CN115319306A - Fabric cutting device for fabric processing - Google Patents

Abstract

The invention discloses a fabric cutting device for fabric processing, which comprises a cutting table, a fixed base and a multi-shaft adjusting assembly, wherein the fixed base is fixedly arranged at the bottom of the cutting table and plays a supporting role, the multi-shaft adjusting assembly is arranged at the top of the cutting table, a miniature electric push rod drives a limit steel ring to pull a folded fabric to cover a laser head, then airflow in an installation fan cover is guided into an active carbon filter box through a flow guide fan to be filtered and then discharged, so that the pungent smell generated by laser cutting can be favorably filtered, the limit mechanism is arranged in the cutting table, an installation bottom plate is driven by an electric slide block to move in an inner rail of a limit guide rail, and an installation top plate and a transmission shaft roller are driven by a high-precision push rod to perform height adjusting action, so that the transmission shaft roller and a clamping roller form clamping action under the cooperation of an anti-skid outer sleeve.

Description

Fabric cutting device for fabric processing

Technical Field

The invention relates to the related field of fabric processing, in particular to a fabric cutting device for fabric processing.

Background

The fabric is widely used in the fields of clothing, home furnishing and the like, the processing requirements of the fabric are different according to different use conditions, the fabric processing is divided into the operations of ironing, dyeing, mixing, refining, cutting and the like, and the fabric cutting is convenient for the operation of containing the fabric and the like.

Most of the existing fabric cutting devices are single in structure, and the cut fabric is difficult to further pull and guide, so that the fabric needs to be fed again by manpower after being cut, and meanwhile, the existing fabric is easy to crack and cross due to the fact that the fabric is straightened in the cutting process; the existing fabric processing also lacks an airflow purification part at the processing position, and the pollution phenomenon of the processing phenomenon is easily caused.

Disclosure of Invention

Therefore, in order to solve the above disadvantages, the present invention provides a fabric cutting device for fabric processing.

The invention is realized in such a way that a fabric cutting device for fabric processing is constructed, the device comprises a cutting table, a fixed base which is fixedly arranged at the bottom of the cutting table and plays a supporting role for the fixed base, and a multi-shaft adjusting component which is arranged at the top of the cutting table, the right side of the front end of the cutting table is provided with a driving motor, a fixed roller which is rotatably arranged at the left side in the cutting table, and a control panel which is arranged at the left side of the front end of the cutting table, the right side in the cutting table is rotatably provided with a driving roller and a laser head which is arranged in the cutting table, the left side of the top of the fixed base is provided with the fixed roller, and the multi-shaft adjusting component, the driving motor and the laser head are all electrically connected with the control panel, still including installing at the inside stop gear of tailoring table and installing the filtering mechanism in multiaxis adjusting part diaphragm bottom, stop gear is including installing the limit rail at both sides inner wall around tailoring table, the slide of limit rail top inner rail is provided with electronic slider, install at electronic slider top and play the mounting plate of supporting role to clamping mechanism, the mounting plate left and right sides all is equipped with clamping mechanism and installs the first electromagnetic clutch at the mounting plate front end and set up at the inside first spacing bearing of mounting plate, torque sensor is installed to the mounting plate rear end of the inside rear side of tailoring table, tight roller is installed to the inside change of first spacing bearing, electronic slider and first electromagnetic clutch and torque sensor all are connected with the control panel electricity.

Preferably, fixture is including installing the high accuracy push rod in the bottom of the link plate of the mounting plate left and right sides, the installation roof is installed to high accuracy push rod top push rod, servo motor is installed to the installation roof rear end of the inside rear side of tailoring table, second electromagnetic clutch is installed to the installation roof front end of the inside front side of tailoring table, installation roof internally mounted has the spacing bearing of second, the transmission beam barrel is installed to the inside change of the spacing bearing of second, transmission beam barrel outside fixed mounting has anti-skidding overcoat, high accuracy push rod and servo motor and second electromagnetic clutch electricity are connected.

Preferably, filtering mechanism is including installing the installation fan housing in multiaxis adjusting part regulation diaphragm bottom, the folding surface fabric in installation fan housing bottom is installed to installation fan housing inboard bottom and is installed the laser head and install and play the regulatory action to spacing steel ring at installation fan housing top miniature electric push rod and elastic mounting, installation fan housing right-hand member pipe installation has the honeycomb duct that plays the water conservancy diversion effect, spacing steel ring is installed to miniature electric push rod bottom push rod, spacing steel ring is installed to folding surface fabric bottom, the honeycomb duct pipe-line mounting is in active carbon filter bottom, the active carbon filter box is installed and is being tailor bench top and the water conservancy diversion fan that the bolt was installed and play the water conservancy diversion effect at active carbon filter top, miniature electric push rod and water conservancy diversion fan all are connected with control panel electricity.

