CN220246507U - Online flaw detection equipment of forming machine - Google Patents

Abstract

The utility model relates to online flaw detection equipment of a setting machine, which comprises a setting machine for setting a fabric, an external first frame, an external second frame and an external third frame which are arranged on the outer side of the setting machine, wherein the top surface of a cutting rod is a plane, and the top of a guide roller is tangent to a virtual extension surface of the top surface of the cutting rod. Through be equipped with the depressed part of cooperation depression bar on tailorring the pole, be equipped with the lower convex part of cooperation tailorring the pole on the depression bar for the depression bar can lay the one end that is close to the fabric forming machine in the surface fabric that is cut in the depressed part of tailorring the pole, and then in the one end card that is close to the fabric forming machine in the surface fabric that is cut is gone into this depressed part, after it loses the pressing of depression bar, can not follow and cut out the pole and drop.

Description

Online flaw detection equipment of forming machine

Technical Field

The utility model relates to flaw detection of a setting machine, in particular to online flaw detection equipment of the setting machine.

Background

The setting machine is a machine for industrial manufacturing and setting, and can be classified into vamp setting machine, sock setting machine and fabric setting machine according to types.

For the fabric shaping machine, the fabric is continuously conveyed through the guide rollers as the fabric is conveyed. Therefore, the fabric setting machine cannot directly remove defective products like an vamp setting machine and a sock setting machine. The machine is required to be stopped by a worker, then the fabric of the defective section is cut off, the end part of the fabric without defects is connected, and the machine is restarted to carry out continuous conveying and shaping of the fabric.

In the market, some automatic cutting mechanisms of fabric shaping machines are matched with pressing pieces for pressing the fabric, and the pressing pieces are used for preventing the fabric from shifting when being cut by a cutting knife.

At present, the pressing piece of the fabric shaping machine has no other interrelated functions between the pressing piece and the cutting table except for being close to the cutting table to realize pressing fixation of the fabric. Therefore, when the cutting knife finishes cutting the fabric, after the pressing piece releases the pressing fixation of the fabric, the two fabric ends formed by cutting the fabric can be separated from the cutting table.

Disclosure of Invention

In order to solve the problem that the pressing piece of the fabric shaping machine provided in the background art is close to the cutting table to realize pressing fixation of the fabric, and other interrelated functions are not provided between the pressing piece and the cutting table, so that after the cutting knife finishes cutting the fabric, the pressing piece releases the pressing fixation of the fabric, and after the pressing piece releases the pressing fixation of the fabric, the two fabric ends formed by cutting the fabric are separated from the cutting table, the utility model provides the following technical scheme:

the online flaw detection equipment of the setting machine comprises a setting machine for setting a fabric, an external first frame, an external second frame and an external third frame, wherein the external first frame, the external second frame and the external third frame are arranged on the outer side of the setting machine.

The external frame one is located the both sides of the surface fabric export of surface fabric forming machine, and two guide rollers that are the symmetry setting and are used for deriving the surface fabric and a pair of tailors the pole that is used for the cooperation to tailor the operation that sets up between two guide rollers are installed to the frame chamber of external frame one.

The second external frame is positioned above a fabric outlet of the fabric shaping machine, a camera and a linear electric guide rail module for monitoring the fabric on line are mounted at the bottom of the second external frame, an electric telescopic rod I is mounted below a sliding block of the linear guide rail module, and a cutter for cutting the fabric is mounted at the bottom end of the electric telescopic rod I.

The third external frame is located near two corners above the fabric shaping machine and is higher than the second external frame, the second electric telescopic rod is installed at the bottom of the third external frame, and a pressing rod matched with the cutting rod to press and fix the fabric is installed at the bottom of the second electric telescopic rod.

The cutting rod is provided with a concave part matched with the pressing rod, the pressing rod is provided with a lower convex part matched with the cutting rod, and one end, close to the fabric shaping machine, of the cut fabric can be placed in the concave part of the cutting rod by the pressing rod.

