CN205295751U - Scald and roll over mould - Google Patents

Abstract

The utility model relates to a scald and roll over mould, it includes mould base, design clamp plate and design sieve. This mould base has the chamber of induced drafting, and its upper surface is equipped with the clamp plate installation position of logical groove structure. This design clamp plate is established in this clamp plate installation position, the prototype groove has been seted up to this design clamp plate, the perisporium in this prototype groove is equipped with the ventilation groove, and the upper surface of the clamp plate of should stereotyping bulges the upper surface of this mould base. This design sieve activity is established just can be at this prototype inslot up -and -down motion at this prototype inslot, the periphery of this design sieve is equipped with the groove of induced drafting, the bottom side of this design sieve is equipped with sieve drive arrangement, and this sieve drive arrangement is used for the drive should stereotype the sieve at this prototype inslot up -and -down motion. This scald and roll over mould can be used to a cloth hem design system to carry out the automation to section of thick bamboo cloth and scald to roll over, and the automated production of the product of being convenient for is favorable to improving the processing production efficiency of product.

Description

Scald folding mould

Technical field

This utility model relates to field of textile machinery, especially relates to a kind of scalding and rolls over mould.

Background technology

Along with the continuous innovation of science and technology, production automation application also progressively replaces traditional manual labor, and clothing produces as traditional labour intensive profession with greater need for carrying out automation application. During current clothing produces, cylinder cloth scalds folding operation and commonly uses high temperature and scald folding equipment and carry out the mode of pressing, the booklet mouth completing a cloth scalds folding, also has and makes the working method of iron by hand complete to scald folding, and human resources and the energy are existed serious waste by both modes of production. Common boiling hot folding equipment needs to be laid on the shaping equipment of equipment by cylinder cloth by hand, it is placed in equipment again and carries out high temperature pressing, further take out after boiling hot folding to be done and reappose material, although can complete to scald folding work basic demand, but personnel's waiting time length, energy waste are seriously, common iron is manually used to complete to scald the working method then efficiency rolled over lower.

Utility model content

Based on this, it is necessary to provide a kind of boiling hot folding mould for automatically scalding folding machine that can improve production efficiency.

A kind of scalding rolls over mould, it is characterised in that including:

Mold base, described mold base has upper surface and the side frame arranged around described upper surface periphery, and described upper surface and described side frame surround the frame structure of hollow, and the position of this hollow forms air draught chamber; Described upper surface is provided with the pressing plate installation position of groove structure;

Typing pressure plate, described typing pressure plate is located at described pressing plate installation position; Described typing pressure plate offers prototype groove; The perisporium of described prototype groove is provided with ventilation slot, and the upper surface of described typing pressure plate protrudes the upper surface of described mold base; And

Sizing sieve plate, described sizing sieve plate is actively installed in described prototype groove and can move up and down in described prototype groove; The periphery of described sizing sieve plate is provided with air draught groove; The bottom side of described sizing sieve plate is provided with sieve plate driving device, and described sieve plate driving device is used for driving described sizing sieve plate to move up and down in described prototype groove.

Wherein in an embodiment, described typing pressure plate is actively installed on described pressing plate installation position and can move up and down in described pressing plate installation position.

Wherein in an embodiment, the bottom of described typing pressure plate is provided with spring stack; Described spring stack is arranged with column spring.

Wherein in an embodiment, described sieve plate driving device is lifting cylinder.

Wherein in an embodiment, described mold base is provided with multiple pressing plate installation position, and each described pressing plate installation position is correspondingly provided with a described typing pressure plate.

Wherein in an embodiment, described mold base is provided with two pressing plate installation positions, and two described pressing plate installation positions are set up in parallel.

Above-mentioned boiling hot folding mould can be used for a cloth flanging shaping system and cylinder cloth carry out automatically scalding folding, it is simple to the automated production of product, is conducive to improving the processing efficiency of product.

