CN112252015B - Apron is with tailorring device - Google Patents

Abstract

The invention relates to a cutting device, in particular to a cutting device for an apron. The invention aims to provide a cutting device for an apron, which can cut cloth quickly and cannot damage the cloth. A cutting device for apron comprises: a support; the power assembly is arranged on the bracket and provides power to work through the motor; the control assembly is arranged on the bracket and is controlled in a sliding mode; and the cutting assembly is arranged on the support and used for cutting cloth in a sliding mode. According to the apron manufacturing device, the effect of quickly cutting out the cloth required by apron manufacturing is achieved through the matching of the power assembly, the control assembly and the cutting assembly; according to the cloth cutting machine, the pressing assembly is used, so that when the cloth is cut, the cloth can be automatically fixed, the cloth cutting quality is improved, and meanwhile, the equipment is safer to use; according to the invention, the cut cloth can be automatically wound up through the waste winding assembly, so that the equipment is more convenient to use.

Description

Apron is with tailorring device

Technical Field

The invention relates to a cutting device, in particular to a cutting device for an apron.

Background

The apron is used for blocking dirty things to dirty clothes when cooking, and is called as 'list' in Tibetan language. When the apron is manufactured, cloth needs to be cut.

At present, when the cloth for manufacturing the apron is cut, firstly, the cloth needs to slide out of the cut shape on the surface of the cloth by using a pen, and then the cloth is cut by using a pair of scissors.

Disclosure of Invention

In order to overcome the defects that the prior apron cloth cutting mode needs to be careful and easy to damage the cloth, the invention aims to provide the cutting device for the apron, which can quickly cut the cloth and cannot damage the cloth.

The technical scheme is as follows: a cutting device for apron comprises: a support; the power assembly is arranged on the bracket and provides power to work through the motor; the control assembly is arranged on the bracket and is controlled in a sliding mode; and the cutting assembly is arranged on the support and used for cutting cloth in a sliding mode.

As an improvement of the scheme, the power assembly comprises: the speed reducing motor is arranged on the bracket; and the sector gear is slidably mounted on the speed reducing motor.

As an improvement of the scheme, the control assembly comprises: the first concave block is arranged on the bracket in a sliding manner and is connected with the sector gear in a sliding manner; the first push rod is arranged on the first concave block and is connected with the bracket in a sliding manner; the stop block is arranged on the bracket in a sliding manner; the wedge block is arranged on the stop block; the first spring is arranged between the stop block and the bracket; and the second spring is arranged between the first push rod and the bracket.

As an improvement of the scheme, the cutting assembly comprises: the sliding frame is arranged on the bracket in a sliding manner; the cutter is arranged on the sliding frame; the first common gear is rotatably arranged on the bracket; the rotating shaft is rotatably arranged on the bracket; the second transmission belt pulley set is arranged between the rotating shaft and the bracket; the first transmission belt pulley set is arranged between the second transmission belt pulley set and the first common gear; the cam is arranged on the rotating shaft, and the third spring is arranged between the sliding frame and the bracket.

As an improvement of the above scheme, the method further comprises the following steps: the pressing assembly is arranged on the sliding frame; compress tightly the subassembly including: the support rod is arranged on the sliding frame; the telescopic rod is rotatably arranged on the support rod; the second concave block is arranged at the end part of the telescopic rod; the swing rod is arranged between the second concave block and the support rod; the pressing roller is arranged between the end parts of the swing rods; and the fourth spring is arranged between the second concave block and the telescopic rod.

As an improvement of the above scheme, the method further comprises the following steps: the waste material winding assembly is arranged on the bracket; the waste winding assembly comprises: the second common gear is rotatably arranged on the bracket and is matched with the sector gear; the first connecting plate is arranged on the bracket; a rotary drum rotatably mounted on the first connection plate; the fourth transmission belt pulley set is arranged between the rotary drum and the bracket; and the third transmission pulley set is arranged between the fourth transmission pulley set and the second common gear.

