through a screw, the driving roller 320 is connected to the frame 100 through a bearing seat, the driving wheel is connected to an output end of the fourth gear motor 310 through a screw, the driven wheel is connected to the driving roller 320 through a screw, and the driving wheel and the driven wheel are in transmission connection through a belt; the fourth gear motor 310 can drive the driving roller 320 to rotate, so as to drive the conveying belt 330 to rotate, so that the flexible material can move along with the conveying belt 330.

Referring to fig. 1, a second rack 400 and a gantry supporting seat 700 are further arranged on the rack 100, a third reduction motor 500 is arranged on the gantry 600, the gantry supporting seat 700 is arranged on the rack 100 in a sliding manner along the X-axis direction, the gantry 600 is connected to the gantry supporting seat 700 through screws, the second rack 400 is connected to the rack 100 through screws along the X-axis direction, the third reduction motor 500 is connected to the gantry 600 through screws, and an output end of the third reduction motor 500 is in transmission connection with the second rack 400 through a gear; the gantry 600 is supported and can slide on the rack 100 along the X-axis direction under the driving of the third speed reduction motor 500, the gantry supporting seat 700 can drive the gantry 600 to move on the rack 100 along the X-axis direction, and then drive the material spreading mechanism 200 to move on the rack 100, and then the material spreading mechanism 200 can be enabled to spread the area of the flexible material wrinkles on the rack 100.

Referring to fig. 2, the material spreading mechanism 200 includes a first sliding assembly 210, the first sliding assembly 210 includes a first speed reduction motor 211, a first sliding plate 212, a first rack 213, a first sliding block 214 and a first sliding rail 215, the first rack 213 is connected to the gantry 600 through a screw, and the first rack 213 is arranged along the Y-axis direction; the first slide rail 215 is connected to the gantry 600 along the Y-axis direction through a screw, the first slider 214 is connected to the first slide plate 212 through a screw, the first slide plate 212 is slidably disposed on the first slide rail 215 along the Y-axis direction through the first slider 214, the first speed reduction motor 211 is connected to the first slide plate 212 through a screw, and the output end of the first speed reduction motor 211 is in transmission connection with the first rack 213 through a gear; the first sliding block 214 slides on the first sliding rail 215 to further drive the first sliding plate 212 to slide on the gantry 600 along the Y-axis direction, and due to the arrangement of the first sliding block 214 and the first sliding rail 215, the output end of the first speed reduction motor 211 is engaged with the first rack 213 more accurately, so as to reduce the probability of deviation of the first sliding plate 212 when sliding on the gantry 600.

Referring to fig. 2, the spreading mechanism 200 further includes a second sliding assembly 220, the second sliding assembly 220 includes a second sliding rail 224, a second sliding block 223, a second sliding plate 222, and a cylinder 225, the second sliding rail 224 is connected to the first sliding plate 212 through a screw, the second sliding block 223 is connected to the second sliding plate 222 through a screw, the second sliding plate 222 is connected to the second sliding rail 224 through the second sliding block 223 in a sliding manner, the second sliding plate 222 slides in the Z-axis direction, the cylinder 225 is connected to the first sliding plate 212 through a screw, and an output end of the cylinder 225 is connected to the second sliding plate 222 through a screw; the second slide block 223 slides on the second slide rail 224 along the Z-axis direction, and then drives the second slide plate 222 to move up and down on the first slide plate 212, so that the cylinder 225 can drive the second slide plate 222 to slide on the first slide plate 212 more smoothly.

Referring to fig. 2, the material spreading mechanism 200 further includes a material spreading assembly 230, the material spreading assembly 230 includes a connecting rod 231 and a scraper plate 232, the second sliding assembly 220 further includes a second speed reducing motor 221, the second speed reducing motor 221 is connected to the second sliding plate 222 through a screw, an output end of the second speed reducing motor 221 is in transmission connection with the connecting rod 231 through a gear, the connecting rod 231 can rotate in the Z-axis direction, and the scraper plate 232 is connected to the connecting rod 231 through a screw; when spreading the material to the flexible material, the second gear motor 221 can drive the connecting rod 231 to rotate, and then can drive the scraping plate 232 to rotate, and then can scrape the area of the fold on the flexible material.

The linear speeds of the third reduction motor 500 and the fourth reduction motor 310 are set to be the same, so that the moving speed of the flexible material is the same as that of the scraping plate 232, the scraping plate 232 can scrape the wrinkles of the flexible material all the time, and the probability of the flexible material being stacked on the conveying belt 330 can also be reduced; because the linear speeds of the third reduction motor 500 and the fourth reduction motor 310 are the same, the scraping plate 232 can be moved on the frame 100 while scraping the folds of the flexible material, and the working efficiency is further improved.