Preferably, the shape stroke length of the limiting guide rails is the same as the center distance of the guide roller and the driving roller, and the two groups of limiting guide rails inside the cutting table are symmetrically distributed.

Preferably, the left and right sides at the top and the bottom of the mounting bottom plate and the mounting top plate are both provided with connecting plates with the width of centimeter, and the mounting bottom plate and the mounting top plate are symmetrically distributed up and down.

Preferably, the antiskid outer sleeve on the outer side of the transmission shaft roller is provided with miniature bulges playing an antiskid role, and the clamping roller and the transmission shaft roller are in overlapped distribution of a circle center line.

Preferably, five layers of filter screens are arranged in the activated carbon filter box, and the five layers of filter screens are made of activated carbon, steel wires, adsorption cotton, steel wires and activated carbon from top to bottom.

Preferably, the folding fabric is made of nylon.

Preferably, the material of the mounting top plate is steel.

The invention has the following advantages: the invention provides a fabric cutting device for fabric processing through improvement, which has the following improvements compared with the same type of equipment:

according to the fabric cutting device for fabric processing, the filtering mechanism is arranged at the bottom of the multi-shaft adjusting assembly, the miniature electric push rod drives the limiting steel ring to pull the folded fabric to cover the laser head, and then the airflow in the installed fan cover is guided into the activated carbon filter box through the flow guide fan to be filtered and then discharged, so that the filtering of pungent smell generated by laser cutting is improved.

According to the fabric cutting device for fabric processing, the limiting mechanism is arranged in the cutting table, the electric sliding block drives the installation bottom plate to displace on the inner rail of the limiting guide rail, the high-precision push rod drives the installation top plate and the transmission shaft roller to perform height adjustment, so that the transmission shaft roller and the clamping roller form clamping action under the cooperation of the anti-skidding outer sleeve, power and torque monitoring is provided for the transmission of the transmission shaft roller through the servo motor and the torque sensor, the first electromagnetic clutch and the second electromagnetic clutch are used for length locking, and the fabric cutting precision and the fabric cutting effect are improved.

Drawings

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

FIG. 2 is a schematic view of the limiting mechanism and the filtering mechanism of the present invention;

FIG. 3 is a schematic perspective view of the spacing mechanism of the present invention;

FIG. 4 is a perspective exploded view of the clamping mechanism of the present invention;

fig. 5 is a schematic perspective view of the filter mechanism of the present invention.

Wherein: the cutting machine comprises a cutting table-1, a fixed base-2, a multi-axis adjusting component-3, a driving motor-4, a filtering mechanism-5, a fixed roller-6, a guide roller-7, a control panel-8, a limiting mechanism-9, a driving roller-10, a laser head-11, an installation fan cover-51, a micro electric push rod-52, a guide pipe-53, a folded fabric-54, a limiting steel ring-55, an active carbon filter box-56, a guide fan-57, a limiting guide rail-91, an electric sliding block-92, an installation bottom plate-93, a clamping mechanism-94, a first electromagnetic clutch-95, a first limiting bearing-96, a clamping roller-97, a torque sensor-98, a high-precision push rod-941, an installation top plate-942, a second limiting bearing-943, a transmission shaft roller-944, an anti-skid outer sleeve-945, a servo motor-946 and a second electromagnetic clutch 947.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, the fabric cutting device for fabric processing of the present invention comprises a cutting table 1, a fixing base 2 fixedly installed at the bottom of the cutting table 1 and supporting the cutting table, and a multi-axis adjusting assembly 3 installed at the top of the cutting table 1, wherein a driving motor 4, a fixing roller 6 rotatably installed at the left side inside the cutting table 1, and a control panel 8 installed at the left side of the front end of the cutting table 1 are installed at the right side of the front end of the cutting table 1, a driving roller 10 and a laser head 11 installed inside the cutting table 1 are rotatably installed at the right side inside the cutting table 1, the fixing roller 6 is installed at the left side of the top of the fixing base 2, and the multi-axis adjusting assembly 3, the driving motor 4, and the laser head 11 are electrically connected with the control panel 8.