Further, the top surface of the cutting rod is a plane, and the top of the guide roller is tangent to the virtual extension surface of the top surface of the cutting rod. The cutting rod comprises an inner cutting rod and an outer cutting rod, the inner cutting rod and the outer cutting rod are symmetrically arranged, and a space for the blade on the cutter to advance is reserved between the inner cutting rod and the outer cutting rod. The concave part of the cutting rod is a pressing groove with a convex groove cavity shape in the section of the top of the inner cutting rod.

Further, the compression bar is in a frame shape with an upward opening. The abdomen of the compression bar is provided with a cutting groove which is aligned with the space reserved in the middle of the cutting bar and used for the blade on the cutter to advance. The top end of the wing part of the compression bar is connected with the bottom end of the second electric telescopic rod. The lower convex part of the compression bar is a compression stop block which is arranged on the bottom wall of the body of the compression bar belly rod and is aligned with the compression stop groove, and the cross section of the compression stop block is square and can be inserted into the groove cavity of the compression stop groove.

Further, the camera, the first electric telescopic rod, the second electric telescopic rod and the linear electric guide rail module are all connected with a controller of the fabric shaping machine.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the concave part matched with the pressing rod is arranged on the cutting rod, and the lower convex part matched with the cutting rod is arranged on the pressing rod, so that one end, close to the fabric shaping machine, of the cut fabric can be placed in the concave part of the cutting rod by the pressing rod, and further one end, close to the fabric shaping machine, of the cut fabric is clamped into the concave part, and the cut fabric cannot fall off from the cutting rod after the pressing rod is lost.

Drawings

FIG. 1 is a front view of the present utility model;

FIG. 2 is an enlarged view of the utility model at A of FIG. 1;

FIG. 3 is a combined view of an external auxiliary frame II, a guide roller and a cutting rod;

FIG. 4 is a perspective view of a cutting bar of the present utility model;

FIG. 5 is an enlarged view of the utility model at B of FIG. 4;

FIG. 6 is a perspective view of a compression bar of the present utility model;

fig. 7 is an enlarged view of fig. 6 at enlargement C in accordance with the present utility model.

In the drawings, the list of part names represented by the reference numerals is as follows:

1-a fabric setting machine, 11-a first external frame, 12-a second external frame, 13-a third external frame, 001-a fabric, 002-a camera, 003-a first electric telescopic rod and 004-a second electric telescopic rod;

100-guide rollers;

200-cutting rods, 210-inner cutting rods, 220-outer cutting rods and 201-pressing stop grooves;

300-compression bar, 301-cutting groove, 302, pressing stop block.

Detailed Description

Preferred embodiments for carrying out the present utility model are described in detail below, and a clear and complete description thereof is provided with reference to the accompanying drawings.

Referring to fig. 1-7, the present utility model provides an online flaw detection device for a setting machine, comprising:

a fabric setting machine 1 for setting a fabric 001; an external frame I11, an external frame II 12 and an external frame III 13 which are arranged on the outer side of the fabric setting machine 1; and a camera 002, an electric telescopic rod I003, an electric telescopic rod II 004, a linear electric guide rail module and a buzzer. The camera 002, the first electric telescopic rod 003, the second electric telescopic rod 004, the linear electric guide rail module and the buzzer are all connected with and controlled by the controller of the fabric setting machine 1, and the buzzer can be arranged on the outer wall of the fabric setting machine 1. In addition, the controller of the fabric setting machine 1 is also connected with an external computer, and the external computer is used for analyzing the image information acquired by the camera 002.

In the utility model, the external frame I11 comprises two pairs of symmetrically arranged frame bodies, and the two pairs of symmetrically arranged frame bodies are respectively arranged on the outer walls of the two sides of the fabric outlet of the fabric shaping machine 1. In addition, the clamping cavity formed by the two sub-frames is regarded as the frame cavity of the outer frame 11.

Wherein, two symmetrically arranged guide rollers 100 for guiding out the fabric 001 are arranged in the frame cavity of the external frame one 11. Two ends of the guide roller 100 are respectively provided with a bearing, and the two bearings are respectively embedded on two sub-frames of the outer frame 11.

