CN211616973U - Automatic cloth printing equipment - Google Patents

Abstract

The utility model discloses an automatic printing equipment of cloth, it includes: a frame; install roller device in frame top has: a horizontal bar moving in a horizontal direction with respect to the frame; the roller is positioned below the horizontal rod, can move up and down and is used for being matched with the horizontal rod so as to clamp or loosen the cloth to be printed; the horizontal driving device is arranged on the rack and connected with the horizontal rod and is used for driving the horizontal rod and the roller to horizontally move relative to the rack; the high-temperature printing device is arranged on the rack and is positioned below the roller device; the control device is respectively and electrically connected with the horizontal driving device, the roller device and the high-temperature printing device and is provided with a position detection element for detecting whether the roller reaches a preset printing position and a control unit for controlling the actions of the devices according to the detection result of the position detection element. The utility model discloses an equipment can realize the automatic operation that the stamp in-process cloth was carried for the stamp process is complete, accurate, high-efficient, can improve the productivity effect of mill.

Description

Automatic cloth printing equipment

Technical Field

The utility model relates to the field of textile machinery, concretely relates to automatic printing equipment of cloth.

Background

With the rapid development of social economy, people have more and more extensive demands on printed cloth. However, in the printing factory at the present stage, the cloth conveying in the printing process needs to be completed manually, so that the efficiency of producing the printed cloth with high standard and high requirement is not high, the printing speed is very low, the breaking amount is large, and the printing cost is high due to the fact that many operators are needed. Therefore, the development of a printing device which can print automatically and has a compact structure is a problem which needs to be solved urgently by various printing factories.

Disclosure of Invention

The utility model aims at overcoming the problem that above-mentioned prior art exists, provide an automatic printing equipment of cloth, can realize the automatic operation that the stamp in-process cloth was carried for the stamp process is complete, accurate, high-efficient, can improve the productivity effect of mill.

In order to realize the above object of the present invention, the following technical solutions are provided:

an automatic cloth printing apparatus comprising: a frame; install the roller device who is used for input and transfers the cloth of waiting to stamp above the frame, have: a horizontal bar moving in a horizontal direction with respect to the frame; the roller is positioned below the horizontal rod and can move up and down relative to the horizontal rod, and is used for being matched with the horizontal rod so as to clamp or release the cloth to be printed; the horizontal driving device is arranged on the rack and connected with the horizontal rod and is used for driving the horizontal rod and the roller to horizontally move relative to the rack; the high-temperature printing device is arranged on the rack and positioned below the roller device and is used for printing the cloth to be printed; the control device is respectively and electrically connected with the horizontal driving device, the roller device and the high-temperature printing device and is provided with a position detection element for detecting whether the roller reaches a preset printing position and a control unit for controlling the actions of the devices according to the detection result of the position detection element.

Further, the roller device also has: the roller frame body comprises a pair of stroke plates which are arranged in parallel along the vertical direction; the two ends of the horizontal rod are respectively fixed in the middle of the pair of stroke plates, and the position detection element is installed above the stroke plates.

Wherein, set up the through-hole that extends along vertical direction on the stroke board, the roller frame body still includes: a pair of bottom fixing plates fixedly mounted at the bottoms of the pair of stroke plates, respectively; a pair of top fixing plates fixedly mounted on the tops of the pair of stroke plates, respectively, the position detecting element being mounted on the top fixing plates; a pair of stroke rods which are respectively arranged at the through holes of the pair of stroke plates and the upper and lower ends of which are respectively fixed on the corresponding top fixing plate and the bottom fixing plate; wherein, the both ends of roller are connected with a pair of stroke pole respectively.

And the two ends of the roller are respectively provided with a supporting bearing, and a sliding block which is connected with the corresponding stroke rod in a sliding manner is arranged on a bearing seat of the supporting bearing.

Furthermore, the roller device is also provided with a lifting driving device of which the power output part is fixedly connected with the sliding block.

Wherein, the lifting driving device is a pneumatic driving device, an electric driving device or a hydraulic driving device.

Wherein the horizontal driving device includes: a motor mounted on the frame; and the transmission mechanism is connected with an output shaft of the motor and is provided with a power output element fixedly connected with the horizontal rod.

Wherein, drive mechanism includes: the power input element of the first transmission assembly is connected with the output shaft of the motor; and the power input element of the second transmission assembly is connected with the power output element of the first transmission assembly, and the power output element of the second transmission assembly is fixedly connected with the horizontal rod.