Accompanying drawing explanation

Fig. 1 is the structural representation of the cylinder cloth flanging shaping system of an embodiment;

Fig. 2 is the structural representation of rotary table in Fig. 1;

Fig. 3 is the upward view of slew gear in Fig. 1;

Fig. 4 is the part-structure schematic diagram of slew gear in Fig. 3;

Fig. 5 is the structural scheme of mechanism of Tu1Zhong pressing mechanism;

Fig. 6 is the structural representation of receiving mechanism in Fig. 1;

Fig. 7 is the structural representation scalding folding mould in Fig. 1;

Fig. 8 is the structural representation scalding folding another visual angle of mould in Fig. 7.

Detailed description of the invention

For the ease of understanding this utility model, below with reference to relevant drawings, this utility model is described more fully. Accompanying drawing gives preferred embodiment of the present utility model. But, this utility model can realize in many different forms, however it is not limited to embodiment described herein. On the contrary, the purpose providing these embodiments is to make the understanding to disclosure of the present utility model more thorough comprehensively.

It should be noted that be referred to as " being fixed on " another element when element, it can directly on another element or can also there is element placed in the middle. When an element is considered as " connection " another element, it can be directly to another element or may be simultaneously present centering elements.

Unless otherwise defined, all of technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model are generally understood that. The purpose describing specific embodiment it is intended merely to herein, it is not intended that in restriction this utility model at term used in the description of the present utility model. Term as used herein " and/or " include the arbitrary and all of combination of one or more relevant Listed Items.

As it is shown in figure 1, the cylinder cloth flanging shaping system of an embodiment includes automatically scalding folding machine 10 and scalding folding mould 20. This automatically scalds folding machine 10 and includes frame 100, rotary table 200, slew gear 300, Tang Zhe mechanism 400, receiving mechanism 500 and controlling organization 600.

Incorporated by reference to Fig. 1 and Fig. 2, rotary table 200 is provided with for placing the mould installation position scalding folding mould 20. This mould installation position has multiple, can distinguish corresponding blowing station, pressing station and rewinding station. Rotary table 200 can rotate relative to frame 100. In the present embodiment, rotary table 200 is disc structure. The upper surface of rotary table 200 is provided with multiple mould mounting groove 202. Namely this mould mounting groove 202 forms mould installation position. Scald folding mould 20 to be located in this mould mounting groove 202.

Further, in the present embodiment, rotary table 200 is provided with revolution induction point 210 between adjacent mould mounting groove 202. Frame 100 is provided with the revolution induction installation 220 of sensing revolution induction point 210. Revolution induction installation 220 is located at the side of rotary table 200 and arranges near rotary table 200.

Incorporated by reference to Fig. 2, Fig. 3 and Fig. 4, slew gear 300 is located in frame 100. Slew gear 300 can be connected with rotary table 200, and can be driven back to revolving worktable 200 and rotate relative to frame 100. In the present embodiment, slew gear 300 includes revolution falsework 310, swivel link 320, swiveling gear 330, dropout 340, tripping driving device 350 and rotary motion mechanism 360.

Revolution falsework 310 is located in frame 100. Rotary table 200 is actively installed on revolution falsework 310 and can rotate relative to revolution falsework 310. In the present embodiment, revolution falsework 310 is shell structure, inner hollow, for arranging other elements of slew gear 300.

One end of swivel link 320 is actively installed on revolution falsework 310 and can rotate relative to revolution falsework 310, and this end is fixedly connected with swiveling gear 330; The other end is fixedly connected with tripping driving device 350.

In the present embodiment, swiveling gear 330 is fixed together by the fixtures such as screw and swivel link 320. Swiveling gear 330 has rotating shaft 332. Rotating shaft 332 is actively installed in revolution falsework 310, and can rotate relative to revolution falsework 310.