As an improvement of the above scheme, the method further comprises the following steps: the collecting assembly is arranged in the bracket; the collection assembly includes: at least two connecting rods are arranged in the bracket; the second connecting plate is slidably arranged between the connecting rods; the fifth spring is arranged between the second connecting plate and the bracket; the collecting frame is arranged on the second connecting plate; the ejector rod is arranged on the collecting frame; the pressing rod is arranged on the second connecting plate; and the second push rod is rotatably arranged on the support, one end of the second push rod is rotatably connected with the first push rod, and the other end of the second push rod is matched with the ejector rod.

1. According to the apron manufacturing device, the effect of quickly cutting out the cloth required by apron manufacturing is achieved through the matching of the power assembly, the control assembly and the cutting assembly;

2. according to the cloth cutting machine, the pressing assembly is used, so that when the cloth is cut, the cloth can be automatically fixed, the cloth cutting quality is improved, and meanwhile, the equipment is safer to use;

3. according to the invention, the cut cloth can be automatically wound up through the waste winding assembly, so that the equipment is more convenient to use;

4. according to the cloth cutting machine, the control assembly can be automatically adjusted through the collecting assembly, so that the equipment can continuously work, and the cloth cutting efficiency is improved.

Drawings

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

Fig. 2 is a schematic perspective view of the power module of the present invention.

Fig. 3 is a schematic perspective view of the control assembly of the present invention.

Fig. 4 is a schematic perspective view of the cutting assembly of the present invention.

Fig. 5 is a schematic perspective view of the compressing assembly of the present invention.

Figure 6 is a perspective view of the scrap winding assembly of the present invention.

Fig. 7 is a perspective view of the collecting assembly of the present invention.

Number designation in the figures: 1. the cutting device comprises a bracket, 2, a power assembly, 21, a speed reducing motor, 22, a sector gear, 3, a control assembly, 31, a first concave block, 32, a first push rod, 33, a stop block, 34, a wedge block, 35, a first spring, 36, a second spring, 4, a cutting assembly, 41, a sliding frame, 42, a cutter, 43, a first common gear, 44, a first transmission belt pulley set, 45, a second transmission belt pulley set, 46, a rotating shaft, 47, a cam, 48, a third spring, 5, a pressing assembly, 51, a support rod, 52, a telescopic rod, 53, a swinging rod, 54, a second concave block, 55, a compression roller, 56, a fourth spring, 6, a waste winding assembly, 61, a second common gear, 62, a third transmission belt pulley set, 63, a fourth transmission belt pulley set, 64, a first connecting plate, 65, a rotating drum, 7, a collecting assembly, 71, a connecting rod, 72, a fifth spring, 73, a cutting assembly, a sliding frame, a cutter, 43, a first common gear, a second common gear, a swinging rod, a second concave block, a third transmission belt pulley set, a third spring, a fourth spring, a third spring, a fourth, Second connecting plate, 74, collection frame, 75, ejector pin, 76, depression bar, 77, second push rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

A cutting device for an apron is shown in figures 1-4 and comprises a support 1, a power assembly 2, a control assembly 3 and a cutting assembly 4, wherein the power assembly 2 which provides power to work through a motor is installed in the middle of the front side of the support 1, the control assembly 3 which is controlled in a sliding mode is installed above the middle of the front side of the support 1, and the cutting assembly 4 which is used for cutting cloth in the sliding mode is arranged between the front side of the support 1 and the top of the support.

When needs use the device to carry out tailorring of apron cloth, at first place the cloth at support 1 top, control power component 2 begins work after that, power component 2 drives and tailors subassembly 4 and tailor the cloth, at the in-process of tailorring the cloth, need the fixed cloth of workman, this piece cloth is tailor and finishes the back, cut out subassembly 4 and power component 2 through the disconnection of control component 3 and be connected, then place the cloth again, will tailor subassembly 4 and power component 2 through control component 3 after that, then continue to carry out tailorring of cloth, after the cloth is tailor and finishes, control power component 2 stops work.