Wherein, a pair of cutting bars 200 which are arranged between the two guide rollers 100 and are used for matching cutting operations are also arranged in the frame cavity of the external frame one 11. The top surface of the cutting bar 200 is a plane and the virtual extension of the plane is tangential to the top of the guide roller 100. So that the fabric 001 can pass over it.

Preferably, the cutting bar 200 includes an inner cutting bar 210 and an outer cutting bar 220, and the inner cutting bar 210 and the outer cutting bar 220 are symmetrically disposed. Both ends of the two are respectively fixedly arranged on two sub-frame bodies of the outer frame one 11, and a space for a blade on a cutter to advance when cutting the fabric 001 is reserved between the two sub-frame bodies.

Preferably, the cutting rod 200 is provided with a concave portion for pressing the fabric 001 in cooperation with the pressing rod 300, and the concave portion is a pressing stop groove 201 formed at the top of the inner cutting rod 210 and having a convex groove cavity shape in cross section. In addition, the top surface of the outer cutting rod 220 is uniformly provided with an anti-slip groove, so that the friction between the top surface of the outer cutting rod 220 and the fabric 001 is increased when the pressing rod 300 presses the fabric 001 on the cutting rod 200, and the pressed fabric 001 is not easy to move.

In the utility model, the second external frame 12 is fixedly arranged on the outer wall above the fabric outlet of the fabric shaping machine 1.

Wherein, the frame bottom of the external frame two 12 is provided with a camera 002 for on-line monitoring of the fabric 001. When the fabric 001 passes below the camera 002, information can be continuously collected by the camera 002 and fed back to an external computer through a controller, and the external computer analyzes the information on line in real time. When the defective fabric 001 passes below the camera 002, the external computer judges that the defect occurs, and the fabric setting machine 1 is suspended by the controller. Meanwhile, the buzzer sounds to prompt the operator to look over the buzzer.

The linear electric guide rail module is further installed at the bottom of the external frame II 12, the first electric telescopic rod 003 is installed below the sliding block of the linear guide rail module, the cutter for cutting the fabric 001 is installed at the bottom end of the first electric telescopic rod 003, and the cutter bottom is provided with a blade for cutting the fabric.

In the utility model, the third external frame 13 comprises two auxiliary frame bodies which are respectively positioned near two upper corner parts of the fabric setting machine 1 and are higher than the second external frame 12.

The bottom of the external frame III 13 is provided with an electric telescopic rod II 004, and the bottom end of the electric telescopic rod II 004 is provided with a pressing rod 300 which is matched with the cutting rod 200 to press and fix the fabric 001. The pressing bar 300 has a -shaped frame shape with an opening facing upward. The abdomen of the pressing bar 300 is provided with a cutting groove 301 aligned with a space left in the middle of the cutting bar 200 for the blade on the cutter to travel. The top end of the wing part of the compression bar 300 is connected with the bottom end of the electric telescopic rod II 004.

Preferably, the lower protruding part of the pressing rod 300 is a pressing stop block 302 which is arranged on the bottom wall of the abdomen rod body of the pressing rod 300 and aligned with the pressing stop groove 201, and the cross section of the pressing stop block 302 is square and can be inserted into the groove cavity of the pressing stop groove 201. The pressing rod 300 is provided with a lower convex part matched with the cutting rod 200, and one end, close to the fabric setting machine 1, of the cut fabric 001 can be placed in the concave part of the cutting rod 200 by the pressing rod 300.

After checking, the operator confirms that the defect exists, the operator can drive the pressing rod 300 to descend by opening the electric telescopic rod II 004, after the pressing rod 300 is matched with the cutting rod 200 to press the fabric, the electric telescopic rod I003 is started again to drive the cutter to descend, the blade penetrates through the cutting groove 301 and is inserted into the space from one end of the space left between the inner cutting rod 210 and the outer cutting rod 220, the linear electric guide rail module is started again to operate, the blade slides along the space, and the aim of cutting the fabric 001 above the space is achieved. And after cutting, the pressing rod and the cutter are operated to return to the original positions.