Referring to fig. 2, 3 and 4, the fabric cutting device for fabric processing of the present invention further includes a limiting mechanism 9 installed inside the cutting table 1 and a filtering mechanism 5 installed at the bottom of the transverse plate of the multi-axis adjusting assembly 3, the limiting mechanism 9 includes limiting guide rails 91 installed at the front and rear inner walls of the cutting table 1, an electric slider 92 is slidably installed at the top inner rail of the limiting guide rail 91, the electric slider 92 is provided with a limiting effect through the limiting guide rail 91, a mounting base plate 93 for supporting the clamping mechanism 94 is installed at the top of the electric slider 92, clamping mechanisms 94, a first electromagnetic clutch 95 installed at the front end of the mounting base plate 93 and a first limiting bearing 96 installed inside the mounting base plate 93 are installed at the left and right sides of the mounting base plate 93, a torque sensor 98 is installed at the rear end of the mounting base plate 93 at the rear side inside the cutting table 1, a clamping roller 97 is installed at the inner swivel ring of the first limiting bearing 96, the electric slider 92, the first electromagnetic clutch 95 and the torque sensor 9498 are electrically connected with the control panel 8, a torque sensor 9495 is installed at the rear end of the mounting base plate 93, a torque sensor 9498 is installed at the rear end of the mounting base plate 93, a torque sensor 9495 is installed at the rear side of the mounting base plate, a second electromagnetic clutch 942 is installed at the top plate 942, a high-precision top plate 942, a second electromagnetic clutch mechanism 942 is installed at the front and rear side of the mounting base plate 942, a high-precision push rod 942, a high-push rod 942 is installed at the front and a high-push rod 942, a high-precision push rod 942 is installed at the front-push rod 942, a high-precision push rod 942 is installed at the front-precision push rod 942, a high-precision push rod 942 is installed at the top-push rod 942, a high-precision push rod 941 push rod 942 is installed at the top-push rod 942, the transmission beam barrel 944 is installed to the inside change of second spacing bearing 943, transmission beam barrel 944 outside fixed mounting has anti-skidding overcoat 945, provide the tight antiskid effect of clamp through anti-skidding overcoat 945 for transmission beam barrel 944, high accuracy push rod 941 and servo motor 946 and second electromagnetic clutch 947 electricity are connected, provide the electric energy for high accuracy push rod 941 and servo motor 946, the shape journey length of spacing guide rail 91 is the same with the centre of a circle distance of guide roll 7 and drive roller 10, and two sets of spacing guide rail 91 of tailoring table 1 inside are the symmetric distribution, improve the regulation effect of spacing guide rail 91, the left and right sides at the top and the bottom of mounting plate 93 and installation roof 942 all is equipped with the link plate that the width is 6 centimetres, and mounting plate 93 and mounting roof 942 are upper and lower symmetric distribution, improve the regulation effect of mounting plate 93 and mounting roof 942, anti-skidding overcoat 945 outside transmission beam barrel 944 is equipped with the miniature arch that plays the antiskid effect, and pinch roll 97 and transmission beam barrel 944 are the line overlapping distribution, improve the tight antiskid effect of antiskid overcoat 945 and pinch roll 97.

Referring to fig. 5, a fabric cutting device for fabric processing according to the present invention includes a mounting fan housing 51 mounted at the bottom of an adjusting transverse plate of a multi-axis adjusting assembly 3, a laser head 11 mounted at the bottom of the inner side of the mounting fan housing 51, a micro electric push rod 52 mounted at the top of the mounting fan housing 51 for adjusting a position-limiting steel ring 55, and a folded fabric 54 elastically mounted at the bottom of the mounting fan housing 51, the position-limiting steel ring 55 is adjusted by the micro electric push rod 52, a flow guide pipe 53 for guiding flow is mounted in a pipeline at the right end of the mounting fan housing 51, the position-limiting steel ring 55 is mounted at the bottom of the micro electric push rod 52, the position-limiting steel ring 55 is mounted at the bottom of the folded fabric 54, the flow guide pipe 53 is mounted at the bottom of an activated carbon filter box 56, the activated carbon filter box 56 is mounted at the top of the cutting table 1, a flow guide fan 57 for guiding flow is mounted at the top of the activated carbon filter box 56 by bolts, the micro electric push rod 52 and the flow guide fan 57 are electrically connected to a control panel 8, electric energy is provided for the micro electric push rod 52 and the flow guide fan 57, the activated carbon filter box 56 is provided with five layers of activated carbon filters from top to bottom, and the activated carbon filter screen is provided with a steel wire-activated carbon filter screen.

