阅读说明：本技术 一种布料超声波分条机 (Cloth ultrasonic slitting machine ) 是由 余振露 于 2020-07-29 设计创作，主要内容包括：本发明公开了一种布料超声波分条机,其结构包括转动机构、控制台、固定架、收卷杆,转动机构设有切合机构、传动杆、固定板、压缩机构,布料对弯曲板作用后使得其压缩,造成压缩杆对平衡杆进行挤压,从而使得弹簧对受力块作用,使密封槽内部的气体通过受力块排出,作用于弯曲槽,从而对细屑进行吹动,使得细屑从两侧流出,防止细屑粘附于分切后的布料中,避免导致分切后的布料的品质比较差,降低细屑对切割布料造成影响,滑动球为轴形结构,其外侧分布有三角形结构,加强对布料的抓力,避免布料滑动,从而使得布料较为平整,避免分切不整齐的现象,防止布条抗拉性下降,降低出现散边问题概率,防止影响布料的质量。(The invention discloses a cloth ultrasonic slitting machine which structurally comprises a rotating mechanism, a control console, a fixing frame and a winding rod, wherein the rotating mechanism is provided with a cutting mechanism, a transmission rod, a fixing plate and a compression mechanism, the cloth compresses a bending plate after acting on the bending plate, so that the compression rod extrudes a balance rod, a spring acts on a stress block, gas in a sealing groove is discharged through the stress block and acts on a bending groove, fine scraps are blown to flow out from two sides, the fine scraps are prevented from being adhered to the slit cloth, the influence of the fine scraps on the cut cloth is reduced, a sliding ball is of an axial structure, a triangular structure is distributed on the outer side of the sliding ball, the gripping force on the cloth is enhanced, the cloth is prevented from sliding, the cloth is smoother, the phenomenon of uneven slitting is avoided, and the tensile resistance of the cloth is prevented from being reduced, the probability of edge scattering is reduced, and the quality of the cloth is prevented from being influenced.)

1. The utility model provides a strip machine is divided to cloth ultrasonic wave, its structure includes slewing mechanism (1), control cabinet (2), mount (3), rolling rod (4) inlay the upper end at mount (3), and shrink control cabinet (2) are located the side of mount (3), slewing mechanism (1) inlays the right side upper end at mount (3), rolling rod (4) are on a parallel with slewing mechanism (1), its characterized in that:

slewing mechanism (1) is equipped with and closes mechanism (11), transfer line (12), fixed plate (13), compressing mechanism (14), the upper end at transfer line (12) is laminated in switching mechanism (11), compressing mechanism (14) are fixed in the inside of fixed plate (13), transfer line (12) are located the left end of closing mechanism (11), fixed plate (13) are located the right side upper end of mount (3).

2. The cloth ultrasonic slitting machine of claim 1, characterized in that: the compression mechanism (14) is provided with a fixing shaft (141), a connecting mechanism (142) and a bent plate (143), the connecting mechanism (142) is embedded and fixed on the outer side of the fixing shaft (141), the bent plate (143) is installed on the outer side of the fixing shaft (141), the connecting mechanism (142) is located inside the bent plate (143), and the bent plate (143) and the cutting mechanism (11) are attached to each other.

3. The cloth ultrasonic slitting machine of claim 2, characterized in that: the connecting mechanism (142) is provided with a rubber ring (w1), a dredging mechanism (w2) and a bending groove (w3), the rubber ring (w1) is embedded at the upper end of the dredging mechanism (w2), the bending groove (w3) is positioned at the lower end of the dredging mechanism (w2), and the rubber ring (w1) is positioned inside the bending plate (143).

4. The cloth ultrasonic slitting machine of claim 3, characterized in that: the dredging mechanism (w2) is provided with a compression rod (w21), a balance rod (w22), a spring (w23), a sealing groove (w24), a stressed block (w25) and an air outlet (w26), wherein the compression rod (w21) is embedded at the upper end of the balance rod (w22), a spring (w23) is installed at the lower end of the balance rod (w22), the lower end of the spring (w23) is installed in the middle of the stressed block (w25), the stressed block (w25) is located at the upper end of the air outlet (w26), the spring (w23) is located in the sealing groove (w24), and the compression rod (w21) is located at the lower end of a rubber ring (w 1).