In the present utility model, after the fabric 001 is pressed into the pressing groove 201 by the pressing block 302, the groove cavity of the pressing groove 201 is small and large. Therefore, after the pressing block 302 moves upward to exit the pressing groove 201, the fabric pressed into the pressing groove 201 is caught in the groove cavity of the pressing groove 201, thereby preventing it from falling off from the cutting bar 200. So that the operator pulls the fabric 001 from the cutting bar 200, completely pulls the fabric 001 in the defective area thereof, and cuts it out by the above-mentioned cutting operation. And finally, connecting the ends of the two cut plus materials 001 without flaws, restarting the plus material setting machine 1, and carrying out normal production line operation.

Based on the above description and the drawings, one skilled in the art will be able to understand and practice the present utility model. Furthermore, any non-inventive modifications to the present utility model that would not be made by a person skilled in the art without the inventive effort would still fall within the scope of the present utility model.

Claims (7)

1. The utility model provides a online flaw check out test set of forming machine, includes fabric forming machine (1) that carries out the design to surface fabric (001), its characterized in that: the fabric shaping machine also comprises an external first frame (11), an external second frame (12) and an external third frame (13) which are arranged on the outer side of the fabric shaping machine (1);

the first external frame (11) is positioned at two sides of a fabric outlet of the fabric shaping machine (1), and a frame cavity of the first external frame (11) is provided with two symmetrically arranged guide rollers (100) for guiding out the fabric (001) and a pair of cutting rods (200) arranged between the two guide rollers (100) and used for matching cutting operation;

the second external frame (12) is positioned above a fabric outlet of the fabric shaping machine (1), a camera (002) and a linear electric guide rail module for on-line monitoring of the fabric (001) are arranged at the bottom of the second external frame (12), an electric telescopic rod I (003) is arranged below a sliding block of the linear guide rail module, and a cutter for cutting the fabric (001) is arranged at the bottom end of the electric telescopic rod I (003);

the third external frame (13) is positioned near two corners above the fabric shaping machine (1) and is higher than the second external frame (12), an electric telescopic rod II (004) is arranged at the bottom of the third external frame (13), and a pressing rod (300) matched with the cutting rod (200) to press and fix the fabric (001) is arranged at the bottom end of the electric telescopic rod II (004);

the cutting rod (200) is provided with a concave part matched with the pressing rod (300), the pressing rod (300) is provided with a lower convex part matched with the cutting rod (200), and one end, close to the fabric shaping machine (1), of the cut fabric (001) can be placed in the concave part of the cutting rod (200) by the pressing rod (300).

2. The online flaw detection apparatus of a setting machine according to claim 1, wherein: the top surface of the cutting rod (200) is a plane, and the top of the guide roller (100) is tangent to the virtual extension surface of the top surface of the cutting rod (200).

3. The online flaw detection apparatus of a setting machine according to claim 2, wherein: the cutting rod (200) comprises an inner cutting rod (210) and an outer cutting rod (220), the inner cutting rod (210) and the outer cutting rod (220) are symmetrically arranged, and a space for the blade on the cutter to advance is reserved between the inner cutting rod and the outer cutting rod.

4. The online flaw detection apparatus for a setting machine according to claim 3, wherein: the concave part of the cutting rod (200) is a pressing groove (201) with a convex groove cavity shape in the section of the top of the inner cutting rod (210).

5. The online flaw detection apparatus for setting machine according to claim 4, wherein: the compression bar (300) is in a frame shape with an upward opening;

the abdomen of the compression bar (300) is provided with a cutting groove (301) which is aligned with the space reserved in the middle of the cutting bar (200) and used for the blade on the cutter to advance;

the top end of the wing part of the compression bar (300) is connected with the bottom end of the electric telescopic rod II (004).

6. The online flaw detection apparatus of a setting machine according to claim 5, wherein: the lower convex part of the pressing rod (300) is a pressing stop block (302) which is arranged on the bottom wall of the abdomen rod body of the pressing rod (300) and is aligned with the pressing stop groove (201), and the section of the pressing stop block (302) is square and can be inserted into the groove cavity of the pressing stop groove (201).

7. The online flaw detection apparatus of a setting machine according to claim 6, wherein: the camera (002), the first electric telescopic rod (003), the second electric telescopic rod (004) and the linear electric guide rail module are all connected with the controller of the fabric shaping machine (1).