The second embodiment:

according to the fabric cutting device for fabric processing, the front end and the rear end of the clamping roller 97 are respectively in bolted connection with the internal rotating shaft of the first electromagnetic clutch 95 and the front end sensing head of the torque sensor 98, locking and torque monitoring effects are provided for the clamping roller 97 through the first electromagnetic clutch 95 and the torque sensor 98, the front end and the rear end of the transmission shaft roller 944 are respectively in rotary connection with the internal rotating shaft of the second electromagnetic clutch 947 and the transmission shaft at the front end of the servo motor 946, locking and power are provided for transmission of the transmission shaft roller 944 through the second electromagnetic clutch 947 and the servo motor 946, and the top of the clamping roller 97 is in sliding connection with the bottom of the transmission shaft roller 944.

The invention provides a fabric cutting device for fabric processing through improvement, and the working principle is as follows;

firstly, when the equipment is used, the equipment is placed in a working area, and then a device is connected with an external power supply, so that the power supply required by the work of the equipment can be provided;

secondly, when the fabric is cut, a worker drives two groups of driving rollers 10 on the right side in the cutting table 1 to drive through controlling the driving motor 4, so that the fabric on the outer side of the fixing base 2 is driven inside the cutting table 1, at the moment, the electric slider 92 is controlled through the control panel 8 to drive the mounting base plate 93 to displace in the inner rail of the limiting guide rail 91, the high-precision push rods 941 on the left side and the right side of the mounting base plate 93 drive the mounting top plate 942 and the transmission shaft roller 944 to perform height adjustment, so that the transmission shaft roller 944 and the clamping roller 97 form clamping action under the matching of the anti-slip outer sleeve 945, at the moment, the transmission shaft roller 944 and the clamping roller 97 can perform flattening action on the fabric through the anti-slip outer sleeve 945, the transmission shaft roller 944 and the clamping roller 97 can be driven to follow for transmission through the fabric displacement, so that the torque sensor 98 can monitor the displacement length of the fabric through the transmission torque of the clamping roller 97, when the cutting displacement reaches the cutting length, the electromagnetic clutch is locked through the first electric motor 9495 and the second electric clutch, and the improvement of the precision and the effect of the fabric is facilitated;

thirdly, driving a limit steel ring 55 to pull a folding fabric 54 to cover the laser head 11 by controlling a micro electric push rod 52, driving the laser head 11 to move by controlling a high-precision multi-axis adjusting component 3 and enabling the laser head to work to cut the fabric, guiding air flow in the installation fan cover 51 into the activated carbon filter box 56 by a guide fan 57 to filter and then discharging the air flow, so that the pungent smell generated by laser cutting can be favorably improved to be filtered, and clamping the cut tail fabric in a transmission shaft roller 944 and a clamping roller 97;

fourth, 8 control electric slider 92 of control panel control at this moment drives mounting plate 93 and moves to the right side in limit rail 91 to inside the surface fabric tails after driving and tailorring gets into two sets of drive rollers 10, provide power for the transmission of transmission beam barrel 944 through control servo motor 946 this moment, thereby make its tails that drives the surface fabric get into inside two sets of drive rollers 10, be favorable to improving the precision of tailorring and the effect of tailorring to the surface fabric.

The invention provides a fabric cutting device for fabric processing through improvement, a limit steel ring 55 is driven by a micro electric push rod 52 to pull a folded fabric 54 to cover a laser head 11, then air flow in an installation fan cover 51 is guided into an activated carbon filter box 56 through a guide fan 57 to be filtered and then discharged, so that the pungent smell generated by laser cutting is favorably filtered, an installation base plate 93 is driven by an electric slider 92 to move in an inner rail of a limit guide rail 91, an installation top plate 942 and a transmission shaft roller 944 are driven by a high-precision push rod 941 to perform height adjustment action, so that the transmission shaft roller 944 forms clamping action with a clamping roller 97 under the cooperation of an anti-slip outer sleeve 945, power and torque monitoring is provided for the transmission of the transmission shaft roller 944 through a servo motor 946 and a torque sensor 98, and the length locking is performed through a first electromagnetic clutch 9495 and a second electromagnetic clutch 947, and the fabric cutting precision and the cutting effect are favorably improved.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a device is tailor to surface fabric for surface fabric processing, includes tailoring table (1) and fixed mounting in tailoring table (1) bottom and to its unable adjustment base (2) that play supporting role and install multiaxis adjusting part (3) at tailoring table (1) top, tailoring table (1) front end right side is installed driving motor (4) and is rotated and set up in inside left fixed roller (6) of tailoring table (1) and install in the left control panel (8) of tailoring table (1) front end, tailoring table (1) inside right side is rotated and is installed drive roller (10) and set up laser head (11) inside tailoring table (1), fixed roller (6) are installed on unable adjustment base (2) top left side, multiaxis adjusting part (3) and driving motor (4) and laser head (11) all are connected with control panel (8) electricity;