The first transmission component is a gear transmission component, a chain wheel transmission component or a belt pulley transmission component, and the second transmission component is a gear transmission component, a chain wheel transmission component or a belt pulley transmission component.

The first transmission assembly is a chain wheel transmission assembly, and the second transmission assembly is a chain wheel transmission assembly.

Compared with the prior art, the utility model discloses automatic printing equipment of cloth's beneficial effect embodies in following aspect:

1. the utility model discloses an automatic printing equipment of cloth, but its roller device frame horizontal migration relatively, and have the roller that the horizon bar moved along vertical direction lift with the horizon bar relatively to cloth stamp in-process, can adjust the position of roller and the interval between roller and the horizon bar as required, through roller and horizon bar centre gripping or loosen the centre gripping cloth, and but the cloth of the different thickness of centre gripping, greatly improve the cloth and transport speed.

2. The utility model discloses an automatic calico printing equipment of cloth, its position detection component can detect whether the roller reachs predetermined stamp position, thereby can be according to the action of each device of position detection component testing result control, make whole equipment begin the overall process automatic operation that the stamp was ended from the stamp, effectively accelerate the speed of stamp process, and can be high-efficient, stable, the automatic stamp that carries out the cloth, improve the inefficiency that traditional stamp device semi-automatization brought, the condition that needs artifical the participation, greatly improve labor production efficiency, reduce the cost of labor.

3. The utility model discloses an automatic printing equipment of cloth, simple structure, degree of automation is high, and simple to operate is swift, and the noise is low, accords with current economic high-efficient development theory, has the prospect of popularization and application, is particularly useful for small-size factory production calico printing cloth, can solve the problem of the current production cloth stamp in-process inefficiency.

The structure of the present invention will be described below with reference to the accompanying drawings.

Drawings

FIG. 1 is a schematic structural view of an automatic cloth printing apparatus of the present invention;

FIG. 2 is a front view of the roller assembly of the present invention;

FIG. 3 is a left side view of the roller assembly of the present invention;

FIG. 4 is a perspective view of the roller assembly of the present invention;

FIG. 5a is a front view of the horizontal rod of the present invention;

fig. 5b is a left side view of the horizontal rod of the present invention;

FIG. 5c is a top view of the horizontal rod of the present invention;

FIG. 6 is a perspective view of the horizontal bar of the present invention;

fig. 7 is a perspective view of the travel plate of the present invention.

Detailed Description

As shown in fig. 1, for the embodiment of the present invention provides a structural schematic diagram of an automatic cloth printing apparatus, and as can be seen from the figure, the automatic cloth printing apparatus of this embodiment includes: a frame 1; a roller device 11 installed above the frame 1 for inputting and transferring the cloth to be printed, comprising: a horizontal bar 5 that moves in the horizontal direction in the lateral direction with respect to the frame 1; a roller 13 which is positioned below the horizontal rod 5 and can move up and down along the vertical direction relative to the horizontal rod 5 and is used for being matched with the horizontal rod 5 so as to clamp or release the cloth to be printed; the horizontal driving device is arranged on the rack 1 and connected with the horizontal rod 5 and is used for driving the horizontal rod 5 and the roller 13 to horizontally move relative to the rack 1; a high-temperature printing device 12 which is arranged on the frame 1 and is positioned below the roller device 11 and is used for printing the cloth to be printed; the control device is electrically connected with the horizontal driving device, the roller device 11 and the high-temperature printing device 12 respectively, and is provided with a position detection element for detecting whether the roller 13 reaches a preset printing position and a control unit (not shown in the figure) for controlling the actions of the devices according to the detection result of the position detection element.

The utility model discloses an automatic printing equipment of cloth, but its roller device frame horizontal migration relatively, and the roller device has the horizon bar and can be relatively the roller of horizon bar along vertical direction lift removal, thereby to cloth stamp in-process, can adjust the relative frame of roller as required along the position of horizontal direction, and follow the interval of vertical direction between roller and the horizon bar, through roller and horizon bar cooperation and the centre gripping or loosen the centre gripping cloth, and but the cloth of the different thickness of centre gripping, greatly improve the cloth and transport speed. In addition, position detecting element can detect whether the roller reachs predetermined stamp position to can be according to the action of each device of position detecting element testing result control, make whole equipment from the stamp begin to the whole process automatic operation that the stamp ended, effectively accelerate the speed of stamp process, and can be high-efficient, stable, automatic carry out the stamp of cloth, improve the condition that traditional stamp device semi-automatization brought inefficiency, need artifical the participation, greatly improve work production efficiency, reduce the cost of labor.

