CN111707584B - Fabric quick-drying performance contrast test equipment - Google Patents

Abstract

The invention discloses fabric quick-drying performance comparison test equipment, relates to the technical field of fabric detection, and solves the problem that the traditional fabric quick-drying performance comparison detection method cannot achieve quick-drying performance detection of different fabrics in a natural environment. The fabric quick-drying contrast test equipment comprises a bottom plate, a mounting plate, a fabric left-right pulling device, a simulated blowing device, a simulated sun device and the like; the installation board is fixedly installed on one side of the bottom board, the fabric left-right pulling device is installed on the bottom board and the installation board, and the simulated blowing device is installed on one side of the bottom board and connected with the fabric left-right pulling device. According to the invention, the fabric left-right pulling device and the simulated blowing device are matched to work, so that the fabric can be subjected to quick-drying comparison detection under the condition of simulating natural wind, and the air drying speed of different fabrics in a natural environment can be better reflected.

Description

Fabric quick-drying performance contrast test equipment

Technical Field

The invention relates to the technical field of fabric detection, in particular to fabric quick-drying performance comparison test equipment.

Background

The quick-drying property of the fabric refers to the function of quickly diffusing and volatilizing after liquid is conducted to the outer surface of the fabric, and the fabric with good quick-drying property is generally manufactured into quick-drying clothes, summer sportswear, other moisture-absorbing quick-drying clothes and the like.

Different fabric quick-drying properties are different, and fabrics with good quick-drying properties such as chemical fiber, polyester fiber or synthetic fabric fiber are generally selected for manufacturing quick-drying clothes. In order to make different fabrics better perform their own use, it is necessary to perform quick-drying comparative detection on different fabrics. The traditional fabric quick-drying contrast detection is as follows: and placing different fabric materials into a drying room for drying after being wetted, and judging the drying speed of the different fabric materials by recording the drying time of the different fabric materials so as to judge the quality of the quick-drying property of the different fabric materials. Although the detection method for the quick-drying property of the fabric can achieve the purpose of detection, the effect of quick-drying property detection of different fabrics in the natural environment cannot be achieved, and because quick-drying clothes and sportswear made of the fabrics are naturally air-dried or sun-dried under the condition of being wetted by sweat, the detection method is difficult to truly reflect the quick-drying condition of the different fabrics in the natural environment.

Disclosure of Invention

The invention aims to provide the fabric quick-drying contrast test equipment which can simulate the quick-drying contrast test of different fabrics in natural environments with wind and sunlight more truly and can better reflect the air-drying speed of the different fabrics in the natural environments, so as to solve the problems in the background technology.

The technical scheme of the invention is as follows: the utility model provides a fabric rapid-curing cutback nature contrast test equipment, includes bottom plate, mounting panel, surface fabric left and right sides pulling device, simulation blast apparatus and simulation sun device, mounting panel fixed mounting is in a side of bottom plate, surface fabric left and right sides pulling device installs on bottom plate and mounting panel, simulation blast apparatus installs in a side of bottom plate and is connected with surface fabric left and right sides pulling device, the one end of keeping away from the mounting panel on the bottom plate is installed to the simulation sun device and is connected with surface fabric left and right sides pulling device.

In one embodiment, the fabric left-right pulling device comprises a guide frame, a sliding rod, a servo motor, a rotating disc, a swinging groove rod, an arc swinging frame, a connecting rod, a fixed sleeve, a clamping seat and a compression spring, wherein one side surface of a bottom plate is fixedly provided with guide holes at one ends of the two parallel guide frames and the guide frames, the sliding rod is slidably arranged in the guide holes at one ends of the two guide frames, two fixed sleeves are fixedly arranged on the sliding rod, two clamping seats are movably arranged on the fixed sleeve, the compression spring is arranged between the clamping seat and the fixed sleeve, the servo motor is fixedly arranged on one side surface of a mounting plate, the rotating disc is arranged on an output shaft of the servo motor through a rotating shaft, the arc swinging frame is slidably arranged on the rotating disc, the middle part of the swinging groove rod is fixedly arranged on the arc swinging frame, one end of the swinging groove rod is rotatably connected with the mounting plate, and the other end of the connecting rod is rotatably arranged at the other end of the swinging groove rod and is rotatably connected with one end of the sliding rod.

In one embodiment, the simulation blast apparatus includes the pump body, intake pipe, blast pipe, piston seat, base, air guide frame and exhaust three-way pipe, pump body fixed mounting is in a side of bottom plate and is close with one of them leading truck, intake pipe and blast pipe are all installed on the pump body and the inside of intake pipe and blast pipe all are equipped with the check valve, piston seat slidable mounting is in the pump body and the one end movable of piston seat is located the straight line downthehole of swing groove pole, a side fixed mounting of bottom plate has two bases, two all fixed mounting has the air guide frame on the base, two install the exhaust three-way pipe between air guide frame and the blast pipe.

In one embodiment, the simulated sun device comprises an arc-shaped frame, an arc-shaped rod, an arc-shaped spring, a sliding seat, a heating frame, a supporting plate, a connecting shaft, a belt pulley, a flat belt, a bevel gear, a transmission shaft, a torsion spring, a pushing rod, a first sector gear and a second sector gear, wherein the arc-shaped frame is fixedly arranged on the upper side surface of one end of a bottom plate, the arc-shaped rod is fixedly arranged on the arc-shaped frame, the sliding seat is slidably arranged on the arc-shaped rod, the arc-shaped spring and the arc-shaped rod penetrate through the arc-shaped spring between one side surface of the sliding seat and one side surface of the arc-shaped frame, the heating frame is fixedly arranged on the sliding seat, the supporting plate is fixedly arranged on one side surface of the bottom plate and is close to the arc-shaped frame, the connecting shaft is arranged on the supporting plate through a bearing, one end of the belt pulley is arranged on one end of the connecting shaft, the other belt pulley is coaxially arranged with the rotating disc, the flat belt pulley is connected with the other end of the other sector gear, the bevel gear is fixedly arranged on the supporting plate through a bearing rotating shaft, the other bevel gear is mutually meshed with the two bevel gears, the driving shaft is arranged on the supporting plate, the supporting plate is fixedly arranged on the supporting plate, the supporting plate and the fan-shaped gear is fixedly arranged on the other end of the fan-shaped gear through pushing shaft, and the fan-shaped gear is meshed with the first end of the fan-shaped gear.

In one embodiment, the air guide frame further comprises guide plates, and a plurality of guide plates are fixedly arranged in the two air guide frames.

Compared with the prior art, the invention has the beneficial effects that: 1. according to the invention, the fabric left-right pulling device and the simulated blowing device are matched to work, so that the fabric can be subjected to quick-drying comparison detection under the condition of simulating natural wind, and the air drying speed of different fabrics in a natural environment can be better reflected.

2. According to the invention, the heating frame can be driven to move forwards and backwards through the cooperation of the pushing rod and the sliding seat, so that the heating frame can heat and dry the fabric on the clamping seat at different angles, and the fabric can be subjected to quick-drying detection in a state closer to a real natural environment.

Drawings

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

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

Fig. 3 is a schematic perspective view of a first part of the present invention.

Fig. 4 is a schematic perspective view of a second part of the present invention.

Fig. 5 is a schematic perspective view of a third portion of the present invention.

Fig. 6 is a schematic perspective view of a fourth part of the present invention.

In the reference numerals: a bottom plate, a mounting plate, a fabric left and right pulling device, a guide frame, a sliding rod, a servo motor, a rotary disk, a swing groove rod, a simulated air blowing device, a pump body, an air inlet pipe, an air outlet pipe, a piston seat, a base, an air guide frame, an air outlet three-way pipe, a simulated solar device, arc rack, arc lever, arc spring, 504, sliding seat, 505, heating rack, 506, support plate, 507, connecting shaft, 508, pulley, 509, flat belt, 5010, bevel gear, 5011, drive shaft, 5012, torsion spring, 5013, push lever, 5014, first sector gear, 5015, second sector gear, 6, stationary sleeve, 7, clamping seat, 8, compression spring, 9.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description, but does not limit the scope of protection and the application of the invention.