the method is characterized in that: still including installing limiting mechanism (9) inside cutting table (1) and installing filtering mechanism (5) in multiaxis adjusting part (3) diaphragm bottom, limiting mechanism (9) are including installing limiting guide rail (91) at cutting table (1) front and back both sides inner wall, limiting guide rail (91) top inner rail slides and is provided with electronic slider (92), install mounting plate (93) that play supporting role to fixture (94) at electronic slider (92) top, mounting plate (93) left and right sides all is equipped with clamping mechanism (94) and installs first electromagnetic clutch (95) at mounting plate (93) front end and sets up first limit bearing (96) inside mounting plate (93), torque sensor (98) are installed to mounting plate (93) rear end of cutting table (1) inside rear side, tight roller (97) are installed to first limit bearing (96) inside swivel, electronic electromagnetic clutch slider (92) and first electromagnetic clutch (95) and torque sensor (98) all are connected with control panel (8) electricity.

2. A fabric cutting device for fabric processing according to claim 1, characterized in that: fixture (94) are including installing high accuracy push rod (941) in mounting plate (93) left and right sides even board bottom, installation roof (942) are installed to high accuracy push rod (941) top push rod, servo motor (946) are installed to installation roof (942) rear end of tailoring table (1) inside rear side, second electromagnetic clutch (947) are installed to installation roof (942) front end of tailoring table (1) inside front side.

3. A fabric cutting device for fabric processing according to claim 2, characterized in that: install roof (942) internally mounted and have second limit bearing (943), transmission beam barrel (944) is installed to the inside change of second limit bearing (943), transmission beam barrel (944) outside fixed mounting has anti-skidding overcoat (945), high accuracy push rod (941) and servo motor (946) and second electromagnetic clutch (947) electricity are connected.

4. A fabric cutting device for fabric processing according to claim 1, characterized in that: filtering mechanism (5) are including installing installation fan housing (51) in multiaxis adjusting part (3) regulation diaphragm bottom, install laser head (11) and install in installation fan housing (51) inboard bottom and play the folding surface fabric (54) of regulating action and elastic mounting in installation fan housing (51) bottom to spacing steel ring (55) miniature electric push rod (52), installation fan housing (51) right-hand member pipe installation has honeycomb duct (53) that play the water conservancy diversion effect.

5. A fabric cutting device for fabric processing according to claim 4, characterized in that: spacing steel ring (55) is installed to miniature electric push rod (52) bottom push rod, spacing steel ring (55) is installed to folding surface fabric (54) bottom, honeycomb duct (53) pipe installation is in activated carbon filter case (56) bottom, activated carbon filter case (56) are installed at tailoring table (1) top and bolt installation plays water conservancy diversion effect at activated carbon filter case (56) top water conservancy diversion fan (57), miniature electric push rod (52) and water conservancy diversion fan (57) all are connected with control panel (8) electricity.

6. A fabric cutting device for fabric processing according to claim 1, characterized in that: the shape stroke length of the limiting guide rails (91) is the same as the center distance of the guide roller (7) and the driving roller (10), and the two groups of limiting guide rails (91) inside the cutting table (1) are symmetrically distributed.

7. A fabric cutting device for fabric processing according to claim 1, characterized in that: the left and right sides at the top and the bottom of the mounting bottom plate (93) and the mounting top plate (942) are respectively provided with a connecting plate with the width of 6 centimeters, and the mounting bottom plate (93) and the mounting top plate (942) are distributed up and down symmetrically.

8. A fabric cutting device for fabric processing according to claim 3, wherein: the antiskid outer sleeve (945) on the outer side of the transmission shaft roller (944) is provided with miniature bulges playing an antiskid role, and the clamping roller (97) and the transmission shaft roller (944) are in overlapped distribution on the circle center line.

9. A fabric cutting device for fabric processing according to claim 5, characterized in that: the activated carbon filter box (56) is internally provided with five filter screens, and the five filter screens are made of activated carbon, steel wires, adsorption cotton, steel wires and activated carbon from top to bottom.

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