CN112626684B - Guide cutting device for textile coil machine - Google Patents

Abstract

The invention relates to the technical field of textile machinery, in particular to a guide cutting device for a textile winding machine. The guide cutting device for the textile winding machine is characterized in that a driving motor for controlling a cloth winding drum, an adjusting motor for controlling an overturning guide plate and an annular electromagnet for controlling a magnetic control cutting strip are arranged in an external frame, and lateral assembly grooves with built-in lateral overturning mounting plates are formed in two sides of the external frame, so that the guide cutting device for the textile winding machine integrates cloth winding, guiding and cutting functions at the same time, and the degree of function integration is greatly improved; set up first assembly draw-in groove of both sides open-ended and second assembly draw-in groove on horizontal assembly strip lateral surface, utilize and set up the spacing draw-in groove of side direction on the assembly draw-in groove medial surface, come to carry out the dislocation fixed to cutting blade through assembly draw-in groove and the spacing draw-in groove of side direction, make it make things convenient for later stage loading and unloading to change, reduce later stage use cost.

Description

Guide cutting device for textile coil machine

Technical Field

The invention relates to the technical field of textile machinery, in particular to a guide cutting device for a textile coil winding machine.

Background

The textile origin is a general name taken from spinning and weaving, but with the continuous development and perfection of a textile knowledge system and a subject system, particularly after non-woven textile materials and three-dimensional compound weaving and other technologies are produced, the textile is not only produced by traditional hand spinning and weaving, but also produced by non-woven fabric technology, modern three-dimensional weaving technology, modern electrostatic nano-web forming technology and the like, and is used for clothing, industry and decoration. Modern spinning therefore refers to a technique for the multi-scale structural processing of fibers or fiber assemblies. Textile machines, also called textile machines, weaving machines, cotton spinning machines, etc., are well known as tools for processing raw materials such as thread, silk, hemp, etc. into silk threads and then weaving them into cloth. Such as spinning pendants, spinning wheels, spindles, pedal looms, modern mechanical looms, modern numerical control automatic looms and the like.

The batching module is an important part in the textile machinery and needs to be matched with a guide mechanism for use. The cloth cutting machine is a cutting mechanism matched with the cloth rolling module and is mainly applied to a device for cutting a large number of small-sized samples or products. .

