Tailoring device convenient for garment processing production
Technical Field
The utility model relates to a tailoring technical field especially relates to a tailor device convenient to tailoring production.
Background
Clothes are a general term for clothes, shoes, ornaments and the like, and are often referred to as clothes. The definition of a garment in the national standard is: the product is also called as clothes, which is sewed and worn on the human body to play the role of protection and decoration. Clothing has emerged in the early stages of human society development, when ancient people made some of the material into coarse "clothing" that was worn. The first clothes of humans were mostly made of animal skins, and the earliest "fabrics" of the wraps were made of fibers such as hemp and grass. For society, clothing is a necessity for covering and decorating, and is not only worn, but also represents identity, a life attitude and individual charm.
The garment processing is a garment production method which mainly adopts modern machine processing and assists in manual processing, wherein garment cutting is an essential part in garment processing production, but a high-efficiency cutting device for garment materials is lacked at present, and due to different elasticity of different garment materials, the current cloth cutting device is difficult to well fix the garment materials, so that the conditions of irregular surface cutting and the like are often caused. Therefore, the utility model provides a tailoring device convenient for garment processing and production, which solves the problems mentioned in the background technology.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the defects existing in the prior art and providing a tailoring device convenient for garment processing and production.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides a tailor device convenient to tailoring production, includes device platform and guillootine, device platform fixed surface installs the slide, be provided with the slip table on the slide, the motor is installed to the upside in the middle of the slip table, both ends all are provided with the fixed plate that is located the slide outside about the slip table, slip table downside both ends all are provided with the lifter plate, the both ends downside of lifter plate all is provided with L shape clamp plate, both sides it is connected with two rotating turret to rotate between the lifter plate, it is connected with the compression roller to rotate on the rotating turret.
Preferably, the guillotine translation slides in the slip table downside, and the slip table translation slides on the slide, is provided with drive arrangement between slip table both ends and the slide, and the inside drive arrangement who is connected with the guillotine that is provided with in the slip table.
Preferably, the bottom of the sliding table is connected with two toothed plates in a sliding manner, a meshed gear is arranged between the two toothed plates, and the gear is fixedly connected with a motor shaft of the upper motor.
Preferably, both sides the fixed plate all rotates to be connected on the slip table, and the fixed plate inboard is fixed with half fluted roller, and both sides pinion rack upside all is provided with the tooth's socket with half fluted roller meshing.
Preferably, a sliding column penetrating through two ends of the lifting plate is fixed on the lower side of the sliding table, the lifting plate slides up and down on the lower side of the sliding table, a first inclined block is arranged on the lower side of the toothed plate, and a second inclined block corresponding to the first inclined block is arranged on the inner side of the lifting plate.
Preferably, the inner side of the L-shaped pressing plate is provided with a plurality of sliding rods penetrating through the lifting plate, the lifting plate slides up and down between the L-shaped pressing plates at two ends, and the periphery of each sliding rod is sleeved with a compression spring positioned on the lower side of the L-shaped pressing plate.
Compared with the prior art, the beneficial effects of the utility model are that:
1. the utility model discloses the surface fabric fixed knot that sets up constructs improves motor drive as fixed power, makes the both sides fixed plate cooperation slide fixed slip table position, when guaranteeing that the guillootine stabilizes the environment of cutting, makes four corners L shape clamp plate push down the four corners at downside position, further stabilizes the slip table, cooperates simultaneously and opens the compression roller of pacifying the surface fabric, when guaranteeing the cutting quality, makes the surface fabric unlikely to be destroyed elasticity and the tension characteristic of surface fabric itself by powerful pressure fixed knot structure;
2. the utility model discloses the surface fabric that sets up cuts the structure, through will cutting equipment and install in the slip table bottom surface, will cut the surface fabric and lay on the device bench, by the removal of drive arrangement control slip table, through setting up the surface fabric fixed equipment on the slip table, cuts fixed surface fabric fast, greatly improves the surface fabric of device and tailors efficiency.