The power assembly 2 comprises a speed reducing motor 21 and a sector gear 22, the middle part of the front side of the bracket 1 is fixedly connected with the speed reducing motor 21 through a bolt, and the sector gear 22 is arranged on an output shaft of the front side of the speed reducing motor 21 in a sliding mode.

When needing to tailor the cloth, control gear motor 21 rotates, and then drives sector gear 22 and rotate, and sector gear 22 triggers when rotating the left side and tailors subassembly 4 and begin work, tailors the cloth, tailors at the cloth and finishes the back, control gear motor 21 stop work.

Control assembly 3 is including first concave block 31, first push rod 32, dog 33, wedge 34, first spring 35 and second spring 36, 1 front side middle part below of support is slidingtype to be equipped with first concave block 31, first concave block 31 and sector gear 22 sliding connection, first concave block 31 top has first push rod 32 through the screw rigid coupling, first push rod 32 and 1 sliding connection of support, be connected with second spring 36 between first push rod 32 and the support 1, 1 front side middle part of support is slidingtype to be equipped with dog 33, dog 33 is in first push rod 32 front side, be connected with first spring 35 between dog 33 right side and the 1 front side of support, the welding of dog 33 top has wedge 34.

When the connection between the cutting assembly 4 and the power assembly 2 needs to be disconnected, the wedge block 34 is pushed to move rightwards, the stop block 33 is driven to move rightwards, the first spring 35 is compressed, when the stop block 33 is away from the front side of the first push rod 32, the second spring 36 in a compressed state resets at the moment, the first push rod 32 is driven to move forwards, the first concave block 31 is driven to move forwards, the sector gear 22 moves forwards and is separated from the cutting assembly 4, the sector gear 22 cannot drive the cutting assembly 4 to work, when the cutting assembly 4 needs to be connected with the power assembly 2, the sector gear 22 is driven to reset backwards through the first concave block 31, the second spring 36 is compressed again, the first spring 35 resets at the moment, the stop block 33 is driven to move leftwards to reset, the first push rod 32 is blocked, and the sector gear 22 is fixed. Therefore, the power of the speed reducing motor 21 can be cut off more quickly, and the equipment is more convenient to use.

The cutting assembly 4 comprises a sliding frame 41, a cutter 42, a first common gear 43, a first transmission belt pulley group 44, a second transmission belt pulley group 45, a rotating shaft 46 and a cam 47, sliding type is equipped with carriage 41 in the middle of support 1 top, the welding of carriage 41 bottom has cutter 42, be connected with third spring 48 between carriage 41 bottom and the support 1 top, the middle rotary type in support 1 top is equipped with axis of rotation 46, axis of rotation 46 is in carriage 41 top, the key connection has cam 47 on the axis of rotation 46, cam 47 and carriage 41 cooperation, be connected with second driving pulley group 45 between axis of rotation 46 front end and the support 1 front side lower part left, support 1 front side left part below rotary type is equipped with first common gear 43, first common gear 43 and sector gear 22 cooperation, first common gear 43 is on second driving pulley group 45 right side, be connected with first driving pulley group 44 between second driving pulley group 45 front side lower part and the first common gear 43 front side.

When the sector gear 22 rotates to be meshed with the first common gear 43, the first common gear 43 is driven to rotate, the rotating shaft 46 is driven to rotate through the first transmission belt pulley group 44 and the second transmission belt pulley group 45, the cam 47 is further driven to rotate, when the cam 47 rotates to be in contact with the sliding frame 41, the sliding frame 41 is driven to move downwards, the third spring 48 is compressed, the sliding frame 41 moves downwards to drive the cutter 42 to move downwards, the cloth is cut, when the sector gear 22 rotates to be separated from the first common gear 43, the cloth cutting is finished, the third spring 48 resets at the moment, the sliding frame 41 is driven to move upwards to reset, and the cam 47 resets. Therefore, the cloth required for manufacturing the apron can be cut out quickly by the cutter 42 with a special shape.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 5, fig. 6 and fig. 7, the pressing device further comprises a pressing assembly 5, the pressing assembly 5 is installed on the left side and the right side of the sliding frame 41, the pressing assembly 5 comprises a support rod 51, an expansion rod 52, a swing rod 53, a second concave block 54, a pressing roller 55 and a fourth spring 56, the support rod 51 is welded on the left side and the right side of the sliding frame 41, the expansion rod 52 is rotatably arranged on the front side and the rear side of the outer side of the support rod 51 on the left side and the outer side of the support rod 51 on the left side, the second concave block 54 is welded on the bottom end of the expansion rod 52, the fourth spring 56 is connected between the second concave block 54 and the top of the expansion rod 52, the swing rod 53 is rotatably arranged between the bottom of the second concave block 54 and the support rod 51, and the pressing roller 55 is rotatably arranged between the bottom of the left swing rod 53 and the right swing rod 53.