Specifically, the frame 1 of this embodiment is a frame structure, a cloth carrying device 2, a roller device 11 and a high temperature printing device 12 are arranged on the frame 1, a cloth to be printed is input and transferred forward through the roller device 11, the cloth to be printed, transferred to a predetermined printing position by the roller device 11, is subjected to printing treatment through the high temperature printing device 12, and the printed cloth is loosened by a roller and a horizontal rod of the roller device 11 and falls onto the cloth carrying device 2, and is transferred forward to a cloth storage position by the cloth carrying device 2.

The cloth carrier 2 and the high temperature printing device 12 of this embodiment can both adopt the structure of the prior art, and therefore the structure thereof will not be described, and the structure of the roller device 11 that can realize the function of automatically feeding cloth in this embodiment will be described below.

As shown in fig. 2-4, which are schematic structural views of roller device 11 of this embodiment, it can be seen that roller device 11 of this embodiment includes: a horizontal bar 5 that moves in the horizontal direction with respect to the frame 1; the roller 13 which is positioned below the horizontal rod 5, can move up and down relative to the horizontal rod 5, is used for being matched with the horizontal rod 5 so as to clamp or release a to-be-printed cloth to be clamped, is in a spindle shape with a large middle radius and small radii at two ends, the extending direction of the roller 13 is consistent with the longitudinal direction of the rack 1 along the horizontal direction, and the spindle-shaped roller can enable the printed shape of the cloth to be clearer and more complete; a roller frame body connected with the horizontal rod 5 and used for supporting the roller 13. The horizontal rod 5 moves in the horizontal direction relative to the frame 1 under the drive of the horizontal driving device so as to drive the whole roller device 11 to move in the horizontal direction relative to the frame 1, so that the purposes of clamping the cloth to be printed and moving the cloth forwards in the horizontal direction are achieved through the horizontal rod 5 and the roller.

As shown in fig. 2-4 and 7, the roller frame body of the embodiment includes: a pair of stroke plates 20 arranged in parallel along the vertical direction, wherein each stroke plate 20 is provided with a through hole 25 extending along the vertical direction, two ends of the horizontal rod 5 are respectively fixed at the middle parts of the stroke plates 20, an angle steel 17 is arranged on one side of the top of each stroke plate 20 to connect the stroke plates 20 together, and a baffle 18 is arranged on one side of the angle steel 17 (the baffle is arranged on one side close to a motor of the horizontal driving device); a pair of bottom fixing plates 24 fixedly installed at the bottoms of the pair of stroke plates 20, respectively; a pair of top fixing plates 26 fixedly installed on top of the pair of stroke plates 20, respectively, and the position detecting element 16 is installed on the top fixing plates 26; a pair of stroke rods 21 respectively arranged at the through holes 25 of the pair of stroke plates 20 and respectively fixed at the upper and lower ends on the corresponding top fixing plate 26 and bottom fixing plate 24; wherein, a pair of connecting shafts respectively extend out of two ends of the roller 13 along the axial direction, each connecting shaft is provided with a supporting bearing 23, a sliding block 27 which is connected with the corresponding stroke rod 21 in a sliding way is arranged on a bearing seat of the supporting bearing 23, namely, the sliding block 27 is sleeved on the corresponding stroke rod 21 and can move up and down along the stroke rod 21.

In order to make the roller 13 move up and down relative to the horizontal rod 5 under the driving of the sliding block 27, the roller device 11 of the embodiment further has a lifting driving device with a power output part fixedly connected with the sliding block 27. The lifting driving device can adopt a pneumatic driving device, an electric driving device and a hydraulic driving device. Preferably, the present embodiment uses a pneumatic driving device, which includes two air cylinders and corresponding air inlet pipes (not shown in the figure, the air cylinders and other elements can be arranged at the position of the frame where they do not interfere with other elements) on both sides of the roller 13, the piston rod of each air cylinder is arranged along the vertical direction, and the extending end of the piston rod is fixedly connected with the slide block 27 on the corresponding side. When the two cylinders work synchronously, the two sliding blocks are driven to move up and down through the telescopic motion of the two piston rods, so that the roller with two ends indirectly connected with the two sliding blocks is driven to move up and down.