Example 1

The utility model provides a fabric quick-drying nature contrast test equipment, is shown as fig. 1-6, including bottom board 1, mounting panel 2, surface fabric left and right pulling device 3, simulation blast apparatus 4 and simulation sun gear 5, mounting panel 2 fixed mounting is in the upside of bottom board 1, surface fabric left and right pulling device 3 is installed on bottom board 1 and mounting panel 2, surface fabric left and right pulling device 3 is used for driving the fabric that needs to carry out quick-drying nature detection and moves about, simulation blast apparatus 4 is installed in the upside of bottom board 1 and is connected with surface fabric left and right pulling device 3, simulation blast apparatus 4 is used for simulating the air-drying speed of fabric under the condition of natural wind, simulation sun gear 5 is installed and is kept away from the one end of mounting panel 2 on bottom board 1 and is connected with surface fabric left and right pulling device 3, simulation sun gear 5 is used for simulating the speed that the fabric was dried under the irradiation of different angle sunshine.

As shown in fig. 3-5, the fabric left-right pulling device 3 comprises a guide frame 301, a sliding rod 302, a servo motor 303, a rotating disc 304, a swinging groove rod 305, an arc swinging frame 306, a connecting rod 307, a fixed sleeve 6, a clamping seat 7 and a compression spring 8, wherein two parallel guide frames 301 are fixedly arranged on the upper side surface of a bottom plate 1, guide holes are formed in the upper ends of the guide frames 301, the two guide frames 301 are close to the mounting plate 2, the sliding rod 302 is slidably arranged in the guide holes in the upper ends of the two guide frames 301, two fixed sleeves 6 are fixedly arranged on the sliding rod 302, the sliding rod 302 is used for driving the two fixed sleeves 6 to move left and right, two clamping seats 7 are movably arranged on the fixed sleeve 6, a compression spring 8 is arranged between the clamping seat 7 and the fixed sleeve 6, the clamping seat 7 is used for clamping and fixing fabrics needing quick dryness detection, the servo motor 303 is fixedly arranged on one side surface of the upper end of the mounting plate 2 through a seat, the rotating disc 304 is fixedly arranged on the output shaft of the motor, the sliding rod 302 is fixedly arranged on the upper end of the rotating disc 304 through the rotating shaft, the sliding rod 302 is fixedly arranged on the other side surface of the rotating disc, the rotating disc 304 is fixedly arranged on the side surface of the rotating disc 307, and is connected with the swinging groove 305 through the arc swinging groove 305, and the connecting rod 305 is rotatably arranged at the end of the connecting rod 305.

As shown in fig. 1-2 and fig. 4, the simulated blowing device 4 includes a pump body 401, an air inlet pipe 402, an air outlet pipe 403, a piston seat 404, a base 405, an air guide frame 406 and an air outlet three-way pipe 407, wherein the pump body 401 is fixedly installed on the upper side surface of the bottom plate 1 and is close to one guide frame 301, the air inlet pipe 402 and the air outlet pipe 403 are both installed on the pump body 401, check valves are arranged in the air inlet pipe 402 and the air outlet pipe 403, the piston seat 404 is slidably installed in the pump body 401, one end of the piston seat 404 is movably positioned in a straight hole on the swing groove rod 305, two bases 405 are fixedly installed on the upper side surface of the bottom plate 1, two air guide frames 406 are fixedly installed on the bases 405, the air guide frames 406 are used for intermittently blowing air onto fabric, the air outlet three-way pipe 407 is installed between the air guide frames 406 and the air outlet pipe 403, and the air outlet three-way pipe 407 is used for introducing air in the pump body 401 into the air guide frames 406.