5. The cloth ultrasonic slitting machine of claim 1, characterized in that: the cutting mechanism (11) is provided with a rotating shaft (111), a cutting disc (112), an extrusion mechanism (113) and a cutting blade (114), the rotating shaft (111) is communicated with the cutting disc (112), the extrusion mechanism (113) is located on the outer side of the cutting disc (112), the cutting blade (114) is embedded and fixed in the rotating shaft (111), and the extrusion mechanism (113) is attached to the upper end of the compression mechanism (14).

6. The cloth ultrasonic slitting machine of claim 5, characterized in that: the pressing mechanism (113) is provided with a spring rod (a1), a fixing ring (a2), a sponge ring (a3), a connecting shaft (a4) and a sliding ball (a5), the spring rod (a1) is embedded and fixed on the outer side of the fixing ring (a2), the sponge ring (a3) is attached to the outer side of the fixing ring (a2), the sliding ball (a5) is installed inside the connecting shaft (a4), the spring rod (a1) is embedded and fixed on the inner side of the connecting shaft (a4), and the fixing ring (a2) is attached to the outer side of the cutting disc (112).

Technical Field

The invention relates to the field of slitting machines, in particular to a cloth ultrasonic slitting machine.

Background

When the ultrasonic process is adopted to carry out vermicelli on the cloth, the effect of reducing energy loss and improving energy conservation is achieved, the ultrasonic slitting machine cuts the cloth by utilizing the sharp cutting edge of the cutter, the cloth is driven by the motor to pass through the cutter, the cloth is cut by the cutting edge of the cutter and is divided into a plurality of cloth strips with smaller widths, and then the cloth strips are rolled into cloth rolls to be convenient to use, but the cloth is cut and the cutting edges of the cloth are softer, the phenomenon of untidy cutting is easy to occur, the tensile property of the cloth strips is reduced, even the problem of edge scattering can occur, the quality of the cloth can be seriously influenced, cloth scraps or dust can be generated when the cloth is cut, the cloth scraps or dust can be easily adhered to the cut cloth, the quality of the cut cloth is poor, and the problems of low production yield and low production efficiency are caused.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides a strip machine is divided to cloth ultrasonic wave, its structure includes slewing mechanism, control cabinet, mount, rolling rod, the rolling rod inlays admittedly in the upper end of mount, and the shrink control cabinet is located the side of mount, slewing mechanism inlays admittedly in the right side upper end of mount, the rolling rod is on a parallel with slewing mechanism, slewing mechanism is equipped with and shuts mechanism, transfer line, fixed plate, compression mechanism, the laminating of shutting mechanism is in the upper end of transfer line, compression mechanism fixes the inside at the fixed plate, the transfer line is located the left end of shutting mechanism, the fixed plate is located the right side upper end of mount, the transfer line is equipped with two, and is located same water flat line.

As a further improvement of the invention, the compression mechanism is provided with a fixed shaft, a connecting mechanism and a bent plate, the connecting mechanism is embedded and fixed on the outer side of the fixed shaft, the bent plate is arranged on the outer side of the fixed shaft, the connecting mechanism is positioned in the bent plate, the bent plate and the cutting mechanism are mutually attached, the bent plate is annularly wound on the outer side of the fixed shaft, and a gap is reserved between the bent plate and the fixed shaft.

As a further improvement of the invention, the connecting mechanism is provided with a rubber ring, a dredging mechanism and a bending groove, the rubber ring is embedded and fixed at the upper end of the dredging mechanism, the bending groove is positioned at the lower end of the dredging mechanism, the rubber ring is positioned inside the bending plate, and the lower surface of the bending groove is of a structure which is bent and extended outwards and is positioned between gaps of the rubber ring.