Present batching module is independent structure with cut the mechanism mostly, and its structure and functional all very fixed singleness integrate the ratio lower, and both all have respective problem simultaneously, for example the batching module can't carry out transmission, separation and loading and unloading to the batching section of thick bamboo fast, and guiding position is fixed, adjusts the trouble, and cuts the mechanism and can't step up the both sides coiled material when cutting the process and fix, leads to cutting stability limited.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to solve the problems of the prior art, an improved guide cutting device for a textile winding machine is provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a guide cutting device for a textile coil machine comprises an external rack, a driving motor, a first adjusting motor, a second adjusting motor and an annular electromagnet, wherein lateral assembly grooves with upper end openings are formed in the inner walls of the two sides of the external rack, a lateral overturning mounting plate is movably assembled in the lateral assembly grooves, a first overturning guide plate and a second overturning guide plate are arranged in the external rack and positioned on the front side of the lateral assembly grooves, a first assembly support is elastically connected to the upper surface of the right end of the first overturning guide plate, a second assembly support is elastically connected to the lower surface of the left end of the second overturning guide plate, internal guide rollers are movably installed in the first assembly support and the second assembly support through rotating shafts, and lateral accommodating grooves with built-in magnetic control cutting strips are formed in the right side surface of the first overturning guide plate and the left side surface of the second overturning guide plate, the top ends of the first assembling support and the second assembling support at two sides of the external rack are respectively provided with a lateral assembling through hole, the first assembling support and the second assembling support at two sides are inserted into the lateral assembling through hole through an integrated rotating shaft and are movably connected with the inner side of the external rack, the top end of the rotating shaft at one side of the first assembling support and the second assembling support is axially fixed with an external transmission gear at the outer side of the external rack, the first adjusting motor and the second adjusting motor are fixedly arranged at the outer side wall of the external rack through a fixed support, an internal transmission gear is axially fixed on the rotating shaft at the inner side of the first adjusting motor and the second adjusting motor, the first adjusting motor is in transmission connection with the first assembling support through the external transmission gear and the internal transmission gear, and the second adjusting motor is in transmission connection with the second assembling support through the external transmission gear and the internal transmission gear, the upper surface of the first overturning guide plate and the lower surface of the second overturning guide plate are respectively provided with a lateral telescopic groove communicated with the lateral containing groove, the magnetic control cutting strip comprises a transverse assembly strip arranged in the lateral containing groove, a cutting blade fixedly spliced on the lateral surface of the transverse assembly strip, an inner telescopic rod positioned in the lateral telescopic groove and an iron control spring for elastically connecting the inner telescopic rod and the annular electromagnet, the annular electromagnet drives the magnetic control cutting strip to extend out of the lateral containing groove and simultaneously drive the assembling support at a corresponding position to overturn, the lateral surface of the inner telescopic rod is fixedly connected with an outwards-convex integrated inclined extrusion fixing plate, two sides of the inclined extrusion fixing plate are fixedly provided with lateral linkage shafts for controlling the first assembling support and the second assembling support to overturn, and the lateral telescopic groove inner side surface and the inner lateral surface of the inner telescopic rod are respectively provided with an annular control groove, the annular electromagnet is fixedly arranged in an annular control groove on the inner side of the lateral telescopic groove, the iron control spring is movably sleeved in the annular control groove on the outer side of the inner telescopic rod, a lateral overturning groove is formed in the upper surface of the right end of the first overturning guide plate, and the first assembling support is inserted into the lateral overturning groove through a lateral rotating shaft and is movably connected with the first overturning guide plate; the lateral overturning groove is formed in the lower surface of the left end of the second overturning guide plate, the second assembling support is inserted into the lateral overturning groove through a lateral rotating shaft and is movably connected with the second overturning guide plate, the first assembling support is elastically connected with the first overturning guide plate through the extrusion elastic sheet in the lateral overturning groove, and the second assembling support is elastically connected with the second overturning guide plate through the extrusion elastic sheet in the lateral overturning groove.

The lateral surface of the transverse assembling strip is provided with a first assembling clamping groove and a second assembling clamping groove with openings on two sides, the inner side surfaces of the first assembling clamping groove and the second assembling clamping groove are provided with lateral limiting clamping grooves, and the inner side end of the cutting blade is fixed with an assembling fixing plate of a lateral limiting clamping block.

And the cutting blades on the first overturning guide plate and the second overturning guide plate are arranged in a staggered manner.

The invention has the beneficial effects that:

(1) the guide cutting device for the textile winding machine is characterized in that a driving motor for controlling a cloth winding drum, an adjusting motor for controlling an overturning guide plate and an annular electromagnet for controlling a magnetic control cutting strip are arranged in an external frame, and lateral assembly grooves with built-in lateral overturning mounting plates are formed in two sides of the external frame, so that the guide cutting device for the textile winding machine integrates cloth winding, guiding and cutting functions at the same time, and the degree of function integration is greatly improved;

(2) the assembly support with the built-in internal guide roller is elastically connected to the overturning guide plate, the lateral side of the overturning guide plate is provided with a lateral containing groove with the built-in magnetic control cutting strip, the overturning guide plate is driven by an adjusting motor to change the guide of the coiled material, the structure is adjustable, and the operation is simple;

(3) the outer side surface of the turning guide plate is provided with a magnetic control cutting strip controlled by an annular electromagnet, the assembly bracket is controlled to turn while cutting, the coiled material is clamped and fixed by using an internal guide roller, and meanwhile, the internal guide roller is fixed by using an inclined extrusion fixing plate, so that the cutting is better and more stable;

(4) set up first assembly draw-in groove of both sides open-ended and second assembly draw-in groove on horizontal assembly strip lateral surface, utilize and set up the spacing draw-in groove of side direction on the assembly draw-in groove medial surface, come to carry out the dislocation fixed to cutting blade through assembly draw-in groove and the spacing draw-in groove of side direction, make it make things convenient for later stage loading and unloading to change, reduce later stage use cost.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a partial cross-sectional view of the assembled end of the magnetically controlled cutting bar of the present invention.

Fig. 3 is a left side view of the position of the flip guide plate in the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

The guiding and cutting device for the textile coil machine shown in figures 1, 2 and 3 comprises an external frame 1, a driving motor 2, a first adjusting motor 3, a second adjusting motor 4 and an annular electromagnet 5, wherein the driving motor 2, the first adjusting motor 3, the second adjusting motor 4 and the annular electromagnet 5 are directly purchased through markets, the first adjusting motor 3 and the second adjusting motor 4 have a self-locking function, lateral assembling grooves 6 with upper end openings are formed in the inner walls of two sides of the external frame 1, lateral overturning installing plates 7 are movably assembled in the lateral assembling grooves 6, a first overturning guide plate 8 and a second overturning guide plate 9 are arranged in the external frame 1 and positioned in front of the lateral assembling grooves 6, the upper surface of the right end of the first overturning guide plate 8 is elastically connected with a first assembling support 10, the lower surface of the left end of the second overturning guide plate 9 is elastically connected with a second assembling support 11, inside all there is inside direction roller 12 through pivot movable mounting first assembly support 10 and second assembly support 11, all sets up the side direction of built-in magnetic control cutting strip on the 8 right flank of first upset deflector and the 9 left surfaces of second upset deflector and accomodates groove 14.

Example (b): the adjusting motor drives the overturning guide plate to overturn along the lateral rotating shaft to change the support of the coiled material, so that the guide is changed. Then the annular electromagnet 5 drives the magnetic control cutting strip to extend out of the lateral containing groove 14, and simultaneously drives the first assembling support 10 and the second assembling support 11 at corresponding positions to overturn, a lateral overturning groove is formed in the upper surface of the right end of the first overturning guide plate 8, and the first assembling support 10 is inserted into the lateral overturning groove through a lateral rotating shaft and is movably connected with the first overturning guide plate 8; lateral overturning grooves are formed in the lower surface of the left end of the second overturning guide plate 9, and the second assembling support 11 is inserted into the lateral overturning grooves through a lateral rotating shaft and is movably connected with the second overturning guide plate 9. Then the first assembling bracket 10 is elastically connected with the first overturning guide plate 8 by utilizing an extruding elastic sheet in the lateral overturning groove; the second mounting bracket 11 is elastically connected to the second flipping guide panel 9 by means of a pressing spring in the lateral flipping groove.

Further, in order to match with external transmission adjustment, lateral assembly through holes are formed in the top ends of the first assembly support 10 and the second assembly support 11 on two sides of the external rack 1, the first assembly support 10 and the second assembly support 11 on two sides are inserted into the lateral assembly through holes through an integrated structure rotating shaft and are movably connected with the inner side of the external rack 1, an external transmission gear 29 is axially fixed on the top end of the rotating shaft on one side of the first assembly support 10 and the top end of the rotating shaft on one side of the second assembly support 11 on the outer side of the external rack 1, the first adjusting motor 3 and the second adjusting motor 4 are fixedly arranged on the outer side wall of the external rack 1 through a fixing support, an internal transmission gear 30 is axially fixed on the rotating shaft on the inner side of the first adjusting motor 3 and the second adjusting motor 4, the first adjusting motor 3 is in transmission connection with the first assembly support 10 through the external transmission gear 29 and the internal transmission gear 30, and the second adjusting motor 4 is in transmission connection with the second assembly support 11 through the external transmission gear 29 and the internal transmission gear 30.

Further, in order to cooperate with electromagnetic control, lateral telescopic grooves 15 communicated with the lateral accommodating grooves 14 are formed in the upper surface of the first overturning guide plate 8 and the lower surface of the second overturning guide plate 9, and each magnetic control cutting strip comprises a transverse assembling strip 16 installed inside the lateral accommodating groove 14, a cutting blade 17 fixed on the outer side surface of the transverse assembling strip 16 in an inserting mode, an inner telescopic rod 18 located inside the lateral telescopic groove 15 and an iron control spring 19 used for elastically connecting the inner telescopic rod 18 and the annular electromagnet 5.