When the sliding frame 41 moves downwards, the support rod 51 is driven to move downwards, when the pressing roller 55 moves downwards to be in contact with the cloth, the pressing roller 55 moves outwards, the telescopic rod 52 retracts, the fourth spring 56 compresses, the pressing roller 55 moves outwards to fix the cloth, and when the sliding frame 41 moves upwards to reset, the support rod 51 and the device on the support rod are driven to reset. So, when tailorring the cloth, can be automatic fixed with the cloth, improve the quality that the cloth was tailor, equipment use is safer simultaneously.

Still including waste material winding assembly 6, waste material winding assembly 6 is installed to 1 right part of support, waste material winding assembly 6 is including second common gear 61, third driving pulley group 62, fourth driving pulley group 63, first connecting plate 64 and rotary drum 65, 1 front side right part below rotary type of support is equipped with second common gear 61, second common gear 61 cooperates with sector gear 22, first connecting plate 64 is installed in 1 top right side the place ahead of support, first connecting plate 64 rear side rotary type is equipped with rotary drum 65, be connected with fourth driving pulley group 63 between rotary drum 65 front side and the 1 front side right part below of support, be connected with third driving pulley group 62 between fourth driving pulley group 63 front side lower part and the second common gear 61 front side.

Before the cloth is cut, the right side of the cloth is fixed on the rotary drum 65, when the sector gear 22 rotates to be meshed with the second common gear 61, the second common gear 61 is driven to rotate, and then the rotary drum 65 is driven to rotate through the third transmission belt pulley group 62 and the fourth transmission belt pulley group 63, so that the rotary drum 65 winds up the cut cloth. Therefore, the cloth after cutting can be automatically wound, and the equipment is more convenient to use.

Still including collecting assembly 7, collecting assembly 7 is installed at the top in the support 1, collecting assembly 7 is including connecting rod 71, fifth spring 72, second connecting plate 73, collect frame 74, ejector pin 75, depression bar 76 and second push rod 77, the welding of support 1 interior top has four connecting rods 71, slidingtype is equipped with second connecting plate 73 between the connecting rod 71, be connected with fifth spring 72 between second connecting plate 73 and the support 1 interior top, second connecting plate 73 top has collection frame 74 through the bolt rigid coupling, the welding of collection frame 74 front side middle part has ejector pin 75, the welding of second connecting plate 73 front side middle part has depression bar 76, support 1 front side middle part rotary type is equipped with second push rod 77, second push rod 77 bottom and first push rod 32 rotate to be connected, second push rod 77 top and the cooperation of ejector pin 75.

After the cloth is cut, the cut cloth falls into the collecting frame 74, when the cloth in the collecting frame 74 increases, the weight in the collecting frame 74 becomes heavy, the collecting frame 74 and the second connecting plate 73 move downwards, the second connecting plate 73 drives the pressing rod 76 to move downwards, and further drives the wedge block 34 to move towards the right side, so that the stopper 33 moves towards the right side, when the stopper 33 leaves the front side of the first push rod 32, the cloth in the collecting frame 74 reaches a required amount, at the moment, the sector gear 22 is separated from the first common gear 43, at the moment, the cloth in the collecting frame 74 is taken out, the collecting frame 74 moves upwards and resets, at the moment, the ejector rod 75 pushes the upper part of the second push rod 77 to move towards the front side, the lower part of the second push rod 77 is driven to move backwards, so that the first push rod 32 resets, and the stopper 33 also resets towards the left at the moment. So, regulation and control subassembly 3 that can be automatic for equipment can work in succession for the efficiency that the cloth was tailor.