The using process comprises the following steps: when the quick-drying performance of the fabric is required to be compared and detected, a worker pulls the two clamping seats 7 to separate, places the fabric to be detected between the two clamping seats 7, clamps and fixes the clamping seats 7, and then starts the servo motor 303 to rotate clockwise. The servo motor 303 drives the rotating disc 304 and the arc-shaped swing frame 306 to rotate clockwise, the arc-shaped swing frame 306 drives the sliding rod 302 to move left and right through the swing groove rod 305 and the connecting rod 307, at this time, the two fixing sleeves 6 on the sliding rod 302 also move left and right, and the fabric clamped and fixed by the clamping seat 7 can move left and right.

The swing groove rod 305 drives the piston seat 404 to move left and right, and when the piston seat 404 moves rightwards, air enters the pump body 401 through the air inlet pipe 402; when the piston seat 404 moves left like, air in the pump body 401 is extruded into the exhaust pipe 403, and then the air is blown onto the fabric through the exhaust tee 407 and the air guide frame 406. Because the fixing sleeve 6 and the clamping seat 7 can drive the fabric to move left and right, air is intermittently blown onto the fabric, so that the condition that the fabric is placed in a natural environment for air drying can be simulated, and rapid drying comparison detection of different fabrics under the condition of simulating natural wind can be realized.

Example two

On the basis of the first embodiment, as shown in fig. 5, the sun simulation device 5 comprises an arc frame 501, an arc rod 502, an arc spring 503, a sliding seat 504, a heating frame 505, a supporting plate 506, a connecting shaft 507, a belt pulley 508, a flat belt 509, a bevel gear 5010, a transmission shaft 5011, a torsion spring 5012, a pushing rod 5013, a first sector gear 5014 and a second sector gear 5015, wherein the arc frame 501 is fixedly installed on the upper side surface of one end of the bottom plate 1 and the arc frame 501 is far away from the mounting plate 2, the arc rod 502 is fixedly installed on the arc frame 501, the sliding seat 504 is slidably installed on the arc rod 502, the arc spring 503 is installed between one side surface of the sliding seat 504 and one side surface of the arc frame 501, the arc rod 502 passes through the arc spring 503, the heating frame 505 is fixedly installed on the sliding seat 504, the heating frame 505 is used for simulating the sun in natural environment, the sliding seat 504 is used for driving the heating frame 505 to move back and forth, the supporting plate 506 is fixedly arranged on the upper side surface of the bottom plate 1 and is close to the arc-shaped frame 501, the connecting shaft 507 is arranged on the supporting plate 506 through a bearing, one belt pulley 508 is arranged at one end of the connecting shaft 507, the other belt pulley 508 is coaxially arranged with the rotating disc 304, a flat belt 509 is connected between the two belt pulleys 508, one bevel gear 5010 is fixedly arranged at the other end of the connecting shaft 507, the other bevel gear 5010 is arranged on the supporting plate 506 through a bearing rotating shaft and the two bevel gears 5010 are meshed with each other, the transmission shaft 5011 is arranged on the supporting plate 506 through a bearing, the pushing rod 5013 is fixedly arranged at one end of the transmission shaft 5011 and the upper end of the pushing rod 5013 is contacted with the sliding seat 504, the pushing rod 5013 is used for pushing the sliding seat 504 to slide back and forth on the arc-shaped rod 502, the first sector gear 5014 is fixedly installed at the other end of the transmission shaft 5011, a torsion spring 5012 is installed between the first sector gear 5014 and the support plate 506, the transmission shaft 5011 passes through the torsion spring 5012, the second sector gear 5015 is installed on another bevel gear 5010, and the second sector gear 5015 is meshed with the first sector gear 5014.

The using process comprises the following steps: the servo motor 303 rotates clockwise to drive the other belt pulley 508 to rotate clockwise, the other belt pulley 508 drives one belt pulley 508 to rotate clockwise through the flat belt 509, one belt pulley 508 drives the connecting shaft 507 and one bevel gear 5010 to rotate clockwise, one bevel gear 5010 drives the other bevel gear 5010 meshed with the other bevel gear 5010 and the second sector gear to rotate anticlockwise, the second sector gear 5015 drives the first sector gear 5014, the transmission shaft 5011 and the push rod 5013 to rotate clockwise, at this time, the push rod 5013 drives the heating frame 505 to move forwards through pushing the sliding seat 504, and the heating frame 505 can heat and dry the fabric on the clamping seat 7 in the forward moving process.