Furthermore, in order to facilitate the mounting, dismounting and fixing, a first assembling clamping groove 20 and a second assembling clamping groove 21 with openings at two sides are formed in the outer side surface of the transverse assembling strip 16, a lateral limiting clamping groove 22 is formed in the inner side surfaces of the first assembling clamping groove 20 and the second assembling clamping groove 21, and an assembling and fixing plate 24 with a lateral limiting clamping block 23 is fixed at the inner side end of the cutting blade 17.

Further, in order to match cutting, the cutting blades 17 on the first and second flipping guide plates 8 and 9 are arranged in a staggered manner.

Further, in order to match the inner side for extrusion fixation, an integral inclined extrusion fixation plate 25 protruding outwards is fixedly connected to the outer side surface of the inner telescopic rod 18.

And lateral linkage shafts for controlling the first assembling bracket 10 and the second assembling bracket 11 to overturn are fixed on two sides of the inclined extrusion fixing plate 25.

Further, for the cooperation to the electro-magnet installation fixed, all seted up annular control groove 26 on the flexible groove 15 medial surface of side direction and the 18 lateral surfaces of inside telescopic link, annular electro-magnet 5 fixed mounting is in the inboard annular control groove 26 in the flexible groove 15 of side direction, and iron control spring 19 activity cup joints in the annular control groove 26 in the 18 outside of inside telescopic link.

Further, for convenience of assembly and disassembly, the inner wall of the external frame 1 is provided with an inner side limiting frame 27 located inside the lateral assembling groove 6, and the outer side wall of the external frame 1 is provided with an elastic lateral limiting frame 28 located outside the lateral assembling groove 6 and used for fixing the lateral overturning mounting plate 7.

The guide cutting device for the textile winding machine is characterized in that a driving motor 2 for controlling a cloth winding drum, an adjusting motor for controlling an overturning guide plate and an annular electromagnet 5 for controlling a magnetic control cutting strip are arranged in an external frame 1, and lateral assembling grooves 6 with built-in lateral overturning mounting plates 7 are formed in two sides of the external frame 1, so that the guide cutting device for the textile winding machine integrates cloth winding, guiding and cutting functions at the same time, and the integration degree of the functions is greatly improved; the assembly support with the built-in internal guide roller 12 is elastically connected to the overturning guide plate, the lateral accommodating groove 14 with the built-in magnetic control cutting strip is formed in the outer lateral surface of the overturning guide plate, the overturning guide plate is driven by an adjusting motor to change the guide of the coiled material, the structure is adjustable, and the operation is simple; the outer side surface of the turning guide plate is provided with a magnetic control cutting strip controlled by an annular electromagnet 5, the assembly support is controlled to turn while cutting, an internal guide roller 12 is used for clamping and fixing the coiled material, and meanwhile, an inclined extrusion fixing plate 25 is used for fixing the internal guide roller 12, so that the cutting is more stable; set up first assembly card groove 20 and second assembly card groove 21 of both sides open-ended on horizontal assembly strip 16 lateral surface, utilize and set up the spacing draw-in groove 22 of side direction on the assembly card groove medial surface, come to misplace cutting blade 17 through assembly card groove and the spacing draw-in groove 22 of side direction and fix, make it make things convenient for later stage loading and unloading to change, reduce later stage use cost.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (3)