Drawings
Fig. 1 is a schematic structural view of a cutting device for facilitating garment processing and production provided by the present invention;
FIG. 2 is a schematic view of a bottom structure of a sliding table in a cutting device for facilitating garment processing and production according to the present invention;
FIG. 3 is a schematic view of a partially developed structure of a sliding table in a cutting device for facilitating garment manufacturing according to the present invention;
fig. 4 is the utility model provides a face sectional structure schematic diagram is pitched to slip table in tailorring device convenient to tailoring production.
In the figure: 1. a mounting stage; 2. a slide base; 3. a sliding table; 4. a motor; 5. a fixing plate; 6. a cutting machine; 7. a half-toothed roller; 8. a toothed plate; 9. a lifting plate; 10. an L-shaped pressing plate; 11. a rotating frame; 12. a compression roller; 14. a first inclined block; 15. a second inclined block; 16. a compression spring; 17. a traveler; 18. a gear.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Referring to fig. 1-4, a cutting device convenient for garment processing production comprises a device table 1 and a cutting machine 6, wherein a sliding seat 2 is fixedly arranged on the surface of the device table 1, a sliding table 3 is arranged on the sliding seat 2, the cutting machine 6 slides on the lower side of the sliding table 3 in a translation manner, the sliding table 3 slides on the sliding seat 2 in a translation manner, a driving device is arranged between two ends of the sliding table 3 and the sliding seat 2, a driving device connected with the cutting machine 6 is arranged inside the sliding table 3, cloth to be cut is placed on the surface of the device table 1, and the cutting machine 6 on the sliding table 3 and the lower part of the sliding table 3 is controlled to move to a position above a specified cutting part of the fabric through the driving device on the sliding table 3;
further, a motor 4 is installed on the upper side of the middle of the sliding table 3, fixing plates 5 located on the outer side of the sliding base 2 are arranged at the left end and the right end of the sliding table 3, two toothed plates 8 are connected to the bottom of the sliding table 3 in a sliding mode, a meshed gear 18 is arranged between the two toothed plates 8, the gear 18 is fixedly connected with a motor shaft of the upper motor 4, the fixing plates 5 on the two sides are connected to the sliding table 3 in a rotating mode, half-tooth rollers 7 are fixed on the inner sides of the fixing plates 5, tooth grooves meshed with the half-tooth rollers 7 are formed in the upper sides of the toothed plates 8 on the two sides, the upper motor 4 of the sliding table 3 is controlled to work through an external controller, the motor shaft of the motor 4 drives the gear 18 fixedly connected with the lower side to rotate, the gear 18 is in meshing transmission with the toothed plates 8 on the two sides, the toothed plates 8 on the two sides slide table 3 slide outwards, the upper side tooth grooves are in meshing transmission with the half-tooth rollers 7 on the two end sides of the sliding table 3, the fixing plates 5 on the two sides of the sliding table 3 rotate vertically, the fixing plates 5 on the two sides rotate vertically, and are tightly attached to the outer surfaces of the sliding table 2, and fix the sliding table 3 at the determined position;
furthermore, the two ends of the lower side of the sliding table 3 are respectively provided with a lifting plate 9, the lower sides of the two ends of the lifting plate 9 are respectively provided with an L-shaped pressing plate 10, the inner side of the L-shaped pressing plate 10 is provided with a plurality of sliding rods penetrating through the lifting plate 9, the lifting plate 9 slides up and down between the L-shaped pressing plates 10 at the two ends, and the periphery of each sliding rod is sleeved with a compression spring 16 positioned on the lower side of the L-shaped pressing plate 10, in the process that the toothed plates 8 at the two sides slide outwards, the inclined blocks 14 at the lower sides of the toothed plates 8 are matched with the inclined blocks 15 at the inner sides of the lifting plates 9 at the lower sides, when the toothed plates 8 slide outwards, the lower side of the lifting plate 9 descends, the L-shaped pressing plates 10 at the two ends of the lifting plate 9 press the four corners around the cutting part of the lower side of the fabric, the position of the sliding table 3 is further stabilized while the fabric is fixed, so that the cutting machine 6 is not prone to shake when the fabric is cut, the fabric is fixed by the L-shaped pressing plates 10, at this time, the lifting plate 9 moves downwards continuously, and the compression springs 16 in the L-shaped pressing plates 10 are compressed;