When the first sector gear is disengaged from the second sector gear 5015, under the auxiliary action of the torsion spring 5012, the first sector gear 5014 drives the transmission shaft 5011 and the push rod 5013 to rotate anticlockwise for resetting, the push rod 5013 drives the heating frame 505 to move backwards for resetting through the sliding seat 504, and the heating frame 505 can also play a role in heating and drying the fabric of the clamping seat 7 in the backward moving process. The heating frame 505 moves back and forth to heat and dry the fabric from different angles, so that the effect of simulating the sun to naturally dry the fabric can be achieved.

As shown in fig. 1, the air guide frame also comprises guide plates 9, and three guide plates 9 are fixedly installed in two air guide frames 406.

The baffle 9 has the function of enabling the air entering the air guide frame 406 to be blown onto the fabric more uniformly, so that the fabric can be subjected to quick-drying comparison detection in a more natural environment.

The embodiments described above are intended to provide those skilled in the art with a full range of modifications and variations to the embodiments described above without departing from the inventive concept thereof, and therefore the scope of the invention is not limited by the embodiments described above, but is to be accorded the broadest scope consistent with the innovative features recited in the claims.

Claims (1)

1. The utility model provides a fabric rapid-curing cutback nature contrast test equipment which characterized in that: the fabric left-right pulling device is arranged on one side of the bottom plate and connected with the fabric left-right pulling device, and the simulated solar device is arranged at one end, far away from the mounting plate, of the bottom plate and connected with the fabric left-right pulling device;

the fabric left-right pulling device comprises a guide frame, a sliding rod, a servo motor, a rotating disc, a swinging groove rod, an arc swinging frame, a connecting rod, a fixed sleeve, clamping holders and a compression spring, wherein one side surface of a bottom plate is fixedly provided with two parallel guide frames, one end of each guide frame is provided with a guide hole, the sliding rod is slidably arranged in the guide holes at one end of each guide frame, two fixed sleeves are fixedly arranged on the sliding rod, two clamping holders are movably arranged on each fixed sleeve, the compression spring is arranged between each clamping holder and each fixed sleeve, the servo motor is fixedly arranged on one side surface of a mounting plate, the rotating disc is arranged on an output shaft of the servo motor through a rotating shaft, the arc swinging frame is slidably arranged on the rotating disc, the middle part of each swinging groove rod is fixedly arranged on the arc swinging frame, one end of each swinging groove rod is rotatably connected with the mounting plate, and the other end of each connecting rod is rotatably arranged at the other end of each swinging groove rod;

the simulated blowing device comprises a pump body, an air inlet pipe, an air outlet pipe, a piston seat, a base, an air guide frame and an air outlet three-way pipe, wherein the pump body is fixedly arranged on one side surface of a bottom plate and is close to one guide frame, the air inlet pipe and the air outlet pipe are arranged on the pump body, one-way valves are arranged in the air inlet pipe and the air outlet pipe, the piston seat is slidably arranged in the pump body, one end of the piston seat is movably positioned in a straight hole on a swinging groove rod, two bases are fixedly arranged on one side surface of the bottom plate, the air guide frame is fixedly arranged on each base, and the air outlet three-way pipe is arranged between each air guide frame and each air outlet pipe;

the simulated sun device comprises an arc-shaped frame, an arc-shaped rod, an arc-shaped spring, a sliding seat, a heating frame, a supporting plate, a connecting shaft, a belt pulley, a flat belt, a bevel gear, a transmission shaft, a torsion spring, a pushing rod, a first sector gear and a second sector gear, wherein the arc-shaped frame is fixedly arranged on the upper side surface of one end of the bottom plate;

the air guide frame also comprises guide plates, and a plurality of guide plates are fixedly arranged in the two air guide frames.