CN212052056U - Tentering setting machine capable of automatically adjusting parameters - Google Patents

Abstract

The utility model provides an automatic parameter adjustment's tentering setting machine, includes casing, base and steeping vat, the casing is installed through the mounting groove in the base top, two feed plates and opposite side are installed to casing one side and are installed two play flitchs, it is equipped with the swing cloth frame to go out flitch and keep away from casing one end, inside successively through the order according to the cloth is equipped with grinding device, first extrusion roller set, whole latitude device, expanding centering device, tentering device, second extrusion roller set and drying plate group in the casing, whole latitude roller of whole latitude device sets up respectively at expanding centering device both ends, and one of them whole latitude roller is kept away from one side of expanding centering device and has been seted up the steeping vat, tentering device is including the tentering roller that is located the inside of steeping vat. The utility model has the characteristics of improve cloth arrangement quality, improve cloth arrangement efficiency and reduce the wasting of resources.

Description

Tentering setting machine capable of automatically adjusting parameters

Technical Field

The utility model relates to the field of textile technology, especially, relate to an automatic parameter adjusting's tentering setting machine.

Background

The cloth needs to arrange the range, the unit weight etc. of cloth after printing and dyeing, makes it satisfy customer's demand, and this just needs use cloth tentering setting machine. In an actual textile mill, various types of cloth materials need to be produced, different cloth materials need to be finished by the tentering and setting machine, the conditions of the width, the gram weight, the weft skew and the like of different cloth materials are different, so that an operator needs to correspondingly adjust various process parameters of tentering and setting according to different cloth materials, and the finishing quality of the cloth materials is uneven due to different experiences of different workers; once the operation parameters of the existing tentering setting machine are determined, the machine cannot be flexibly adjusted in real time according to the real-time transportation condition of the cloth in the working process, so that the cloth finishing quality and the cloth finishing efficiency are influenced; the following disadvantages exist simultaneously: 1. the setting machine is provided with the leveling wheel when cloth is fed, but the traditional leveling wheel has poor leveling effect on the cloth due to low self temperature, so that the final qualified rate of products is reduced; 2. the existing centering roller is driven by a centering motor to do left-right reciprocating motion all the time, and the cloth can continue to work even if the centering is already realized, so that the waste of resources is caused.

Therefore, aiming at the defects in the prior art, a tenter setting machine capable of automatically adjusting parameters is provided.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic tentering setting machine of adjustment parameter has solved the problem that proposes among the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a tentering and setting machine capable of automatically adjusting parameters comprises a shell, a base and a glue dipping groove, wherein the top of the base is provided with the shell through a mounting groove, one side of the shell is provided with two feeding plates, the other side of the shell is provided with two discharging plates, the two feeding plates are provided with conveying devices, each conveying device comprises a plurality of feeding rollers, the plurality of feeding rollers are arranged at equal intervals and are rotatably connected between the two feeding plates, each feeding plate is clamped with a mounting plate, the mounting plate is provided with a flattening wheel, the discharging plates are provided with discharging rollers, one ends of the discharging plates, far away from the shell, are provided with a cloth placing frame, a polishing device, a first extrusion roller set, a weft straightening device, an expanding centering device, a tentering device, a second extrusion roller set and a drying plate set are sequentially arranged in the shell according to cloth, the polishing device comprises an upper polishing roller and a lower polishing roller which are arranged on the shell through bearings, and, the dust inlet end of the dust collector is positioned at the top in the shell, the first extrusion roller set and the second extrusion roller set are both fixed on the base through bolts, an auxiliary wheel is fixed on one side of the second extrusion roller group close to the first extrusion roller group through bolts, the expanding and centering device comprises an expanding roller and a centering roller which are fixed on the frame, the expanding roller is provided with a pressure sensor, the weft straightening rollers of the weft straightening device are respectively arranged at the two ends of the expanding centering device, one side of one weft straightening roller, which is far away from the width expanding centering device, is provided with a glue dipping groove, the tentering device comprises a tentering roller positioned in the glue dipping groove, the top of the tenter roller is connected with one end of a connecting rod, the other end of the connecting rod is connected with an output shaft of the cylinder, the air cylinder is installed at the top of the shell through the installation frame, one side of the air cylinder is provided with an air inlet through the installation groove, and one end of the air inlet is located in the shell;

a first motor is arranged on one side of the base through a mounting frame, a second motor is arranged on one side of the first motor through a mounting seat, a first weft straightening motor is arranged on the other side of the second motor through the mounting seat, the other side of the first weft straightening motor is provided with an expanding motor through a mounting seat, the other side of the expanding motor is provided with a centering motor through the mounting seat, the other side of the centering motor is provided with a second weft straightening motor through a mounting seat, the other side of the base is provided with a third motor through a mounting frame, a steam generator is arranged between the second weft straightening motor and the third motor, a controller is arranged outside the base, the controller is electrically connected with the pressure sensor, the air cylinder, the first motor, the second motor, the third motor, the first weft straightening motor, the second weft straightening motor, the expanding motor, the centering motor and the steam generator, and can receive a pressure signal of cloth detected by the pressure sensor to the expanding roller;

be equipped with feed inlet and discharge gate on the casing be equipped with the test rack on the feed inlet, the test rack includes an upper fixed plate and a bottom plate, be equipped with the hydraulic stem on the upper fixed plate, the hydraulic stem tip is equipped with the top board, be equipped with the holding down plate on the bottom plate, the holding down plate is equipped with cloth skew scanner, weighing transducer and infrared sensor in proper order, be equipped with protruding briquetting on the top board, the holding down plate middle part is equipped with the recess, is equipped with weighing transducer in the recess, cloth skew scanner, weighing transducer and infrared sensor and controller electric connection, and can receive infrared sensor and to the signal that the cloth intermediate position detected. After the cloth enters the detection frame, the controller controls the hydraulic rod to descend, the upper pressing plate presses the lower pressing plate, so that the cloth skewing scanner can clearly scan the cloth skewing condition into an image, the weight sensor detects the pressure of the upper pressing plate, the gravity of the protruding pressing block on the upper pressing plate and the weight of the cloth in the area, and the weight of the cloth in a unit area can be obtained by calculating, analyzing and subtracting the pressure of the upper pressing plate and the weight of the protruding pressing block through the controller.

Furthermore, every the mounting panel symmetry fixedly connected with second connecting pipe, every the one end of second connecting pipe is rotated and is connected the leveling wheel, it has the circulation chamber to open in the leveling wheel, the center department of leveling wheel has still seted up the gas outlet, the other end of second connecting pipe is located the mounting panel.

Further, be connected with third connecting pipe and fourth connecting pipe on the steam generator, the one end that the third connecting pipe deviates from steam generator is connected with the reposition of redundant personnel and connects, the last symmetry intercommunication of reposition of redundant personnel joint has four first connecting pipes, the one end intercommunication of first connecting pipe and the second connecting pipe corresponding with it, the fourth connecting pipe with the air inlet intercommunication.

Furthermore, first squeeze roll group and second squeeze roll group constitute by support, last squeeze roll and squeeze roll down, be connected with the squeeze roll through the pivot between the support and go up the squeeze roll bottom and be connected with down the squeeze roll through the pivot.

Furthermore, the lower grinding roller is positioned at the bottom of the upper grinding roller, a first belt pulley and a second belt pulley are welded to one end of the upper grinding roller and one end of the lower grinding roller respectively, the first belt pulley and the second belt pulley are connected through a synchronous belt, the output end of a second motor is connected with the second belt pulley through the synchronous belt, and the first belt pulley and the second belt pulley are positioned outside the shell.

Furthermore, the output end of the first motor is connected with the rotating shaft of the feeding roller through a synchronous belt, the output shaft of the third motor is connected with the rotating shaft of the discharging roller through the synchronous belt, the output ends of the first weft straightening motor and the second weft straightening motor are connected with the rotating shafts of the two weft straightening rollers through the synchronous belt, the output end of the width expanding motor is connected with the rotating shaft of the width expanding roller through the synchronous belt, and the output end of the centering motor is connected with the rotating shaft of the centering roller through the synchronous belt.

Further, drying plate group includes first drying plate and second drying plate, first drying plate is located second drying plate top, first drying plate and second drying plate are inside all to install the heater strip through the mounting groove and the heater strip outside is filled there is magnesium oxide powder, first drying plate and second drying plate outside all is provided with the silastic-layer.

Furthermore, the casing is installed temperature controller and temperature controller's sense terminal through the mount pad on one side and is located inside the casing, temperature controller and heater strip electrical property link to each other.

Further, the cloth swinging frame comprises a cloth swinging rod, hydraulic telescopic rods are arranged at two ends of the cloth swinging rod, a rotating shaft is connected to the top of the hydraulic telescopic rod located at the upper end of the cloth swinging rod and is connected with a discharge plate in a rotating mode through the rotating shaft, a rotating gear is arranged on the rotating shaft and is connected with a rotating motor, the rotating motor is connected with a controller, a cloth dropping box placed on the ground is arranged at the bottom of the cloth swinging rod, a height detector is arranged at the lower end of the cloth swinging rod and is connected with the controller, and the controller can receive the height detector to detect the height position of the bottom face of the cloth swinging rod and the cloth dropping box.

The utility model has the advantages that:

(1) the utility model discloses a cooperation of test stand, whole latitude device, expanding centering device and controller is used, according to the actual condition of cloth and the real-time nimble operating condition of adjusting each part of transportation condition, reaches the operating condition of optimum this cloth, can enough guarantee cloth arrangement quality, can also improve the efficiency of arrangement. Through the matching use of an infrared sensor, a weight sensor, a cloth skew scanner and a controller in the cloth detection device, parameters such as the width, the gram weight, the skew and the like of cloth to be finished are transmitted to the controller in real time, and the controller controls the weft straightening device, the width expanding centering device and the overfeed device to adjust working parameters in real time, so that the machine reaches the optimal use state, operation is not required to be carried out by the experience of workers, and the finishing quality of the cloth can be effectively ensured; meanwhile, the centering degree of the cloth is monitored in real time through the infrared sensor, so that the centering roller does not need to be in a working state for a long time, the power consumption is saved, and the service time of the centering roller can be effectively prolonged; through the cooperation of cloth oblique weft sensor and controller, can know the oblique degree of weft of cloth in real time, then make whole latitude device output adaptive power, guaranteed the quality and the efficiency of arrangement. Through the cooperation of the pressure sensor arranged on the expanding roller, the detection frame and the controller, the tension of the cloth on the whole device is adjusted in real time, the optimal output speed is achieved, and the maximum cloth arranging efficiency is achieved on the premise of ensuring the cloth arranging quality.

(2) The utility model discloses a set up first extrusion roller set, second extrusion roller set, cylinder, tentering roller, can extrude, arrange in order and tenter to the cloth, adjust cylinder descending height can adjust the tentering dynamics of cloth.

(3) The utility model discloses an interact of third connecting pipe, steam generator, reposition of redundant personnel joint, circulation chamber, gas outlet isotructure to make the temperature increase of leveling wheel, the temperature increase can make the cloth warp the flattening more easily, increases the flattening effect, improves the qualification rate of product, utilizes the waste heat in the heating cabinet to make the temperature increase of leveling wheel simultaneously, the effectual heat energy that has utilized plays energy saving's effect.

(4) The utility model discloses a set up and polish the roller down, can polish the cloth, clearance such as burr, batting that make the cloth produce when processes such as dyeing fall, can take away impurity and debris under polishing through setting up the dust catcher, can clear up the impurity and the granule on cloth surface simultaneously.

(5) To sum up, the utility model has the characteristics of improve cloth arrangement quality, improve cloth arrangement efficiency and reduce the wasting of resources.

Drawings

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

Fig. 2 is a structure diagram of the inside of the casing of the present invention.

FIG. 3 is a top view of the feeding plate of the present invention

Fig. 4 is a schematic front structural view of the leveling wheel of the present invention.

Fig. 5 is the internal structure diagram of the first drying plate of the present invention.

Fig. 6 is a structural diagram of the first squeeze roller group and the second squeeze roller group of the present invention.

The labels in the figure are: the device comprises a grinding device 1, an upper grinding roller 101, a lower grinding roller 102, a dust collector 103, a first belt pulley 104, a second belt pulley 105, a first extrusion roller group 2, a weft straightening device 3, a weft straightening roller 301, an expanding centering device 4, a frame 401, an expanding roller 402, a centering roller 403, a tentering device 5, a tentering roller 501, a connecting rod 502, a cylinder 503, an air inlet 504, a second extrusion roller group 6, a drying plate group 7, a first drying plate 701, a second drying plate 702, a heating wire 703, magnesium oxide powder 704, a silicon rubber layer 705, a cloth swinging frame 8, a cloth swinging rod 801, a hydraulic telescopic rod 802, a rotating shaft 803, a cloth falling box 804, a detection frame 9, a shell 10, a feeding plate 11, a discharging plate 12, a feeding roller 13, a mounting plate 14, a leveling wheel 15, a discharging roller 16, an auxiliary wheel 17, a glue dipping tank 18, a feeding port 19, a base 20, a first motor 21, a second motor 22, a first weft straightening motor 23, an expanding motor 24, a width adjusting, The device comprises a centering motor 25, a second weft straightening motor 26, a third motor 27, a steam generator 28, a controller 29, cloth 30, a second connecting pipe 31, a circulating cavity 32, an air outlet 33, a third connecting pipe 34, a fourth connecting pipe 35, a flow dividing joint 36, a first connecting pipe 37, a support 38, an upper extrusion roller 39, a lower extrusion roller 40 and a temperature controller 41.

Detailed Description

The following provides a more detailed description of the present invention with reference to the accompanying drawings and detailed description.

As shown in fig. 1-6, a tentering setting machine capable of automatically adjusting parameters comprises a shell 10, a base 20 and a glue dipping groove 18, wherein the shell 10 is installed at the top of the base 20 through a mounting groove, two feeding plates 11 and two discharging plates 12 are installed on one side of the shell 10, the two feeding plates 11 are provided with a conveying device, the conveying device comprises a plurality of feeding rollers 13, the feeding rollers 13 are arranged at equal intervals and are rotatably connected between the two feeding plates 11, each feeding plate 11 is connected with a mounting plate 14 in a clamping manner, the mounting plate 14 is provided with a leveling wheel 15, the discharging plates 12 are provided with discharging rollers 16, one ends of the discharging plates 12 far away from the shell 10 are provided with a cloth swinging frame 8, and the inside of the shell 10 is provided with a polishing device 1, a first extrusion roller set 2, a weft straightening device 3 and a cloth 30 sequentially in sequence, The expanding centering device 4, the tentering device 5, the second squeeze roller group 6 and the drying plate group 7, the polishing device 1 comprises an upper polishing roller 101 and a lower polishing roller 102 which are arranged on the shell 10 through bearings, and a dust collector 103 which is arranged on the top of the shell 10, the dust inlet end of the dust collector 103 is arranged on the top of the shell 10, the first squeeze roller group 2 and the second squeeze roller group 6 are both fixed on the base 20 through bolts, the second squeeze roller group 6 is close to one side of the first squeeze roller group 2 and is fixed with an auxiliary wheel 17 through bolts, the expanding centering device 4 comprises a rack which is fixed on the base 20 through bolts, an expanding roller 402 and a centering roller 403 which are fixed on the rack 401, a pressure sensor is arranged on the expanding roller 402, the weft straightening rollers 301 of the weft straightening device 3 are respectively arranged at two ends of the expanding centering device 4, one side of the weft straightening roller 301 which is far away from the expanding centering device 4 is provided with a glue dipping, the tenter device 5 comprises a tenter roller 501 positioned in the dip tank 18, wherein the top of the tenter roller 501 is connected with one end of a connecting rod 502, the other end of the connecting rod 502 is connected with an output shaft of a cylinder 503, the cylinder 503 is installed on the top of the housing 10 through a mounting frame, one side of the cylinder 503 is provided with an air inlet 504 through a mounting groove, and one end of the air inlet 504 is positioned in the housing 10;

base 20 one side is installed first motor 21 through the mounting bracket, first motor 21 one side is installed second motor 22 and second motor 22 opposite side through the mount pad and is installed first whole latitude motor 23, first whole latitude motor 23 opposite side is installed expander motor 24 through the mount pad, centering motor 25 is installed through the mount pad to expander motor 24 opposite side, second whole latitude motor 26 is installed through the mount pad to centering motor 25 opposite side, third motor 27 is installed through the mount pad to the base opposite side, install steam generator 28 between second whole latitude motor 26 and the third motor 27, controller 29 is installed in the base 20 outside, controller and pressure sensor, cylinder 503, first motor 21, second motor 22, third motor 27, first whole latitude motor 23, second whole latitude motor 26, The expanding motor 24, the centering motor 25 and the steam generator 28 are electrically connected and can receive a pressure signal of the pressure sensor for detecting the pressure of the cloth 30 to the expanding roller 402;