As a further improvement of the invention, the dredging mechanism is provided with a balance rod, a spring, a sealing groove, a stress block and an air outlet, wherein the compression rod is embedded at the upper end of the balance rod, the spring is installed at the lower end of the balance rod, the lower end of the spring is installed in the middle of the stress block, the stress block is positioned at the upper end of the air outlet, the spring is positioned inside the sealing groove, the compression rod is positioned at the lower end of the rubber ring, the outer side of the stress block is provided with harder metal, the middle of the stress block is provided with a wind-resisting cover made of rubber, and the function of enabling air to flow in a single direction after being stressed is achieved.

As a further improvement of the invention, the engagement mechanism is provided with a rotating shaft, a cutting disk, a squeezing mechanism and a cutting blade, the rotating shaft is communicated with the cutting disk, the squeezing mechanism is positioned outside the cutting disk, the cutting blade is embedded in the rotating shaft, the squeezing mechanism is attached to the upper end of the compression mechanism, and the cutting blade is positioned in the middle of the cutting disk and is positioned on the same vertical line with the compression mechanism.

As a further improvement of the invention, the extrusion mechanism is provided with a spring rod, a fixing ring, a sponge ring, a connecting shaft and sliding balls, the spring rod is embedded and fixed outside the fixing ring, the sponge ring is attached outside the fixing ring, the sliding balls are arranged inside the connecting shaft, the spring rod is embedded and fixed inside the connecting shaft, the fixing ring is attached outside the cutting disc, and the sliding balls surround the cutting disc and are positioned on two sides of the extrusion mechanism.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. in the cutting process, the cloth block is between the mechanism and the compression mechanism of closing, rotation through the coiling pole goes on and removes and the rolling to the cloth, make the cloth rotate on crooked board surface, and the cloth makes its compression after to crooked board effect, cause the compression pole to extrude the balancing pole, thereby make the spring to the atress piece effect, make the inside gas of seal groove discharge through the atress piece, act on the crooked groove, thereby blow the fines, make the fines flow from both sides, prevent that the fines adhesion is in the cloth after cutting, avoid resulting in the quality of the cloth after cutting than poor, stop the problem that the production yields is low and production efficiency is low, it causes the influence to the cutting cloth to reduce the fines.

2. The rotation axis drives the extrusion mechanism at the rotation in-process and fixes the laminating to the cloth, prevent that the roughness of cloth from influencing the cutting, it is fixed to the cloth through the atress compression, make the sliding ball compress the spring beam, thereby make the sliding ball who fixes in the solid fixed ring outside to extrude the sponge ring, and the sponge ring is the sponge material, the resistance is less, avoid influencing the rotation of sliding ball, and the sliding ball is the axle-shaped structure, its outside distribution has the triangle-shaped structure, strengthen the power of grabbing to the cloth, avoid the cloth to slide, thereby make the cloth comparatively level and smooth, avoid cutting uneven phenomenon, prevent that cloth pull resistance from descending, reduce the emergence limit problem probability, prevent to influence the quality of cloth.

Drawings

Fig. 1 is a schematic structural view of a cloth ultrasonic slitting machine of the present invention.

Fig. 2 is a schematic side view of a rotating mechanism according to the present invention.

Fig. 3 is a schematic side view of a compression mechanism according to the present invention.

Fig. 4 is a schematic side view of a connecting mechanism according to the present invention.

Fig. 5 is a schematic side structure view of a dredging mechanism of the present invention.

Fig. 6 is a schematic plan view of a fitting mechanism according to the present invention.

Fig. 7 is a partial side view of a pressing mechanism according to the present invention.

In the figure: the device comprises a rotating mechanism-1, a console-2, a fixed frame-3, a winding rod-4, a cutting mechanism-11, a transmission rod-12, a fixed plate-13, a compression mechanism-14, a rotating shaft-111, a cutting disc-112, an extrusion mechanism-113, a cutting blade-114, a spring rod-a 1, a fixed ring-a 2, a sponge ring-a 3, a connecting shaft-a 4, a sliding ball-a 5, a fixed shaft-141, a connecting mechanism-142, a bent plate-143, a rubber ring-w 1, a dredging mechanism-w 2, a bent groove-w 3, a compression rod-w 21, a balance rod-w 22, a spring-w 23, a sealing groove-w 24, a stress block-w 25 and an air outlet-w 26.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings: