CN215574104U - Non-woven fabrics detects appearance spare making devices - Google Patents

Abstract

The utility model belongs to the field of non-woven fabric processing equipment, and particularly relates to a non-woven fabric detection sample piece manufacturing device which is provided with a cutter assembly and a seat stand, and is characterized in that the seat stand consists of a base and a sliding rod, one end of the sliding rod is vertically fixed on the base, the sliding rod is provided with a first limiting block, a second limiting hole and an installation part from top to bottom, the right side of the installation part is provided with a gravity traction part, a balancing weight is fixed on the gravity traction part, and the gravity traction part and the cutter assembly are in transmission through a pulley; the cutter assembly is fixed on the left side of the mounting part and consists of a cutter main body and a rebound part connected through a second spring, when the second spring is free from other external force, the lower end of the rebound part is lower than the lower end of the cutting edge, the cutter main body is provided with a movable handle, and the movable handle and the spring limiting pin are connected through a first pull rope.

Description

Non-woven fabrics detects appearance spare making devices

Technical Field

The utility model belongs to the field of non-woven fabric processing equipment, and particularly relates to a non-woven fabric detection sample piece manufacturing device.

Background

The non-woven fabrics can be used frequently in daily life, and some use scenes have special requirements on the tensile property of the non-woven fabrics, so that the non-woven fabrics need to be subjected to tensile test after production is completed, and therefore, a detection sample needs to be manufactured.

At present, the non-woven fabrics for the detection test are generally cut manually by scissors, and the cutting efficiency is low, the cut is irregular, and waste is easily caused; or the cloth cutting machine is used for cutting, the cutting mode is not specially used for cutting a detection sample, the use is inconvenient, and the efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present invention discloses a device for manufacturing a non-woven fabric test sample, which is implemented by the following technical scheme.

A non-woven fabric detection sample piece manufacturing device is provided with a cutter assembly and a seat stand, and is characterized in that the seat stand is composed of a base and a sliding rod, one end of the sliding rod is vertically fixed on the base, a cutter groove is formed in the upper layer of the base, a first limiting block is fixedly arranged on the upper side of the sliding rod, a second limiting hole is formed in the sliding rod below the first limiting block, an installation part capable of sliding up and down along the sliding rod is arranged on the sliding rod below the first limiting block, a coaxial first limiting hole is respectively arranged at the front end and the rear end of the installation part, the diameter of the first limiting hole is the same as that of the second limiting hole, a gravity traction part is arranged on the right side of the installation part, a balancing weight is fixed on the gravity traction part, and the gravity traction part and the cutter assembly are in transmission through a pulley;

the cutter component is fixed on the left side of the mounting component and consists of a cutter main body, the cutter main body is provided with a downward opening and is internally provided with a containing cavity, the bottom end of the side wall of the cutter main body is provided with a cutting edge, the cutting edge corresponds to the cutter groove, the upper wall of the containing cavity is connected with a second spring, the lower end of the second spring is connected with a rebound component, when the second spring is free from other external force, the lower end of the rebound component is lower than the lower end of the cutting edge, two fixed handles are respectively arranged at two sides of the cutter main body, one side of each fixed handle close to the sliding rod is connected with a movable handle through the first spring, the folding line of one side of the cutter main body close to the sliding rod is provided with a supporting piece which is provided with a sliding chute, the movable handle is connected with the spring limiting pin through a first pull rope, the first pull rope is located in the sliding groove, and the mass of the balancing weight is larger than that of the cutter assembly.

The non-woven fabrics detect appearance spare making devices, its characterized in that the pulley is fixed on the litter of first stopper below, and the pulley inslot of pulley is equipped with a second stay cord, and second stay cord one end is fixed with the installation component, and the other end is fixed with the balancing weight, and when installation component and first stopper contact, balancing weight and base contactless, the spacing hole of second and first spacing hole are coaxial, first spacing downthehole spring spacer pin that is equipped with, the spring spacer pin passes through third spring coupling with the installation component.

When the non-woven fabric detection sample piece manufacturing device is used, a sample to be manufactured is flatly placed on the base, the fixed handle and the movable handle are held by two hands, the movable handle is extruded to enable the movable handle to be close to the fixed handle, the spring limiting pin is separated from the second limiting hole, the cutter assembly is moved downwards by the two hands to cut the manufactured sample, and the detection sample is formed; and the force for pressing the cutter component downwards is released, the balancing weight moves downwards to reset the cutter component, and the spring limiting pin clamps the second limiting hole.

Above-mentioned a non-woven fabrics detects appearance spare making devices, for pure manual operation, need not to use electricity, the energy saving.

A non-woven fabric detection sample piece manufacturing device is provided with a cutter assembly and a seat stand, and is characterized in that the seat stand is composed of a base and a sliding rod, one end of the sliding rod is vertically fixed on the base, a cutter groove is formed in the upper layer of the base, a first limiting block is fixedly arranged on the upper side of the sliding rod, a second limiting block is arranged at the bottom of the sliding rod, an installation part capable of sliding up and down along the sliding rod is arranged on the sliding rod below the first limiting block, a straight rack is arranged on the right side of the installation part, a straight rack hole is formed in the base below the straight rack, a servo motor is arranged on the base, and a gear meshed with the straight rack is arranged on a rotating shaft of the servo motor;

the cutter component is fixed on the left side of the mounting component and consists of a cutter body, the opening of the cutter body is downward, a containing cavity is formed inside the cutter body, the bottom end of the side wall of the cutter body is provided with a cutting edge, the cutting edge corresponds to the cutter groove, the upper wall of the containing cavity is connected with a second spring, the lower end of the second spring is connected with a rebound component, when the second spring is free from other external forces, the lower end of the rebound component is lower than the lower end of the cutting edge, two sides of the cutter body are respectively provided with a fixed handle, each fixed handle is provided with a switch, the switches are connected with the handles through third springs, the switches are electrically connected with a servo motor, when the two switches are pushed upwards, the servo motor is started to drive the mounting component to move upwards, when the two switches are pushed downwards, the servo motor is started to drive the mounting component to move downwards, and when the two switches are loosened, the switches are returned to be positive, the servo motor stops working.

The non-woven fabric detection sample piece manufacturing device is characterized in that the length of the straight rack is larger than the distance between the first limiting block and the second limiting block.

The non-woven fabric detection sample piece manufacturing device is characterized in that the first limiting block and the second limiting block are travel switches, and the servo motor stops working when the mounting part is in contact with the first limiting block or the second limiting block.

The manufacturing device of the non-woven fabric detection sample piece is characterized in that the straight rack material is medium carbon steel.

Above-mentioned a non-woven fabrics detect exemplar making devices, through servo motor control cutter unit's up-and-down motion, convenient and fast, and speed is even.

Above-mentioned a non-woven fabrics detects appearance spare making devices, during the use both hands are held fixed handle, upwards push away the switch, make cutter unit rebound certain distance, loosen the switch, will wait to make the sample keep flat on the base, push away the switch downwards and make cutter unit move down, the sample is waited to make in the cutting.

According to the utility model, the cutter assembly is controlled by two hands, and the cutter assembly cannot be cut off when any one hand is loosened, so that the two hands cannot be under the blade, and the use is safe; be equipped with the part of kick-backing in the cutter subassembly, after the sample cutting was accomplished, the sample can break away from the cutter fast automatically, improves sample preparation efficiency, and is safer during the sample simultaneously.

Therefore, the utility model has the advantages of simple structure, convenient use, safe operation, high use efficiency and energy conservation.

Drawings

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

Fig. 2 is a schematic perspective view of a seat stand according to embodiment 1 of the present invention.

Fig. 3 is a schematic perspective view of a cutter assembly according to embodiment 1 of the present invention.

Fig. 4 is a cross-sectional view of a cutter assembly according to embodiment 1 of the present invention.

Fig. 5 is a schematic perspective view of embodiment 2 of the present invention.

Fig. 6 is a schematic perspective view of a seat stand according to embodiment 2 of the present invention.

Fig. 7 is a schematic perspective view of a cutter assembly according to embodiment 2 of the present invention.

Fig. 8 is a schematic perspective view of a fixed handle 17 according to embodiment 2 of the present invention.

In the figure: 1. the cutter assembly comprises a cutter body 11, a cutter body 12, a rebound component 13, a supporting piece 14, a sliding groove 15, a movable handle 16, a first spring 17, a fixed handle 18, a second spring 19, a switch 191, a third spring 2, a seat platform 21, a sliding rod 22, a pulley 23, a first limiting block 231, a second limiting block 24, a mounting component 241, a first limiting hole 242, a straight rack 242, a second pull rope 25, a balance weight 27, a base 28, a 281, a cutter groove 282, a straight rack hole 29, a servo motor 291, a gear 3, a spring limiting pin and a first pull rope 4.

Detailed Description

Example 1

Referring to fig. 1 to 4, a non-woven fabric detection sample manufacturing device comprises a cutter assembly 1 and a seat 2, and is characterized in that the seat 2 is composed of a base 28 and a slide rod 21, one end of the slide rod 21 is vertically fixed on the base 28, a cutter groove 281 is arranged on the upper layer of the base 28, a first limiting block 23 is fixedly arranged on the upper side of the slide rod 21, a second limiting hole is formed on the slide rod 21 below the first limiting block 23, an installation part 24 capable of sliding up and down along the slide rod 21 is arranged on the slide rod 21 below the first limiting block 23, a coaxial first limiting hole 241 is respectively arranged at the front end and the rear end of the installation part 24, the diameter of the first limiting hole 241 is the same as that of the second limiting hole, a pulley 22 is fixed on the slide rod 21 below the first limiting block 23, a second pull rope 25 is arranged in the pulley groove of the pulley 22, one end of the second pull rope 25 is fixed with the installation part 24, a balancing weight 27 is fixed at the other end, when the mounting part 24 is contacted with the first limiting block 23, the balancing weight 27 is not contacted with the base 28, the second limiting hole is coaxial with the first limiting hole 241, a spring limiting pin 3 is arranged in the first limiting hole 241, and the spring limiting pin 3 is connected with the mounting part 24 through a third spring;

the cutter assembly 1 is fixed on the left side of the mounting part 24, the cutter assembly 1 is composed of a cutter main body 11, the cutter main body 11 is opened downwards, a containing cavity is formed inside, the bottom end of the side wall of the cutter main body 11 is provided with a cutting edge, the cutting edge corresponds to the cutter groove 281, the upper wall of the containing cavity is connected with a second spring 18, the lower end of the second spring 18 is connected with a rebound part 12, when the second spring 18 is not subjected to other external force, the lower end of the rebound part 12 is lower than the lower end of the cutting edge, two sides of the cutter main body 11 are respectively provided with a fixed handle 17, one side of the fixed handle 17, which is close to the sliding rod 21, is connected with a movable handle 15 through a first spring 16, a support part 13 is respectively arranged at the folding line of one side of the cutter main body 11, which is close to the sliding rod 21, a sliding groove 14 is formed on the support part 13, the movable handle 15 is connected with a spring limit pin 3 through a first pull rope 4, the first pulling rope 4 is positioned in the sliding groove 14, and the mass of the balancing weight 27 is larger than that of the cutter component 1.

When the tool assembly is used, a sample to be manufactured is flatly placed on the base 28, the fixed handle 17 and the movable handle 15 are held by two hands, the movable handle 15 is extruded to enable the movable handle 15 to approach the fixed handle 17, the spring limiting pin 3 is separated from the second limiting hole, and the tool assembly 1 is moved downwards by the two hands to cut the manufactured sample to form a detection sample; the force pressing the cutter component 1 downwards is released, the balancing weight 27 moves downwards to reset the cutter component 1, and the spring limiting pin 3 clamps the second limiting hole.

The embodiment is purely operated manually, does not need electricity, and saves energy.

Example 2

Referring to fig. 5 to 8 and fig. 4, a non-woven fabric test sample manufacturing apparatus includes a cutter assembly 1 and a base 2, it is characterized in that the seat stand 2 is composed of a base 28 and a slide rod 21, one end of the slide rod 21 is vertically fixed on the base 28, a cutter groove 281 is arranged at the upper layer of the base 28, a first limit block 23 is fixedly arranged at the upper side of the slide rod 21, a second limit block 231 is arranged at the bottom of the slide rod 21, a mounting part 24 capable of sliding up and down along the slide rod 21 is arranged on the slide rod 21 below the first limit block 23, a spur rack 242 is arranged on the right side of the mounting part 24, the length of the spur rack 242 is greater than the distance between the first stopper 23 and the second stopper 231, a spur rack hole 282 is formed on the base 28 below the spur rack 242, a servo motor 29 is arranged on the base 28, and a gear 291 meshed with the spur rack 242 is arranged on a rotating shaft of the servo motor 29;

the cutter component 1 is fixed on the left side of the mounting component 24, the cutter component 1 is composed of a cutter main body 11, the cutter main body 11 is opened downwards, a containing cavity is formed inside, the bottom end of the side wall of the cutter main body 11 is provided with a cutting edge, the cutting edge corresponds to the cutter groove 281, the upper wall of the containing cavity is connected with a second spring 18, the lower end of the second spring 18 is connected with a rebound component 12, when the second spring 18 is not subjected to other external force, the lower end of the rebound component 12 is lower than the lower end of the cutting edge, two sides of the cutter main body 11 are respectively provided with a fixed handle 17, each fixed handle 17 is provided with a switch 19, the switch 19 is connected with the handle 17 through a third spring 191, the switch 19 is electrically connected with the servo motor 29, when the two switches 19 are pushed upwards, the servo motor 29 is started to drive the mounting component 24 to move upwards, and when the two switches 19 are pushed downwards, the servo motor 29 is started, the mounting part 24 is driven to move downwards, when the two switches 19 are released, the switches 19 are aligned, the servo motor 29 stops working, the first limiting block 23 and the second limiting block 231 are travel switches, and the servo motor 29 stops working when the mounting part 24 is in contact with the first limiting block 23 or the second limiting block 231.

The device for manufacturing the non-woven fabric detection sample piece is characterized in that the straight rack 242 is made of medium carbon steel.

In the embodiment, the servo motor 29 is used for controlling the cutter assembly 1 to move up and down, so that the operation is convenient and fast, and the speed is uniform.

When the sample cutting device is used, the fixed handle 17 is held by two hands, the switch 19 is pushed upwards to enable the cutter assembly 1 to move upwards for a certain distance, the switch 19 is loosened to enable a sample to be manufactured to be horizontally placed on the base 28, and the switch 19 is pushed downwards to enable the cutter assembly 1 to move downwards to cut the sample to be manufactured.

According to the utility model, the cutter assembly 1 is controlled by two hands, and the cutter assembly 1 cannot be cut off when any one hand is loosened, so that the two hands cannot be under the blade, and the use is safe; be equipped with rebound part 12 in the cutter unit 1, after the sample cutting was accomplished, the sample can break away from the cutter fast automatically, improves sample preparation efficiency, and is safer during the sample simultaneously.

The utility model solves the problems of inconvenient use, low efficiency and unsafe cutting tools in the prior art.

The above-mentioned embodiments are merely preferred technical solutions of the present invention, and should not be construed as limiting the present invention. The protection scope of the present invention is defined by the claims, and includes equivalents of technical features of the claims. I.e., equivalent alterations and modifications within the scope hereof, are also intended to be within the scope of the utility model.

Claims (6)

1. The utility model provides a non-woven fabrics detects appearance spare making devices, has cutter unit spare (1) and seat stand (2), its characterized in that seat stand (2) comprises base (28) and litter (21), litter (21) one end vertical fixation is on base (28), a cutter groove (281) of base (28) upper strata, litter (21) upside has set firmly a first stopper (23), forms a spacing hole of second on litter (21) of first stopper (23) below, is equipped with one on litter (21) of first stopper (23) below and can follows litter (21) gliding installation component (24) from top to bottom, both ends respectively are equipped with a coaxial first spacing hole (241) around installation component (24), first spacing hole (241) are the same with the spacing hole diameter of second, installation component (24) right side is equipped with a gravity traction component, a balancing weight (27) is fixed on the gravity traction part, and the gravity traction part and the cutter assembly (1) are driven through a pulley (22);