be equipped with feed inlet 19 and discharge gate on the casing 10 be equipped with detection frame 9 on the feed inlet 19, detection frame 9 includes an upper fixed plate and a lower fixed plate, be equipped with the hydraulic stem on the upper fixed plate, the hydraulic stem tip is equipped with the top board, be equipped with the holding down plate on the lower fixed plate, the holding down plate is equipped with cloth latitudinal oblique scanner, weight sensor and infrared sensor in proper order, be equipped with protruding briquetting on the top board, the holding down plate middle part is equipped with the recess, is equipped with weight sensor in the recess, cloth latitudinal oblique scanner, weight sensor and infrared sensor and controller 29 electric connection, and can receive the signal that infrared sensor detected 30 intermediate positions of cloth. After the cloth enters the detection frame 9, the controller 29 controls the hydraulic rod to descend, the upper pressing plate presses the lower pressing plate, so that the cloth 30 can be clearly scanned into an image by the cloth skew scanner, the pressure of the upper pressing plate, the gravity of the convex pressing block on the upper pressing plate and the weight of the cloth in the area are detected by the weight sensor, and the weight of the cloth in a unit area can be obtained by calculating, analyzing and subtracting the pressure of the upper pressing plate and the weight of the convex pressing block by the controller 29.

Every 14 symmetry fixedly connected with second connecting pipes 31 of mounting panel, every the one end of second connecting pipe 31 is rotated and is connected leveling wheel 15, it has circulating chamber 32 to seted up in leveling wheel 15, gas outlet 33 has still been seted up at leveling wheel 15's center department, the other end of second connecting pipe 31 is located mounting panel 14.

The steam generator 28 is connected with a third connecting pipe 34 and a fourth connecting pipe 35, one end of the third connecting pipe 34 departing from the steam generator 28 is connected with a shunt joint 36, the shunt joint 36 is symmetrically communicated with four first connecting pipes 37, the first connecting pipes 37 are communicated with one ends of the second connecting pipes 31 corresponding to the first connecting pipes 37, and the fourth connecting pipe 35 is communicated with the air inlet 504.

The first extrusion roller group 2 and the second extrusion roller group 6 are composed of supports 38, upper extrusion rollers 39 and lower extrusion rollers 40, the supports 38 are connected with the upper extrusion rollers 39 through rotating shafts, and the bottoms of the upper extrusion rollers 39 are connected with the lower extrusion rollers 40 through rotating shafts.

Lower grinding roller 102 is located grinding roller 101 bottom, it has first belt pulley 104 and second belt pulley 105 to weld respectively with grinding roller 102 one end down to go up grinding roller 101, and first belt pulley 104 and second belt pulley 105 pass through the hold-in range and connect, the output of second motor 22 passes through the hold-in range and is connected with second belt pulley 105, first belt pulley 104 and second belt pulley 105 are located the casing 10 outside.

The output of first motor 21 passes through the hold-in range and is connected with the axis of rotation of feed roll 13, the output shaft of third motor 27 passes through the hold-in range and the axis of rotation of discharge roller 16 is connected, and the output of first whole latitude motor 23 and second whole latitude motor 26 passes through the hold-in range and two rotation axis connections of whole latitude roller 301, the output of expander motor 24 passes through the hold-in range and the rotation axis connection of expander roller 402, the output of centering motor 25 passes through the hold-in range and the rotation axis connection of centering roller 403.

The drying plate group 7 comprises a first drying plate 701 and a second drying plate 702, the first drying plate 701 is located at the top of the second drying plate 702, heating wires 703 are installed inside the first drying plate 701 and the second drying plate 702 through installation grooves, magnesium oxide powder 704 is filled outside the heating wires 703, and silicone rubber layers 705 are arranged outside the first drying plate 701 and the second drying plate 702.

Temperature controller 41 is installed through the mount pad on one side of casing 10 and the sense terminal of temperature controller 41 is located inside casing 10, temperature controller 41 and heater strip 703 electrical connection, temperature controller 41, heater strip 703 and controller 29 electrical connection.

The cloth swinging frame 8 comprises a cloth swinging rod 801, two ends of the cloth swinging rod 801 are provided with hydraulic telescopic rods 802, the top of the hydraulic telescopic rod 802 positioned at the upper end of the cloth swinging rod 801 is connected with a rotating shaft 803 and is rotationally connected with a discharging plate 12 through the rotating shaft 803, a rotating gear is arranged on the rotating shaft 803, the rotating gear is connected with a rotating motor, the rotating motor is connected with a controller 29, the bottom of the cloth swinging rod is provided with a cloth dropping box 804 placed on the ground, the lower end of the cloth swinging rod 801 is provided with a height detector, the height detector is connected with the controller 29, and the controller 29 can receive the height detector to detect the height position of the cloth swinging rod 801 and the bottom surface of the cloth dropping box.

When the device is used, a person uses a power cord to connect the device with an external power supply, firstly, the steam generator 28 is started, steam enters the first connecting pipe 37 through the third connecting pipe 34, then enters the circulating cavity 32 through the second connecting pipe 31, so that the temperature of the leveling wheel 15 is gradually increased, the first motor 21 is started to drive the feeding roller 13 to rotate, the second motor 22 is started to drive the upper polishing roller 101 and the lower polishing roller 102 to rotate through the first belt pulley 104 and the second belt pulley 105, the first weft straightening motor 23 and the second weft straightening motor 26 are started to drive the two weft straightening rollers 301 to rotate, the expanding motor 24 and the centering motor 25 are started to respectively drive the expanding roller 402 and the centering roller 403 to rotate, the third motor 27 is started to drive the discharging roller 16 to rotate, the cloth 30 is in contact with the leveling wheel 15 when passing through the feeding roller 13, and the preset leveling effect of the cloth 30 is better due to the higher temperature of the leveling wheel 15, before entering the shell 10, the cloth 30 firstly passes through the detection of a cloth skew scanner, a weight sensor and an infrared sensor of the detection frame 9, then one end of the cloth 30 enters the shell 10 and then passes through the space between the upper polishing roller 101 and the lower polishing roller 102, the upper polishing roller 101 and the lower polishing roller 102 can polish the cloth 30, so that burrs, flocks and the like generated in the dyeing process of the cloth 30 are cleaned, the dust collector 103 is opened to remove the polished impurities and sundries, meanwhile, the impurities and particles on the surface of the cloth 30 can be cleaned, the polished cloth 30 passes through the space between the first extrusion roller group 2, the first extrusion roller group 2 carries out primary arrangement on the cloth 30, simultaneously extrudes and fixes the cloth, the cloth 30 then passes through the two weft straightening rollers 301, the expanding roller 402 and the centering roller 403 in sequence, and because the cloth skew scanner, the weight sensor and the infrared sensor of the detection frame 9 enable the centering degree of the cloth 30 to be adjusted, The gram weight of the cloth and the degree of skewness of the cloth 30 are transmitted to a controller 29, the controller 29 analyzes and then controls a weft straightening motor to output corresponding rotating speed, the rotating direction is opposite to the cloth feeding direction, the weft of the cloth 30 is arranged, the corresponding rotating frequency is output by an expanding motor 24 according to the property of the cloth 30, a centering motor 25 controls a centering roller 403 to move correspondingly, when the cloth 30 is in a centering state, the centering roller 403 does not work, then a cylinder 503 is opened to drive a tentering roller 501 to press the cloth 30 downwards, tentering is carried out on the cloth 30, the descending height of the cylinder 503 is adjusted, the tentering strength of the cloth 30 can be adjusted, the tentered cloth passes through a second extrusion roller group 6 to be arranged again, steam of a steam generator 28 is sprayed on the cloth 30 through an air inlet 504 to iron the cloth 30, and meanwhile, the cloth 30 keeps certain humidity, conveniently stereotype it, the tentering, the cloth after the whole boiling hot passes between first drying board 701 and the second drying board 702, heating temperature through temperature controller 41 control heater strip 703, dry cloth 30, stereotype, it is ejection of compact through swing frame 8 to dry, cloth 30 after the design is under the drive of draw-out roller 16, height detector detects the high position of swing pole 801 and plaiting case 804 bottom surface, controller 29 carries out the regulation of height according to height detector's signal control hydraulic telescoping rod 802, then controller 29 control rotating electrical machines work, thereby it rotates to drive whole swing frame 8, along with the increase of the interior cloth of plaiting case 804, controller regulation hydraulic telescoping rod 802 carries out corresponding shrink.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides an automatic parameter adjustment's tentering setting machine, includes casing (10), base (20) and steeping vat (18), its characterized in that, casing (10) are installed through the mounting groove in base (20) top, two feed plates (11) and opposite side are installed to casing (10) one side, two discharge plate (12) are installed to feed plate (11), two feed plate (11) are equipped with conveyor, conveyor includes a plurality of feed rollers (13), and is a plurality of feed roller (13) are equidistant to be set up, and rotate to connect between two feed plates (11), every equal joint has mounting panel (14) on feed plate (11), mounting panel (14) are provided with whole flat wheel (15), discharge roller (16) are installed to discharge plate (12), it is equipped with pendulum cloth frame (8) to go out casing (10) one end to keep away from in discharge plate (12), casing (10) inside is equipped with grinding device (1) according to cloth (30) in proper order, The device comprises a first extrusion roller set (2), a weft straightening device (3), an expanding centering device (4), a tentering device (5), a second extrusion roller set (6) and a drying plate set (7), wherein the grinding device (1) comprises an upper grinding roller 101 and a lower grinding roller 102 which are arranged on a shell (10) through bearings and a dust collector 103 arranged at the top of the shell (10), the dust inlet end of the dust collector 103 is positioned at the top in the shell (10), the first extrusion roller set (2) and the second extrusion roller set (6) are fixed on a base (20) through bolts, one side of the second extrusion roller set (6) close to the first extrusion roller set (2) is fixed with an auxiliary wheel (17) through bolts, the expanding centering device (4) comprises a rack fixed on the base (20) through bolts, and an expanding roller (402) and a centering roller (403) which are fixed on the rack (401), and a pressure sensor is arranged on the expanding roller (402), the weft straightening rollers (301) of the weft straightening device (3) are respectively arranged at two ends of the width expanding centering device (4), one side, away from the width expanding centering device (4), of one weft straightening roller (301) is provided with a glue dipping groove (18), the tentering device (5) comprises a tentering roller (501) located inside the glue dipping groove (18), the top of the tentering roller (501) is connected with one end of a connecting rod (502), the other end of the connecting rod (502) is connected with an output shaft of a cylinder (503), the cylinder (503) is installed at the top of the shell (10) through an installation frame, an air inlet (504) is installed on one side of the cylinder (503) through an installation groove, and one end of the air inlet (504) is located inside the shell (10);

base (20) one side is installed first motor (21) through the mounting bracket, first motor (21) one side is installed second motor (22) and second motor (22) opposite side through the mount pad and is installed first whole latitude motor (23), expanding motor (24) are installed through the mount pad to first whole latitude motor (23) opposite side, centering motor (25) are installed through the mount pad to expanding motor (24) opposite side, second whole latitude motor (26) are installed through the mount pad to centering motor (25) opposite side, third motor (27) are installed through the mounting bracket to the base opposite side, install steam generator (28) between second whole latitude motor (26) and third motor (27), controller (29) are installed in base (20) outside, controller and pressure sensor, cylinder 503, The first motor (21), the second motor (22), the third motor (27), the first weft straightening motor (23), the second weft straightening motor (26), the expanding motor (24), the centering motor (25) and the steam generator (28) are electrically connected, and can receive a pressure signal of a pressure sensor for detecting the pressure of the cloth (30) on the expanding roller (402);

be equipped with feed inlet (19) and discharge gate on casing (10) be equipped with on feed inlet (19) testing stand (9), testing stand (9) include an upper fixed plate and a lower fixed plate, be equipped with the hydraulic stem on the upper fixed plate, the hydraulic stem tip is equipped with the top board, be equipped with the holding down plate on the lower fixed plate, the holding down plate is equipped with cloth wefting oblique scanner, weighing sensor and infrared sensor in proper order, be equipped with protruding briquetting on the top board, the holding down plate middle part is equipped with the recess, is equipped with weighing sensor in the recess, cloth wefting oblique scanner, weighing sensor and infrared sensor and controller (29) electric connection, and can receive the signal that infrared sensor detected cloth (30) intermediate position.