Tripping driving device 350 is connected with dropout 340 and dropout 340 can be driven to move along the direction being perpendicular to rotary table 200. Concrete, in the present embodiment, the corresponding each mould mounting groove 202 of the lower surface of rotary table 200 is respectively equipped with spacing hole 204. Tripping driving device 350 can drive dropout 340 stretch into spacing hole 204 or retract from spacing hole 204.

In the present embodiment, spacing hole 204 is through hole, and namely spacing hole 204 runs through rotary table 200 and is opened on the bottom land of mould mounting groove 202. One end that swivel link 320 is connected with tripping driving device 350 offers through hole (not indicating in figure). Dropout 340 is actively located in this through hole. The present embodiment thread off 340 be axially arranged with wind inlet 342. Thread off 340 for being connected with extraneous air suction mechanism. After dropout 340 stretches to spacing hole 204, extraneous air suction mechanism can pass through this wind inlet 342 and carry out air draught location to being placed on the material scalded on folding mould 20, so that material is adsorbed on boiling hot folding mould 20 and forms required boiling hot folding shape. It is appreciated that, in other embodiments, this spacing hole 204 can not also be through hole, this dropout 340 can be not provided with wind inlet 342, this spacing hole 204 is only used as with dropout 340 coordinating revolution to use, accordingly, the boiling hot folding mould 20 in each mould mounting groove 202 is carried out air draught by other connected modes by extraneous air suction mechanism.

Further, in the present embodiment, tripping driving device 350 has two. Two tripping driving devices 350 lay respectively at the both sides of swivel link 320 end. Tripping driving device 350 is preferably lifting cylinder. Two tripping driving devices 350 are by a connection frame 352 and 340 clampings of threading off. Dropout 340 is arranged in this connection frame 352. Two tripping driving devices 350 are by lifting or retract this connection frame 352 dropout 340 can be driven to stretch into spacing hole 204 or retract from spacing hole 204.

The engagement of rotary motion mechanism 360 and swiveling gear 330 is connected and swiveling gear 330 can be driven to rotate, and then connecting rod 320 is rotated rotates.

Concrete, in the present embodiment, this rotary motion mechanism 360 includes guide rail 362, promotes connecting rod 364 and promote driving device 366. Guide rail is located on revolution falsework 362. Connecting rod 364 is promoted to be located on guide rail 362 and can slide along guide rail 362. Promote driving device 366 to be preferably and promote cylinder. Promote driving device 366 and promote connecting rod 364 to be connected and promotion connecting rod 364 can be driven to slide along guide rail 362. This promotion connecting rod 364 is provided with groove. Connecting rod 364 is promoted to be engaged with swiveling gear 330 by this groove. This promotion driving device 366 can drive promotion connecting rod 364 along guide rail 362 straight line back and forth movement such that it is able to drives swiveling gear 330 to rotate by groove transmission, and connecting rod 320 is finally rotated rotates. Owing to dropout 340 is arranged in the end through hole of swivel link 320, when dropout 340 stretches in spacing hole 204, swivel link 320 rotates and rotary table 200 can be driven to rotate.

It is appreciated that, in other embodiments, the structure of this rotary motion mechanism 360 is not limited to described above, if this promotion driving device 366 can also be the actuators such as motor, accordingly, this promotion driving device 366 can pass through the drive mechanisms such as gear and engage with swiveling gear 330, to drive swiveling gear 330 to rotate.

Further, in the present embodiment, this rotary motion mechanism 360 also includes being located at the promotion induction apparatus 368 turned round on falsework 310. Promote induction apparatus 368 can sense the displacement promoting connecting rod 364. Controlling organization 600 controls to promote driving device 366 action or stopping action by monitoring this displacement.

Additionally, in the present embodiment, revolution falsework 310 is provided with guide groove 312. Guide groove 312 is in circular arc. Dropout 340 is arranged in guide groove 312, for stretching in spacing hole 204. Accordingly, frame 100 also is provided with guide groove (not shown). Dropout 340 is arranged in the guide groove of frame 100, is connected for extraneous air suction mechanism.

