CN112281450A - Automatic marking and cutting machine - Google Patents

Abstract

The automatic marking and cutting machine comprises a feeding platform, wherein the feeding platform is sequentially provided with a feeding device, a first cloth pulling device, a limiting device, a marking device, a second cloth pulling device and a cutter device; the second spreading device comprises a driving device, a transmission mechanism and a roller spreading assembly which are sequentially connected, the driving device comprises a power unit, a memory unit and a calculating unit which are sequentially and electrically connected, the memory unit comprises a power size sensor, a cloth length sensor and a memory which is respectively and electrically connected with the power size sensor and the cloth length sensor, the calculating unit can deduce the mapping relation between power and length through the power size and the cloth length stored in the memory, and then the marking and cutting positions are determined. The invention can efficiently determine the marking and cutting positions through the power magnitude and the cloth length stored by the memory.

Description

Automatic marking and cutting machine

Technical Field

The invention relates to the technical field of sewing devices, in particular to an automatic marking and cutting machine.

Background

The shearing and marking of the surrounding strips on the side faces of the mattress are an important step before the mattress is manufactured, the manual measurement and the shearing are mainly used in the conventional processing mode, the shearing is carried out after the length of the surrounding strips required by the mattress is required to be measured, and the positions of handles, trademarks, air holes and the like required on the surrounding strips are marked after the manual measurement. The manual marking mode has the defects of poor precision, low efficiency, irregular cut, low stability and the like, and can be operated by professional personnel.

Disclosure of Invention

The invention mainly aims to provide a high-efficiency automatic marking and cutting machine which can determine different marking and cutting positions by recording the power and the length of cloth in order to overcome the defects and shortcomings.

In order to achieve the purpose, the invention adopts the following specific technical scheme:

the automatic marking and cutting machine comprises a feeding platform, wherein the feeding platform is sequentially provided with a discharging device, a first cloth pulling device for providing the supply and tension force of cloth, a limiting device for buffering feeding, a marking device, a second cloth pulling device and a cutter device along the feeding direction; the second granny rag device is including drive arrangement, drive mechanism and the roller granny rag subassembly that connects gradually, drive arrangement include electric connection's power pack, memory unit in proper order and respectively with beat mark device and cutters electric connection's computational unit, memory unit includes power size sensor, cloth length sensor and respectively with power size sensor, cloth length sensor electric connection's memory, the power size and the cloth length of storing through the memory, the computational unit can deduce the mapping relation of power and length, and then confirms to beat the position of beating mark and cutting off.

The power size sensor, the cloth length sensor, the memory and the logic operation controller used by the calculation unit are all conventional electronic devices, such as a Taida ECMA-CX0604FS servo motor and a calculation unit built in the motor. The position of the cloth length sensor is not limited, and the length of the passing cloth can be detected, for example, the sensor is arranged on the feeding path in a light sensing manner.

Preferably, the second spreading device further comprises a mounting structure, and the mounting structure comprises a mounting side plate and a coating shell; the driving device and the roll shaft cloth pulling assembly are connected with the installation side plate. Through setting up curb plate mounting structure mode, can improve holistic structural strength, have mounting hole, location structure on the curb plate simultaneously, realization that can be better is installed fast.

Preferably, the roller spreading component comprises at least one pair of spreading roller shafts arranged up and down, and each spreading roller shaft comprises a spreading roller shaft body and connecting parts which are arranged at two ends of the spreading roller shaft body and connected with the installation side plates.

Preferably, the connecting part comprises a roller shaft end shaft penetrating through the installation side plate, the driving device comprises a driving body, one end of the driving body is provided with a driving end shaft penetrating through the installation side plate, and the roller shaft end shaft is connected with the driving end shaft through a transmission mechanism.

Preferably, the transmission mechanism comprises a transmission gear assembly or a timing belt assembly.

Preferably, a single-stage planetary reducer is arranged between the driving device and the transmission mechanism. The single-stage planetary reducer is arranged to prevent the rotating speed of the driving device from being too high, and a multi-stage buffering transmission mode is arranged to stabilize the output of power.

Preferably, the granny rag roller shaft body includes pivot and the granny rag ring body that cup joints and sets up at interval with the pivot. The purpose of arranging a plurality of granny rag rings body at interval is in order to increase the clamping-force of pressing from both sides tight cloth, under the condition of the same pressure between the granny rag roller axis body, the clamping-force of the structure that area of contact is little to the cloth is bigger.

Preferably, the cutter device comprises a cutter mounting frame body, and the cutter mounting frame body is provided with a cutter assembly and a cutter driving device connected with the cutter assembly.

Preferably, the cutter assembly comprises a cutter sleeve seat connected with the feeding platform and a movable cutter matched with the cutter sleeve seat, the movable cutter is connected with a cutter driving device, and the cutter driving device comprises an air cylinder.