2. The tenter setting machine capable of automatically adjusting parameters according to claim 1, characterized in that each mounting plate (14) is symmetrically and fixedly connected with a second connecting pipe (31), one end of each second connecting pipe (31) is rotatably connected with the flattening wheel (15), a circulation cavity (32) is formed in the flattening wheel (15), an air outlet (33) is further formed at the center of the flattening wheel (15), and the other end of the second connecting pipe (31) is located in the mounting plate (14).

3. The tenter setting machine with automatic parameter adjustment according to claim 1, characterized in that a third connecting tube (34) and a fourth connecting tube (35) are connected to the steam generator (28), a shunt joint (36) is connected to an end of the third connecting tube (34) away from the steam generator (28), four first connecting tubes (37) symmetrically communicate with the shunt joint (36), the first connecting tubes (37) communicate with an end of the second connecting tube (31) corresponding to the first connecting tubes, and the fourth connecting tube (35) communicates with the air inlet (504).

4. The tenter setting machine with automatic parameter adjustment according to claim 1, characterized in that the first squeeze roller group (2) and the second squeeze roller group (6) are composed of a support (38), an upper squeeze roller (39) and a lower squeeze roller (40), the upper squeeze roller (39) is connected between the supports (38) through a rotating shaft and the lower squeeze roller (40) is connected to the bottom of the upper squeeze roller (39) through a rotating shaft.

5. The tenter setting machine capable of automatically adjusting parameters as claimed in claim 1, characterized in that the lower grinding roller (102) is located at the bottom of the upper grinding roller (101), one end of the upper grinding roller (101) and one end of the lower grinding roller (102) are welded with a first belt pulley (104) and a second belt pulley (105), respectively, the first belt pulley (104) and the second belt pulley (105) are connected through a synchronous belt, the output end of the second motor (22) is connected with the second belt pulley (105) through a synchronous belt, and the first belt pulley (104) and the second belt pulley (105) are located outside the housing (10).

6. The tenter setting machine with automatic parameter adjustment according to claim 1, characterized in that the output of the first motor (21) is connected to the rotating shaft of the feeding roller (13) through a synchronous belt, the output of the third motor (27) is connected to the rotating shaft of the discharging roller (16) through a synchronous belt, the output of the first weft straightening motor (23) and the output of the second weft straightening motor (26) are connected to the rotating shafts of the two weft straightening rollers (301) through a synchronous belt, the output of the expanding motor (24) is connected to the rotating shaft of the expanding roller (402) through a synchronous belt, and the output of the centering motor (25) is connected to the rotating shaft of the centering roller (403) through a synchronous belt.

7. The tenter setting machine capable of automatically adjusting parameters according to claim 1, characterized in that the drying plate group (7) comprises a first drying plate (701) and a second drying plate (702), the first drying plate (701) is located on top of the second drying plate (702), the first drying plate (701) and the second drying plate (702) are both internally provided with a heating wire (703) through a mounting groove, the outer side of the heating wire (703) is filled with magnesium oxide powder (704), and the outer sides of the first drying plate (701) and the second drying plate (702) are both provided with a silicone rubber layer (705).

8. The tenter setting machine capable of automatically adjusting parameters according to claim 1, characterized in that a temperature controller (41) is installed on one side of the housing (10) through a mounting seat and the detection end of the temperature controller (41) is located inside the housing (10), the temperature controller (41) is electrically connected to the heating wire (703), and the temperature controller (41), the heating wire 703 and the controller (29) are electrically connected.

9. The tenter setting machine with automatic parameter adjustment according to claim 1, the cloth placing frame (8) comprises a cloth placing rod (801), two ends of the cloth placing rod (801) are provided with hydraulic telescopic rods (802), the top of the hydraulic telescopic rod (802) positioned at the upper end of the cloth swinging rod (801) is connected with a rotating shaft (803) and is rotatably connected with the discharging plate (12) through the rotating shaft (803), a rotating gear is arranged on the rotating shaft (803), the rotating gear is connected with a rotating motor, the rotating motor is connected with a controller (29), a cloth dropping box (804) placed on the ground is arranged at the bottom of the cloth swinging rod, the lower end of the cloth swinging rod (801) is provided with a height detector which is connected with a controller (29), and the controller (29) can receive the height detector to detect the height positions of the cloth swinging rod (801) and the bottom surface of the cropping box (804).

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