Pressing support 410, pressing mould 420 and pressing driving device 430 is included incorporated by reference to Fig. 1 and Fig. 5, Tang Zhe mechanism 400. Pressing support 410 is located in frame 100. Pressing mould 420 is located at the top of rotary table 200. The lower section of pressing mould 420 is pressing station. Pressing driving device 430 is located on pressing support 410. Pressing driving device 430 is preferably and promotes cylinder. Pressing driving device 430 is connected with pressing mould 420, is used for driving pressing mould to press for 420 times. Heat and can coordinate pressing material with boiling hot folding mould 20 to 420 times pressures of pressing mould of preset temperature.

Incorporated by reference to Fig. 1 and Fig. 6, the corresponding rewinding station of receiving mechanism 500 is arranged. Receiving mechanism 500 includes material collecting arm 510, rewinding sucker 520, steer-drive 530 and rewinding driving device 540. The pedestal of rewinding driving device 540 is located in frame 100. Rewinding driving device 540 is preferably lifting cylinder. The pedestal of steer-drive 530 is located on the output shaft of rewinding driving device 540, and in the vertical direction can be driven to move by rewinding driving device 540. Steer-drive 530 can be the rotary drives such as motor. Material collecting arm 510 is L-shaped. One end of material collecting arm 510 is connected with the output shaft of steer-drive 530 and rotation, the other end can be driven to be provided with rewinding sucker 520 by steer-drive 530.

Rewinding sucker 520 is for absorbing material, as by the principle of vac sorb, can being connected with external vacuum extractor by this rewinding sucker 520, when needs absorbing material, by this vacuum extractor evacuation with absorbing material, during blowing, vacuum extractor cuts out and runs or reverse air-supply. Further, in the present embodiment, rewinding sucker 520 has multiple. Receiving mechanism 500 also includes regulating framework 550. Regulate framework 550 and be located at the end of material collecting arm 510. Multiple rewinding suckers 520 are each provided at regulating on framework 550 and multiple rewinding sucker 520 is adjustable in the position regulated on framework 550, as the sucker mounting groove arranging strip on framework 550 can be being regulated, can be locked by rewinding sucker 520 by the threaded fastener such as screw, nut is regulating on framework 550, when unscrewing this threaded fastener, it is possible to regulate the rewinding sucker 520 position on sucker mounting groove. Multiple rewinding suckers 520 are adjustable in the position regulated on framework 550, and then are adapted to the material of different size and shape, with accurate absorbing material.

It is understood that in other embodiments, this scalds folding machine 10 automatically can not also contain this receiving mechanism 500, it is possible to adopt the mode of artificial rewinding to carry out rewinding.

Controlling organization 600 is connected with slew gear 300 and boiling hot folding driving device 430. Controlling organization 600 can be driven back to revolving worktable 200 by control slew gear 300 and rotate to switch different mould installation positions on pressing station. Controlling organization 600 can also control to scald folding driving device 430 and drive pressing mould to press for 420 times material is carried out pressing.

Concrete, in the present embodiment, controlling organization 600 is connected with revolution induction installation 220, when turning round induction installation 220 and having sensed that revolution induction point 210 passes through, controlling organization 600 controls slew gear 300 subsequently and stops action, makes corresponding mould mounting groove 202 be positioned at pressing station. More specifically, controlling organization 600 is connected with the promotion driving device 366 of tripping driving device 350 and rotary motion mechanism 360 and can control tripping driving device 350 and promotes driving device 366 action. After tripping driving device 350 drives dropout 340 to stretch into spacing hole 204, controlling organization 600 can be rotated connecting rod 320 by control rotary motion mechanism 360 action and rotate, and then drives rotary table 200 to rotate on revolution falsework 310. Additionally, controlling organization 600 is also connected with steer-drive 530 and rewinding driving device 540. Controlling organization 600 can control rewinding driving device 540 and drive rewinding sucker to press suction for 520 times, and can control steer-drive 530 and drive material collecting arm 510 to rotate.