Preferably, the movable cutter comprises a movable cutter body including a blade inclined in a transverse direction. The inclined cutting edge is more beneficial to cutting, the cutting edge at the cutting position is flat, and the quality is high.

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

the invention can deduce the mapping relation between the power and the length by processing the data in the computing unit through the power and the length of the cloth stored in the memory, namely how much power is used on the device, the length of the cloth conveyed after passing through the buffering limiting device, and then the marking and cutting positions are determined through the setting of parameters of the marking device and the cutter device.

The invention will be further described with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic view of the overall structure in the preferred embodiment of the present invention.

Fig. 2 is a schematic view of an exploded structure of a second spreading device in the preferred embodiment of the present invention.

Fig. 3 is a schematic structural view of a second cloth spreading device in the preferred embodiment of the present invention.

Fig. 4 is a schematic diagram of a control circuit structure in the preferred embodiment of the present invention.

Fig. 5 is a schematic view of a cutter device according to a preferred embodiment of the present invention.

Description of reference numerals:

100 feeding platforms,

10 material placing devices, 20 first cloth pulling devices, 30 limiting devices, 40 marking devices,

50 second cloth-pulling device, 51 driving device, 511 power unit, 512 memory unit, 5121 power size sensor, 5122 cloth length sensor, 5123 memory, 513 calculating unit, 514 single-stage planetary reducer, 52 transmission mechanism, 53 roller cloth-pulling assembly, 531 cloth-pulling roller shaft, 5311 cloth-pulling roller shaft body, 53111 pivot, 53112 cloth-pulling ring body, 5312 connecting part, 54 mounting structure, 541 mounting side plate, 542 coating shell,

60 cutters, 61 cutters mounting rack, 62 cutters, 621 cutters sleeve seat, 622 movable cutter, 6221 movable cutter body, 6222 blade, 63 cutters driving device.

Detailed Description

The present invention is further explained and illustrated by the following embodiments, which should be understood to make the technical solution of the present invention clearer and easier to understand, and not to limit the scope of the claims.

As shown in fig. 1 to 4, the automatic marking and cutting machine of the present invention comprises a feeding platform 100, wherein the feeding platform 100 is sequentially provided with a feeding device 10, a first cloth pulling device 20 for providing a cloth feeding and tensioning force, a limiting device 30 for buffering the feeding, a marking device 40, a second cloth pulling device 50, and a cutter device 60 along a feeding direction; the second cloth pulling device 50 comprises a driving device 51, a transmission mechanism 52 and a roller cloth pulling assembly 53 which are sequentially connected, the driving device 51 comprises a power unit 511, a memory unit 512 and a calculation unit 513, the power unit 511, the memory unit 512 and the calculation unit 513 are sequentially and electrically connected with the marking device 40 and the cutter device 60, the memory unit 512 comprises a power size sensor 5121, a cloth length sensor 5122 and a memory 5123, the power size and the cloth length are respectively and electrically connected with the power size sensor 5121 and the cloth length sensor 5122, and the calculation unit 513 can deduce the mapping relation between the power and the length through the power size and the cloth length stored in the memory 5123, so that the marking and cutting positions can be determined.

In a preferred embodiment, the second tarpaulin device 50 further comprises a mounting structure 54, the mounting structure 54 comprising a mounting side panel 541 and a covering casing 542; the drive device 51 and the roller tarpaulin assembly 53 are connected to the mounting side plate 541. In a preferred embodiment, the roller blind assembly 53 includes at least one pair of blind rollers 531 disposed up and down, and the blind rollers 531 include blind roller bodies 5311 and coupling portions provided at both ends of the blind roller bodies 5311 to be coupled to the mounting side plates 541. In a preferred embodiment, the connecting portion includes a roller end shaft penetrating the mounting side plate 541, the driving device 51 includes a driving body, one end of the driving body is provided with a driving end shaft penetrating the mounting side plate 541, and the roller end shaft and the driving end shaft are connected through a transmission mechanism 52. In a preferred embodiment, the tabbed roller body 5311 includes a pivot 53111 and a tabbed ring body 53112 that is nested and spaced from the pivot 53111.

In a preferred embodiment, the drive mechanism 52 comprises a drive gear assembly or a timing belt assembly.

In the preferred embodiment, a single planetary reducer 514 is provided between the drive unit 51 and the transmission 52.

As shown in fig. 5, in a preferred embodiment, the cutter device 60 includes a cutter mounting frame body 61, and the cutter mounting frame body 61 is provided with a cutter assembly 62 and a cutter driving device 63 connected to the cutter assembly 62. In a preferred embodiment, the cutter assembly 62 includes a cutter sleeve seat 621 connected to the feeding platform, and a movable cutter 622 engaged with the cutter sleeve seat 621, the movable cutter 622 is connected to the cutter driving device 63, and the cutter driving device 63 includes an air cylinder. In a preferred embodiment, the movable cutter 622 includes a movable cutter body 6221, and the movable cutter body 6221 includes a blade 6222 inclined in the lateral direction.