furthermore, two rotating frames 11 are rotatably connected between the lifting plates 9 on the two sides, a compression roller 12 is rotatably connected on each rotating frame 11, sliding columns 17 penetrating through two ends of each lifting plate 9 are fixed on the lower sides of the corresponding sliding tables 3, each lifting plate 9 slides up and down on the lower side of each sliding table 3, a first inclined block 14 is arranged on the lower side of each toothed plate 8, two inclined blocks 15 corresponding to the first inclined blocks 14 are arranged on the inner sides of the corresponding lifting plates 9, four corners of a fabric cutting part are fixed by L-shaped pressing plates 10, at the moment, the lifting plates 9 continue to move downwards, compression springs 16 in the L-shaped pressing plates 10 are compressed, the compression rollers 12 on the lower sides of the lifting plates 9 are contacted with the surface of the fabric, the compression rollers 12 on the two sides smooth the fabric cutting part on the lower sides along with the downward movement of the lifting plates 9, meanwhile, the upper lifting plates 9 are matched with the downward movement to stabilize the fabric cutting part, and then the lower side cutting machine 6 on the corresponding sliding table 3 is controlled to work, and the fabric is cut on the fixed lower side.
The utility model discloses specific theory of operation as follows:
when the tailoring device convenient for garment processing and production is used, firstly, the garment material needs to be quickly and stably fixed to be quickly and high-quality cut, the cloth to be tailored is placed on the surface of the device table 1, and the sliding table 3 and the cutter 6 at the lower part of the sliding table are controlled to move to the position above the appointed tailoring part of the fabric through the driving device on the sliding table 3;
the upper motor 4 of the sliding table 3 is controlled to work through an external controller, a motor shaft of the motor 4 drives a gear 18 fixedly connected with the lower side to rotate, the gear 18 is in meshing transmission with toothed plates 8 on two sides of the gear 18, so that the toothed plates 8 on two sides slide outwards, and in the process that the toothed plates 8 slide outwards, a toothed groove on the upper side of the gear is in meshing transmission with half-toothed rollers 7 on two end sides of the sliding table 3, so that fixing plates 5 on two sides of the sliding table 3 rotate vertically, the two sides rotate the vertical fixing plates 5, the outer surfaces of sliding seats 2 on two sides are tightly attached to fix the sliding table 3 with the determined position;
in the process that the toothed plates 8 on the two sides slide outwards, the first sloping block 14 on the lower side of the toothed plate 8 is matched with the second sloping block 15 on the inner side of the lower lifting plate 9, when the toothed plate 8 slides outwards, the lower lifting plate 9 descends, the L-shaped pressing plates 10 at the two ends of the lifting plate 9 tightly press four corners around the fabric cutting part on the lower side, and the position of the sliding table 3 is further stabilized while the fabric is fixed, so that the cutting machine 6 is not prone to shaking when the fabric is cut;
fabric cutting position four corners is fixed by L shape clamp plate 10, lifter plate 9 continues to move down this moment, compression spring 16 is compressed in the L shape clamp plate 10, and along with lifter plate 9 downside compression roller 12 contacts the fabric surface, along with the moving down of lifter plate 9, both sides compression roller 12 smooths downside fabric cutting position, cooperate the moving down of upside lifter plate 9 simultaneously, stabilize cutting fabric position, control 3 downside guillootine 6 works of slip table afterwards, cut good downside fabric, after cutting, control motor 4 reversal, by last drive arrangement of slip table 3 again, make slip table 3 move to next cutting position, repeatedly carry out foretell fabric cutting work.
The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.