In the present embodiment, controlling organization 600 is located on pressing support 410, and is provided with electric switch 610 on pressing support 410. Electric switch 610 can be opened heater and pressing mould 420 is heated, and can control to open each driving device.

Above-mentioned boiling hot folding machine 10 automatically can be treated the material scalding folding and carry out automatically scalding rolling over. This rotary table 200 automatically scalding folding machine 10 has multiple for placing the mould installation position scalding folding mould 20, it is possible to adapt to the boiling hot folding mould 20 of different model, such that it is able to different material is carried out pressing processing. And multiple mould installation positions can rotation on boiling hot folding station, working (machining) efficiency is high.

Incorporated by reference to Fig. 1, Fig. 7 and Fig. 8, scald folding mould 20 and be located in mould mounting groove 202. The boiling hot folding mould 20 of the present embodiment can coordinate air suction mechanism that the materials such as cylinder cloth carry out air draught sizing, and can coordinate pressing mechanism 400 that the material after sizing is carried out pressing flanging.Concrete, in the present embodiment, scald folding mould 20 and include mold base 21, typing pressure plate 22 and sizing sieve plate 23.

Mold base 21 is suitable with the shape of mould mounting groove 202 and size, is used for being arranged in mould mounting groove 202. Mold base 21 has upper surface and the side frame arranged around this upper surface periphery. This upper surface and this side frame surround the frame structure of hollow, and the position of this hollow can form air draught chamber. This upper surface is provided with installing hole 24, for being arranged in mould mounting groove 202 by threaded fastener such as screws. This upper surface is additionally provided with pressing plate installation position. Concrete, this pressing plate installation position is the groove structure being opened in upper surface.

Typing pressure plate 22 is actively installed on this pressing plate installation position and can move up and down. The middle part of typing pressure plate 22 offers prototype groove 25. The perisporium of this prototype groove 25 is provided with the ventilation slot 26 of curtain shape. It is pressing portion around this prototype groove 25. The surfacing in pressing portion. Further, in the present embodiment, the bottom of this typing pressure plate 22 is provided with spring stack 27. This spring stack 27 is arranged with column spring. Under naturalness, the upper surface (i.e. pressing portion) of typing pressure plate 22 protrudes the upper surface of mold base 21. When pressing mould is pressed for 420 times, this column spring can compress, and makes typing pressure plate 22 move downward, and forms elastic buffer; After pressing terminates, this typing pressure plate 22 can by this column spring-return original state. Typing pressure plate 22 can adopt the materials such as aluminum or aluminum alloy to make molding, good stability.

Sizing sieve plate 23 is actively installed in prototype groove 25 and can move up and down along prototype groove 25. In the present embodiment, the periphery of sizing sieve plate 23 is provided with air draught groove 28. When dropout 340 stretches to after in spacing hole 204, extraneous air suction mechanism can carry out air draught in this bottom side scalding folding mould 20, and this air draught groove 28 can match with ventilation slot 26, and the materials such as cylinder cloth are carried out air draught sizing. Further, in the present embodiment, the bottom side of this sizing sieve plate 23 is provided with sieve plate driving device 29. Sieve plate driving device 29 is connected with controlling organization 600. This sieve plate driving device 29 can be lifting cylinder etc. When 420 times pressures of pressing mould carry out pressing, controlling organization 600 can pass through to control this sieve plate driving device 29 and drive sizing sieve plate 23 to move upward along prototype groove 25, so that material to carry out mobile operation upwards, completes pressing flanging operation.

In the present embodiment, each mold base 21 is provided with two typing pressure plates 22, such that it is able to two blocks of materials carry out pressing flanging work or two parts of one block of material is carried out pressing flanging work simultaneously simultaneously, efficiency is high.