As shown in fig. 5a to 6, the horizontal rod 5 of the present embodiment includes a pair of parallel rods 50 arranged in parallel along a longitudinal direction of the horizontal direction, a pair of connecting seats 52 connected to two ends of the pair of parallel rods 50, and two sets of engaging lugs 51 fixedly mounted on the pair of parallel rods 50, each set of engaging lugs 51 includes a pair of engaging lugs mounted on the pair of parallel rods 50 and corresponding to each other, and two ends of the horizontal rod 5 are connected to the horizontal driving device through the two sets of engaging lugs 51, so that the horizontal rod 5 moves along the horizontal direction relative to the rack 1 under the driving of the horizontal driving device.

The horizontal driving apparatus may adopt a structure as shown in fig. 1, including: a motor mounted on the frame 1; the transmission mechanism connected with the output shaft of the motor is provided with a power output element fixedly connected with the horizontal rod 5.

Specifically, the drive mechanism includes: the power input element of the first transmission component is connected with the output shaft of the motor; and the power input element of the second transmission assembly is connected with the power output element of the first transmission assembly, and the power output element of the second transmission assembly is fixedly connected with the horizontal rod 5. Wherein, the first transmission component and the second transmission component can respectively adopt a gear transmission component, a chain wheel transmission component or a belt pulley transmission component.

In the present embodiment, the structure of the transmission mechanism will be described by taking the sprocket transmission assembly as an example of the first transmission assembly and the second transmission assembly.

As shown in fig. 1, two sets of transmission mechanisms (only one set of transmission mechanism is shown) with the same structure are adopted in the embodiment, and the two sets of transmission mechanisms are respectively disposed at two sides of the frame 1, that is, respectively correspond to two ends of the roller, and each set of transmission mechanism includes a first transmission assembly and a second transmission assembly.

Wherein, first transmission assembly includes: a motor 10 fixedly installed at one side of the frame 1 and located at one end thereof; a driving gear I7 which is arranged on the output shaft of the motor 10 or is indirectly connected with the output shaft; a driven gear shaft which is arranged on the rack 1 and is positioned below the driving gear I7 is provided with a driven gear I9; and the chain I6 is respectively connected with the driving gear I7 and the driven gear I9. When the motor 10 works, the driving gear I7 is driven to rotate, and the driven gear I9 is driven to rotate through the chain I6, so that power is output to the second transmission assembly.

Wherein, the second transmission assembly includes: a driven gear II 8 arranged on the driven gear shaft; a driven gear shaft which is rotatably arranged at one side of the frame and is positioned at the other end of the frame is provided with a driven gear III 3; and the chain II 4 is respectively connected with the driven gear II 8 and the driven gear III 3. The horizontal rod 5 is respectively fixed on a pair of chains II 4 of the two groups of transmission mechanisms through connecting lugs 51 at two ends of the horizontal rod. When the pair of motors 10 work, the output power is transmitted to the driven gear II 8 through the first transmission assembly, and the chain II 4 drives the driven gear III 3 to rotate, so that the chain II 4 moves along the horizontal direction, and the pair of chains II 4 drives the horizontal rod 5 to move along the horizontal direction.

The control device of the embodiment is provided with a position detection element and a control unit, wherein the position detection element is a sensor, the sensor is used for detecting whether the roller 13 reaches a preset printing position, and if the roller reaches the preset printing position, the control unit controls each device electrically connected with the control unit to act. The control circuit of the control unit may adopt similar control circuits in the prior art, which are not described herein.

Next, the operation of the apparatus of the present embodiment will be described.

And (3) a cloth input process: when motor 10 during operation, the axle with motor looks rigid coupling drives driving gear I7 and takes place to rotate, is connected by chain I6 between driving gear I7 and the driven gear I9 to drive driven gear I9 and rotate, driven gear II 8 and driven gear I9 are connected on same root, are connected by chain II 4 between driven gear II 8 and the driven gear III 3. When cloth is rolled into the roller 13 through the roller device 11, the cloth is positioned between the roller and the horizontal rod 5 to enter the cloth printing process, the horizontal rod 5 connected with the chain II 4 operates, two ends of the roller 13 in the roller device 11 are connected with the stroke plate 20 through the supporting bearing, the whole roller device 11 is driven to transversely advance along the horizontal direction through the chain II 4, and the cloth horizontally clamped between the roller 13 and the horizontal rod 5 is driven to move forwards so as to reach the position of cloth printing. The sensor 16 is used for detecting the position of the roller device 11 in the advancing process, when the roller 13 in the roller device 11 reaches the appointed printing position, the sensor 16 senses the position, the control unit controls the lifting device to enable the roller 13 to automatically descend, and cloth clamped between the roller and the horizontal rod can fall onto the high-temperature printing device 12 located below the roller so as to be printed through the high-temperature printing device 12.