the cutter component (1) is fixed on the left side of the mounting component (24), the cutter component (1) is composed of a cutter main body (11), the cutter main body (11) is downward in opening, a containing cavity is formed inside, the bottom end of the side wall of the cutter main body (11) is a cutting edge, the cutting edge corresponds to the cutter groove (281), the upper wall of the containing cavity is connected with a second spring (18), the lower end of the second spring (18) is connected with a rebound component (12), when the second spring (18) does not bear other external force, the lower end of the rebound component (12) is lower than the lower end of the cutting edge, two sides of the cutter main body (11) are respectively provided with a fixed handle (17), one side of the fixed handle (17) close to the sliding rod (21) is connected with a movable handle (15) through a first spring (16), a supporting piece (13) is arranged at the position of a folding rod on one side of the cutter main body (11) close to the sliding rod (21), and a sliding groove (14) is formed on the supporting piece (13), the movable handle (15) is connected with the spring limiting pin (3) through a first pull rope (4), the first pull rope (4) is located in the sliding groove (14), and the mass of the balancing weight (27) is larger than that of the cutter assembly (1).

2. The non-woven fabric detection sample piece manufacturing device according to claim 1, wherein the pulley (22) is fixed on a slide rod (21) below the first limiting block (23), a second pull rope (25) is arranged in a pulley groove of the pulley (22), one end of the second pull rope (25) is fixed with the mounting part (24), the other end of the second pull rope is fixed with the balancing weight (27), when the mounting part (24) contacts with the first limiting block (23), the balancing weight (27) does not contact with the base (28), the second limiting hole is coaxial with the first limiting hole (241), a spring limiting pin (3) is arranged in the first limiting hole (241), and the spring limiting pin (3) is connected with the mounting part (24) through a third spring.

3. A non-woven fabric detection sample piece manufacturing device, which comprises a cutter component (1) and a seat stand (2), it is characterized in that the seat stand (2) is composed of a base (28) and a slide rod (21), one end of the slide rod (21) is vertically fixed on a base (28), a cutter groove (281) is arranged on the upper layer of the base (28), a first limit block (23) is fixedly arranged on the upper side of the slide rod (21), a second limit block (231) is arranged at the bottom of the slide rod (21), an installation part (24) capable of sliding up and down along the slide rod (21) is arranged on the slide rod (21) below the first limit block (23), a straight rack (242) is arranged on the right side of the mounting component (24), a straight rack hole (282) is formed on the base (28) below the straight rack (242), a servo motor (29) is arranged on the base (28), and a gear (291) meshed with the spur rack (242) is arranged on a rotating shaft of the servo motor (29);

cutter unit (1) is fixed in installation component (24) left side, cutter unit (1) comprises cutter main body (11), cutter main body (11) opening is downwards, and inside forms one and holds the chamber, and cutter main body (11) lateral wall bottom is the cutting edge, and the cutting edge corresponds each other with cutter groove (281), holds the chamber upper wall and is connected with a second spring (18), and second spring (18) lower extreme is connected with one resilience part (12), when second spring (18) do not receive other external force, resilience part (12) lower extreme is less than the cutting edge lower extreme, cutter main body (11) both sides respectively are equipped with a fixed handle (17), are equipped with switch (19) on every fixed handle (17), and switch (19) are connected with handle (17) through third spring (191), switch (19) are connected with servo motor (29) electricity, when two switches (19) all upwards push up, the servo motor (29) is started to drive the mounting part (24) to move upwards, when the two switches (19) are pushed downwards, the servo motor (29) is started to drive the mounting part (24) to move downwards, when the two switches (19) are loosened, the switches (19) return to be positive, and the servo motor (29) stops working.

4. The non-woven fabric detection sample manufacturing device according to claim 3, wherein the length of the spur rack (242) is greater than the distance between the first stopper (23) and the second stopper (231).

5. The non-woven fabric detection sample manufacturing device according to claim 3 or claim 4, wherein the first stopper (23) and the second stopper (231) are travel switches.

6. The apparatus as claimed in claim 5, wherein the spur rack (242) is made of medium carbon steel.

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