Although the present invention has been described in detail with reference to the above embodiments, it will be apparent to those skilled in the art from this disclosure that various changes or modifications can be made herein without departing from the principles and spirit of the invention as defined by the appended claims. Therefore, the detailed description of the embodiments of the present disclosure is to be construed as merely illustrative, and not limitative of the remainder of the disclosure, but rather to limit the scope of the disclosure to the full extent set forth in the appended claims.

Claims (1)

1. The utility model provides an apron is with tailorring device, characterized by, including:

a support (1);

the power assembly (2) is arranged on the bracket (1) and provides power to work through a motor;

the control assembly (3) is arranged on the bracket (1) and is controlled in a sliding mode;

the cutting assembly (4) is arranged on the support (1) and used for cutting cloth in a sliding mode;

the power assembly (2) comprises:

the speed reducing motor (21) is arranged on the bracket (1);

a sector gear (22) slidably mounted on the reduction motor (21);

the control assembly (3) comprises:

the first concave block (31) is arranged on the bracket (1) in a sliding way, and the first concave block (31) is connected with the sector gear (22) in a sliding way;

the first push rod (32) is arranged on the first concave block (31), and the first push rod (32) is connected with the bracket (1) in a sliding manner;

the stop block (33) is arranged on the bracket (1) in a sliding manner;

a wedge block (34) mounted on the stopper (33);

the first spring (35) is arranged between the stop block (33) and the bracket (1);

a second spring (36) mounted between the first push rod (32) and the bracket (1);

the cutting assembly (4) comprises:

a sliding frame (41) which is arranged on the bracket (1) in a sliding way;

a cutter (42) mounted on the carriage (41);

the first common gear (43) is rotatably arranged on the bracket (1);

a rotating shaft (46) rotatably mounted on the bracket (1);

the second transmission belt pulley group (45) is arranged between the rotating shaft (46) and the bracket (1);

a first transmission pulley set (44) installed between the second transmission pulley set (45) and the first common gear (43);

a cam (47) mounted on the rotating shaft (46);

a third spring (48) mounted between the carriage (41) and the bracket (1);

a pressing assembly (5) mounted on the sliding frame (41);

the pressing component (5) comprises:

a strut (51) mounted on the carriage (41);

the telescopic rod (52) is rotatably arranged on the support rod (51);

the second concave block (54) is arranged at the end part of the telescopic rod (52);

the swing rod (53) is arranged between the second concave block (54) and the support rod (51);

the pressing roller (55) is installed between the end parts of the swing rods (53);

a fourth spring (56) installed between the second concave block (54) and the telescopic rod (52);

also includes:

the waste material winding assembly (6) is arranged on the bracket (1);

the scrap-winding assembly (6) comprises:

the second common gear (61) is rotatably arranged on the bracket (1), and the second common gear (61) is matched with the sector gear (22);

a first connecting plate (64) mounted on the bracket (1);

a drum (65) rotatably mounted on the first link plate (64);

a fourth transmission belt pulley group (63) arranged between the rotary drum (65) and the bracket (1);

a third transmission pulley set (62) installed between the fourth transmission pulley set (63) and the second common gear (61);

the collecting component (7) is arranged in the bracket (1);

the collecting assembly (7) comprises:

at least two connecting rods (71), wherein the connecting rods (71) are arranged in the bracket (1);

a second connecting plate (73) slidably mounted between the links (71);

the fifth spring (72) is arranged between the second connecting plate (73) and the bracket (1);

a collecting frame (74) mounted on the second connecting plate (73);

a push rod (75) mounted on the collection frame (74);

a press rod (76) mounted on the second connecting plate (73);

and the second push rod (77) is rotatably installed on the support (1), one end of the second push rod (77) is rotatably connected with the first push rod (32), and the other end of the second push rod (77) is matched with the ejector rod (75).

Images