The working mode of the invention is as follows:

the cloth passes through the feeding device 10 on the feeding platform 100, the first cloth pulling device 20 used for providing the supply and tension force of the cloth, the limiting device 30 used for buffering the feeding, the marking device 40, the second cloth pulling device 50 and the cutter device 60 in sequence, and at the moment, the marking device 40 and the cutter device 60 do not operate. Firstly, the first cloth spreading device 20 tensions the cloth, and the buffering limiting device is provided with a plurality of sensors to detect the movement of the cloth and play a role in buffering the advance of the cloth. Then, the data stored in the memory 5123 and the length of the cloth are processed in the computing unit 513 to derive the mapping relationship between the power and the length, that is, how much power is used in the device, the length of the cloth conveyed after passing through the buffering limiting device, and the marking and cutting positions are determined by setting the parameters of the marking device 40 and the cutter device 60. Finally, with these determined data, the marking device 40, as well as the cutter device 60, perform the marking and cutting action.

While the present invention has been described by way of examples, and not by way of limitation, other variations of the disclosed embodiments, as would be readily apparent to one of skill in the art, are intended to be within the scope of the present invention, as defined by the claims.

Claims (10)

1. An automatic marking and cutting machine is characterized in that: the cloth feeding device comprises a feeding platform (100), wherein the feeding platform (100) is sequentially provided with a feeding device (10), a first cloth pulling device (20) for providing the supply and tensioning force of cloth, a limiting device (30) for buffering feeding, a marking device (40), a second cloth pulling device (50) and a cutter device (60) along the feeding direction;

the second cloth pulling device (50) comprises a driving device (51), a transmission mechanism (52) and a roller cloth pulling assembly (53) which are sequentially connected, the driving device (51) comprises a power unit (511), a memory unit (512) and a calculating unit (513) which are electrically connected with the marking device (40) and the cutter device (60) respectively, the memory unit (512) comprises a power size sensor (5121), a cloth length sensor (5122) and a memory (5123) which is electrically connected with the power size sensor (5121) and the cloth length sensor (5122) respectively, the calculating unit (513) can deduce the mapping relation between power and length through the power size and the cloth length stored in the memory (5123), and then the marking and cutting positions are determined.

2. The automatic marking and cutting machine according to claim 1, characterized in that: the second cloth pulling device (50) further comprises a mounting structure (54), wherein the mounting structure (54) comprises a mounting side plate (541) and a coating shell (542); the driving device (51) and the roller shaft cloth pulling assembly (53) are connected with the installation side plate (541).

3. The automatic marking and cutting machine according to claim 2, characterized in that: the roller spreading assembly (53) comprises at least one pair of spreading roller shafts (531) which are arranged up and down, wherein each spreading roller shaft (531) comprises a spreading roller shaft body (5311) and connecting parts which are arranged at two ends of each spreading roller shaft body (5311) and connected with the mounting side plates (541).

4. The automatic marking and cutting machine according to claim 3, characterized in that: the connecting portion are including wearing to locate the roller end axle of installation curb plate (541), drive arrangement (51) are including the drive body, the one end of drive body is equipped with the drive end axle that passes installation curb plate (541), the roller end axle passes through drive mechanism (52) with the drive end axle and is connected.

5. The automatic marking and cutting machine according to claim 1, characterized in that: the transmission mechanism (52) comprises a transmission gear assembly or a synchronous belt assembly.

6. The automatic marking and cutting machine according to claim 1, characterized in that: a single-stage planetary reducer (514) is arranged between the driving device (51) and the transmission mechanism (52).

7. Automatic marking and cutting machine according to claim 3 or 4, characterized in that: the cloth pulling roll shaft body (5311) comprises a pivot (53111) and cloth pulling ring bodies (53112) which are sleeved with the pivot (53111) and are arranged at intervals.

8. The automatic marking and cutting machine according to claim 1, characterized in that: the cutter device (60) comprises a cutter mounting frame body (61), wherein the cutter mounting frame body (61) is provided with a cutter assembly (62) and a cutter driving device (63) connected with the cutter assembly (62).

9. The automatic marking and cutting machine according to claim 1, characterized in that: the cutting knife assembly (62) comprises a cutting knife sleeve seat (621) connected with the feeding platform and a movable cutting knife (622) matched with the cutting knife sleeve seat (621), the movable cutting knife (622) is connected with a cutting knife driving device (63), and the cutting knife driving device (63) comprises an air cylinder.

10. The automatic marking and cutting machine according to claim 9, characterized in that: the movable cutter (622) comprises a movable cutter body (6221), and the movable cutter body (6221) comprises a blade (6222) inclined in the transverse direction.

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