1. The utility model provides a weaving is direction cutting device for coiled material machine, includes outside frame (1), driving motor (2), first accommodate motor (3), second accommodate motor (4) and annular electromagnet (5), characterized by: the side assembling grooves (6) with openings at the upper ends are formed in the inner walls of the two sides of the external rack (1), the side assembling grooves (6) are movably assembled with side overturning installing plates (7), a first overturning guide plate (8) and a second overturning guide plate (9) are arranged in the external rack (1) and positioned on the front side of the side assembling grooves (6), the upper surface of the right end of the first overturning guide plate (8) is elastically connected with a first assembling support (10), the lower surface of the left end of the second overturning guide plate (9) is elastically connected with a second assembling support (11), internal guide rollers (12) are movably installed in the first assembling support (10) and the second assembling support (11) through rotating shafts, and side accommodating grooves (14) with built-in magnetic control cutting strips are formed in the right side surface of the first overturning guide plate (8) and the left side surface of the second overturning guide plate (9), the top ends of a first assembling support (10) and a second assembling support (11) at two sides of the external rack (1) are respectively provided with a lateral assembling through hole, the first assembling support (10) and the second assembling support (11) at two sides are inserted into the lateral assembling through holes through an integrated rotating shaft and are movably connected with the inner side of the external rack (1), the top end of the rotating shaft at one side of the first assembling support (10) and the second assembling support (11) is axially fixed with an external transmission gear (29) at the outer side of the external rack (1), a first adjusting motor (3) and a second adjusting motor (4) are fixedly arranged at the outer side wall of the external rack (1) through a fixed support, an internal transmission gear (30) is axially fixed on the rotating shaft at the inner side of the first adjusting motor (3) and the second adjusting motor (4), and the first adjusting motor (3) is in transmission connection with the first assembling support (10) through the external transmission gear and the internal transmission gear (30), the second adjusting motor (4) is in transmission connection with the second assembling support (11) through an external transmission gear (29) and an internal transmission gear (30), the upper surface of the first overturning guide plate (8) and the lower surface of the second overturning guide plate (9) are respectively provided with a lateral telescopic groove (15) communicated with the lateral accommodating groove (14), the magnetic control cutting strip comprises a transverse assembling strip (16) arranged inside the lateral accommodating groove (14), a cutting blade (17) spliced and fixed on the outer side surface of the transverse assembling strip (16), an internal telescopic rod (18) positioned inside the lateral telescopic groove (15) and an iron control spring (19) used for elastically connecting the internal telescopic rod (18) and the annular electromagnet (5), the annular electromagnet (5) drives the magnetic control cutting strip to stretch out the lateral accommodating groove (14) and simultaneously drives the assembling support corresponding to overturn, an outwards-protruded integral-structure inclined extrusion fixing plate (25) is fixedly connected to the outer side surface of the inner telescopic rod (18), lateral linkage shafts used for controlling the first assembling bracket (10) and the second assembling bracket (11) to turn over are fixed on two sides of the inclined extrusion fixing plate (25), the inner side surface of the lateral telescopic groove (15) and the outer side surface of the inner telescopic rod (18) are both provided with an annular control groove (26), the annular electromagnet (5) is fixedly arranged in an annular control groove (26) at the inner side of the lateral telescopic groove (15), the iron control spring (19) is movably sleeved in an annular control groove (26) on the outer side of the inner telescopic rod (18), a lateral overturning groove is formed in the upper surface of the right end of the first overturning guide plate (8), and the first assembling support (10) is inserted into the lateral overturning groove through a lateral rotating shaft and is movably connected with the first overturning guide plate (8); lateral overturning grooves are formed in the lower surface of the left end of the second overturning guide plate (9), the second assembling support (11) is inserted into the lateral overturning grooves through a lateral rotating shaft and is movably connected with the second overturning guide plate (9), the first assembling support (10) is elastically connected with the first overturning guide plate (8) through an extrusion elastic sheet in the lateral overturning grooves, and the second assembling support (11) is elastically connected with the second overturning guide plate (9) through an extrusion elastic sheet in the lateral overturning grooves.

2. A guide cutting device for a textile web machine as defined in claim 1, wherein: horizontal assembly strip (16) lateral surface on seted up first assembly draw-in groove (20) of both sides open-ended and second assembly draw-in groove (21), first assembly draw-in groove (20) and second assembly draw-in groove (21) medial surface on seted up side direction spacing draw-in groove (22), cutting blade (17) inboard is served and is fixed with assembly fixing plate (24) of side position side direction spacing fixture block (23).

3. A guide cutting device for a textile web machine as defined in claim 1, wherein: the cutting blades (17) on the first overturning guide plate (8) and the second overturning guide plate (9) are arranged in a staggered mode.

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