The implementation principle of the driving roller feeding device of the flexible material cutting equipment in the embodiment of the application is as follows: when feeding and spreading the flexible material, firstly placing the flexible material on the rack 100, starting the cylinder 225 to lift the scraping plate 232 upwards, then starting the third speed reducing motor 500 to move the gantry 600 to one end of the rack 100, then starting the first speed reducing motor 211 to drive the scraping plate 232 to move on the gantry 600 by the first sliding plate 212, so that the scraping plate 232 moves to the fold of the flexible material, then starting the cylinder 225 to move the scraping plate 232 downwards to contact the flexible material, and starting the first speed reducing motor 211 to drive the scraping plate 232 to scrape the fold; when the wrinkle lines are different in direction, the second speed reducing motor 221 can be started to enable the scraping plate 232 to rotate, and the wrinkle part is scraped; in the scraping process, the linear speeds of the fourth speed reduction motor 310 and the third speed reduction motor 500 are always kept consistent, so that the scraping plate 232 and the flexible material are prevented from moving relatively, and the damage to the flexible material is reduced.

Above is the preferred embodiment of the utility model, not limit according to this the utility model discloses a protection scope, the event: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a flexible material cutting equipment's initiative cylinder material feeding unit which characterized in that: the device comprises a rack (100), wherein a gantry (600) is arranged on the rack (100), the gantry (600) is arranged on the rack (100) in a sliding manner, a feeding mechanism (300) for conveying a flexible material is also arranged on the rack (100), and a spreading mechanism (200) for spreading the flexible material is arranged on the gantry (600);

the material spreading mechanism (200) comprises a first sliding assembly (210), a second sliding assembly (220) and a material spreading assembly (230), wherein the first sliding assembly (210) is arranged on the gantry (600) in a sliding mode, the second sliding assembly (220) is arranged on the first sliding assembly (210) in a sliding mode, and the material spreading assembly (230) is arranged on the second sliding assembly (220);

the material spreading assembly (230) comprises a connecting rod (231) and a material scraping plate (232), the connecting rod (231) is rotatably arranged on the second sliding assembly (220), and the material scraping plate (232) is arranged on the connecting rod (231).

2. The active roller feed of a flexible material cutting apparatus as defined in claim 1, wherein: the first sliding assembly (210) comprises a first speed reduction motor (211), a first sliding plate (212) and a first rack (213), the first rack (213) is arranged on the gantry (600), the first sliding plate (212) is arranged on the gantry (600) in a sliding mode, the first speed reduction motor (211) is arranged on the first sliding plate (212), and the output end of the first speed reduction motor (211) is in transmission connection with the first rack (213).

3. The active roller feed of a flexible material cutting apparatus as defined in claim 2, wherein: the first sliding assembly (210) further comprises a first sliding block (214) and a first sliding rail (215), the first sliding rail (215) is arranged on the gantry (600), the first sliding block (214) is arranged on the first sliding plate (212), and the first sliding block (214) is arranged on the first sliding rail (215) in a sliding manner.

4. The active roller feed of a flexible material cutting apparatus as claimed in any one of claims 2 or 3, wherein: the second sliding assembly (220) comprises a second sliding plate (222) and an air cylinder (225), the second sliding plate (222) is arranged on the first sliding plate (212) in a sliding mode, the air cylinder (225) is arranged on the second sliding plate (222), the output end of the air cylinder (225) is in transmission connection with the second sliding plate (222), and the material spreading assembly (230) is arranged on the second sliding plate (222).

5. The active roller feed of a flexible material cutting apparatus as defined in claim 4, wherein: the second sliding assembly (220) further comprises a second sliding rail (224) and a second sliding block (223), the second sliding rail (224) is arranged on the first sliding plate (212), the second sliding block (223) is arranged on the second sliding plate (222), and the second sliding block (223) is arranged on the second sliding rail (224) in a sliding mode.

6. The active roller feed of a flexible material cutting apparatus as defined in claim 5, wherein: the second sliding assembly (220) further comprises a second speed reducing motor (221), the second speed reducing motor (221) is arranged on the second sliding plate (222), one end of a connecting rod (231) is in transmission connection with the output end of the second speed reducing motor (221), and the other end of the connecting rod (231) is connected with the scraping plate (232).

7. The active roll feeder of a flexible material cutting machine as claimed in claim 1, wherein: the gantry crane is characterized in that a second rack (400) and a gantry supporting seat (700) are arranged on the rack (100), a third speed reduction motor (500) is arranged on the gantry (600), the gantry supporting seat (700) is arranged on the rack (100) in a sliding mode, the gantry (600) is arranged on the gantry supporting seat (700), and the output end of the third speed reduction motor (500) is in transmission connection with the second rack (400).

8. The active roller feed of a flexible material cutting apparatus as defined in claim 7, wherein: the feeding mechanism (300) comprises a fourth speed reduction motor (310) and a driving roller (320), the fourth speed reduction motor (310) is arranged on the rack (100), the driving roller (320) is rotatably arranged on the rack (100), the output end of the fourth speed reduction motor (310) is in transmission connection with the driving roller (320), and the linear speed of the fourth speed reduction motor (310) is connected with the linear speed of the third speed reduction motor (500) through an electric signal.

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