And (3) a cloth output process: after the cloth printing process is finished, the roller 13 in the roller device 11 can automatically rise through the lifting device, the horizontal rod 5 connected with the chain II drives the roller device 11 to return to the initial position under the driving of the horizontal driving device, when the initial position is returned, printed cloth is conveyed to the cloth bearing device from the position of the roller through the rotating shaft on the cloth bearing device 2 and the support of the flat plate, and the rotating shaft moves forwards to store the cloth.

Although the above is the detailed description of the present invention, the present invention is not limited thereto, and those skilled in the art can modify the principle of the present invention, therefore, various modifications performed according to the principle of the present invention should be understood as falling into the protection scope of the present invention.

Claims (10)

1. An automatic printing equipment of cloth, its characterized in that includes:

a frame;

install the roller device who is used for input and transfers the cloth of waiting to stamp above the frame, have: a horizontal bar moving in a horizontal direction with respect to the frame; the roller is positioned below the horizontal rod and can move up and down relative to the horizontal rod, and is used for being matched with the horizontal rod so as to clamp or release the cloth to be printed;

the horizontal driving device is arranged on the rack and connected with the horizontal rod and is used for driving the horizontal rod and the roller to horizontally move relative to the rack;

the high-temperature printing device is arranged on the rack and positioned below the roller device and is used for printing the cloth to be printed;

the control device is respectively and electrically connected with the horizontal driving device, the roller device and the high-temperature printing device and is provided with a position detection element for detecting whether the roller reaches a preset printing position and a control unit for controlling the actions of the devices according to the detection result of the position detection element.

2. An automatic cloth printing apparatus according to claim 1, wherein said roller means further comprises:

the roller frame body comprises a pair of stroke plates which are arranged in parallel along the vertical direction;

the two ends of the horizontal rod are respectively fixed in the middle of the pair of stroke plates, and the position detection element is installed above the stroke plates.

3. An automatic cloth printing apparatus according to claim 2, wherein the stroke plate is provided with a through hole extending in a vertical direction, and the roller frame body further comprises:

a pair of bottom fixing plates fixedly mounted at the bottoms of the pair of stroke plates, respectively;

a pair of top fixing plates fixedly mounted on the tops of the pair of stroke plates, respectively, the position detecting element being mounted on the top fixing plates;

a pair of stroke rods which are respectively arranged at the through holes of the pair of stroke plates and the upper and lower ends of which are respectively fixed on the corresponding top fixing plate and the bottom fixing plate;

wherein, the both ends of roller are connected with a pair of stroke pole respectively.

4. An automatic cloth printing device according to claim 3, wherein support bearings are respectively arranged at two ends of the roller, and sliders which are slidably connected with the corresponding stroke rods are mounted on bearing seats of the support bearings.

5. An automatic cloth printing apparatus according to claim 4, wherein the roller device further comprises a lifting drive device having a power output part fixedly connected with the slider.

6. An automatic cloth printing apparatus according to claim 5, wherein the lifting drive means is a pneumatic drive means or an electric drive means or a hydraulic drive means.

7. An automatic cloth printing apparatus according to any one of claims 1 to 6, wherein said horizontal drive means comprises:

a motor mounted on the frame;

and the transmission mechanism is connected with an output shaft of the motor and is provided with a power output element fixedly connected with the horizontal rod.

8. An automatic cloth printing apparatus according to claim 7, wherein the transmission mechanism comprises:

the power input element of the first transmission assembly is connected with the output shaft of the motor;

and the power input element of the second transmission assembly is connected with the power output element of the first transmission assembly, and the power output element of the second transmission assembly is fixedly connected with the horizontal rod.

9. An automatic cloth printing apparatus according to claim 8, wherein the first transmission assembly is a gear transmission assembly or a sprocket transmission assembly or a pulley transmission assembly, and the second transmission assembly is a gear transmission assembly or a sprocket transmission assembly or a pulley transmission assembly.

10. An automatic cloth printing apparatus according to claim 9, wherein the first drive assembly is a sprocket drive assembly and the second drive assembly is a sprocket drive assembly.

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