Automatically the rotary table 200 scalding folding machine 10 of the present embodiment have three mould installation positions, three mould installation positions can carry out revolution switching before blowing position, pressing station and rewinding position, it is appreciated that, in other embodiments, mould installation position quantity on this rotary table 200 is not limited to three, as being two, or the greater numbers such as four, five, other mechanisms are correspondingly arranged execution above-mentioned functions.

This cloth flanging shaping system is operationally, it is necessary first to complete some preparations, as dropout 340 being connected with extraneous air suction mechanism, installs in each mould installation position and scalds folding mould 20, open heater and pressing mould 420 is heated. It is then turned on equipment, blowing station is placed the material treating pressing on boiling hot folding mould 20;Controlling organization 600 controls tripping driving device 350 and stretches in spacing hole 204 by dropout 340; The material that air suction mechanism runs placing carries out air draught location; Controlling organization 600 controls to promote driving device 366 action, 340 drive rotary table 22 rotary motions of threading off with this swivel link 320, has the boiling hot folding mould 20 of material to deliver to pressing station the location of air draught; After revolution induction installation 220 senses that this boiling hot folding mould 20 puts in place, controlling organization 600 controls tripping driving device 350 and dropout 340 is retracted from spacing hole 204, and control to promote driving device 366 adverse movement, connecting rod 340 and dropout 340 etc. are rotated reset, controlling organization 600 also controls pressing mechanism 400 action makes pressing mould press for 420 times, and control sieve plate driving device 29 drive sizing sieve plate 23 move upward along prototype groove 25, so that material to carry out mobile operation upwards, pressing mould 420 is coordinated to complete pressing flanging operation; Controlling organization 600 continues to control rotary table 200 and rotates, and rotates the material newly placed to pressing station, and rotates the material completing pressing flanging operation to rewinding station, and controlling organization 600 controls receiving mechanism 500 and carries out rewinding action.

Each technical characteristic of embodiment described above can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics is absent from contradiction, all it is considered to be the scope that this specification is recorded.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent. It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention. Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (6)

1. one kind scalds folding mould, it is characterised in that including:

Mold base, described mold base has upper surface and the side frame arranged around described upper surface periphery, and described upper surface and described side frame surround the frame structure of hollow, and the position of this hollow forms air draught chamber; Described upper surface is provided with the pressing plate installation position of groove structure;

Typing pressure plate, described typing pressure plate is located at described pressing plate installation position; Described typing pressure plate offers prototype groove; The perisporium of described prototype groove is provided with ventilation slot, and the upper surface of described typing pressure plate protrudes the upper surface of described mold base; And

Sizing sieve plate, described sizing sieve plate is actively installed in described prototype groove and can move up and down in described prototype groove; The periphery of described sizing sieve plate is provided with air draught groove; The bottom side of described sizing sieve plate is provided with sieve plate driving device, and described sieve plate driving device is used for driving described sizing sieve plate to move up and down in described prototype groove.

2. as claimed in claim 1 scalding rolls over mould, it is characterised in that described typing pressure plate is actively installed on described pressing plate installation position and can move up and down in described pressing plate installation position.

3. as claimed in claim 2 scalding rolls over mould, it is characterised in that the bottom of described typing pressure plate is provided with spring stack; Described spring stack is arranged with column spring.

4. as claimed in claim 1 scalding rolls over mould, it is characterised in that described sieve plate driving device is lifting cylinder.

5. the boiling hot folding mould as according to any one of Claims 1 to 4, it is characterised in that described mold base is provided with multiple pressing plate installation position, and each described pressing plate installation position is correspondingly provided with a described typing pressure plate.

6. as claimed in claim 5 scalding rolls over mould, it is characterised in that described mold base is provided with two pressing plate installation positions, and two described pressing plate installation positions are set up in parallel.