CN113437839A - Intelligent over-temperature automatic power-off control device for textile motor - Google Patents

Intelligent over-temperature automatic power-off control device for textile motor Download PDF

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Publication number
CN113437839A
CN113437839A CN202110992977.6A CN202110992977A CN113437839A CN 113437839 A CN113437839 A CN 113437839A CN 202110992977 A CN202110992977 A CN 202110992977A CN 113437839 A CN113437839 A CN 113437839A
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shell
module
submodule
temperature
auxiliary
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CN202110992977.6A
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CN113437839B (en
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苏燕
范建勋
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Nantong Santian Textile Co ltd
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Nantong Santian Textile Co ltd
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    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K11/00Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection
    • H02K11/20Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection for measuring, monitoring, testing, protecting or switching
    • H02K11/25Devices for sensing temperature, or actuated thereby
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K11/00Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection
    • H02K11/20Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection for measuring, monitoring, testing, protecting or switching
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K11/00Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection
    • H02K11/20Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection for measuring, monitoring, testing, protecting or switching
    • H02K11/21Devices for sensing speed or position, or actuated thereby
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K11/00Structural association of dynamo-electric machines with electric components or with devices for shielding, monitoring or protection
    • H02K11/30Structural association with control circuits or drive circuits
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K5/00Casings; Enclosures; Supports
    • H02K5/04Casings or enclosures characterised by the shape, form or construction thereof
    • H02K5/10Casings or enclosures characterised by the shape, form or construction thereof with arrangements for protection from ingress, e.g. water or fingers
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K7/00Arrangements for handling mechanical energy structurally associated with dynamo-electric machines, e.g. structural association with mechanical driving motors or auxiliary dynamo-electric machines
    • H02K7/003Couplings; Details of shafts
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K9/00Arrangements for cooling or ventilating
    • H02K9/02Arrangements for cooling or ventilating by ambient air flowing through the machine
    • H02K9/04Arrangements for cooling or ventilating by ambient air flowing through the machine having means for generating a flow of cooling medium
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02KDYNAMO-ELECTRIC MACHINES
    • H02K2213/00Specific aspects, not otherwise provided for and not covered by codes H02K2201/00 - H02K2211/00
    • H02K2213/06Machines characterised by the presence of fail safe, back up, redundant or other similar emergency arrangements

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  • Engineering & Computer Science (AREA)
  • Power Engineering (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Spinning Or Twisting Of Yarns (AREA)

Abstract

The invention discloses an intelligent over-temperature automatic power-off control device for a textile motor, which comprises an intelligent temperature control system, a temperature control machine and a textile base station, and is characterized in that: the temperature control machine comprises a power supply machine, a mechanical claw is arranged on one side of the textile base station, the temperature control machine is fixed on one side of the textile base station, a driven wheel is connected to a central bearing on one side of the textile base station close to the temperature control machine, the upper end and the lower end of the driven wheel are connected with a driving wheel in a meshed mode, one side of the driving wheel is connected with a bearing of the textile base station, a concave hole is formed in the center of the other side of the driving wheel, a factory-shaped auxiliary shell is welded to the right end of the temperature control machine, an output shell is connected to the lower end of the factory-shaped auxiliary shell in a meshed mode through screws, an observation cover is riveted to the center of the top end of the factory-shaped auxiliary shell, and a hole I is formed in one end of the factory-shaped auxiliary shell.

Description

Intelligent over-temperature automatic power-off control device for textile motor
Technical Field
The invention relates to the technical field of textile motors, in particular to an intelligent over-temperature automatic power-off control device for a textile motor.
Background
The iron loss refers to the sum of hysteresis loss and eddy current loss of ferromagnetic materials in alternating and pulsating magnetic fields per unit mass, in a textile production workshop, for a larger processing machine, for example, a warp machine needs a larger textile motor to drive, dozens of textile motors generally exist in the textile workshop, the heating of the textile motor is more often caused, the temperature in the workshop is increased, the air-conditioning cooling temperature in the workshop cannot keep up with the generated heat of the textile motor, not only can the textile motor be greatly damaged, but also the generated heat can influence the body health of an operator, the textile motor with overhigh working temperature is shut down for natural cooling or manual cooling, the working production efficiency can be greatly reduced for a textile factory falling around the clock, therefore, the design is used for cooling the textile motor during working, and when the temperature is overhigh, a standby shaft is used for continuously working during the intelligent type automatic power-off control device for the textile motor It is necessary.
Disclosure of Invention
The invention aims to provide an intelligent over-temperature automatic power-off control device for a textile motor, so as to solve the problems in the background technology.
In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides an intelligent high auto-power-off control device of temperature for weaving motor, includes intelligent temperature control system, temperature control machine and weaving base station, its characterized in that: the temperature control machine comprises a power supply machine, one side of the textile base station is provided with a mechanical claw, the temperature control machine is fixed on one side of the textile base station, one side central bearing of the textile base station close to the temperature control machine is connected with a driven wheel, the upper end and the lower end of the driven wheel are all meshed with a driving wheel, one side of the driving wheel is connected with the textile base station bearing, and a concave hole is formed in the center of the other side of the driving wheel.
According to the technical scheme, the right end of the power supply machine is welded with a factory-shaped auxiliary shell, the lower end of the factory-shaped auxiliary shell is connected with an output shell through screw engagement, the center of the top end of the factory-shaped auxiliary shell is riveted with an observation cover, one end of the factory-shaped auxiliary shell is provided with a hole I, an auxiliary shaft is connected inside the first hole in a sliding manner, a clamping strip is connected outside the auxiliary shaft in a sliding manner, one end of the auxiliary shaft close to the factory-shaped auxiliary shell is connected with a first base through a bearing, one end of the factory-shaped auxiliary shell is positioned at one side of the first hole and is fixedly connected with an air pipe through a nut, one end of the factory-shaped auxiliary shell, which is far away from the first hole, is provided with a second hole, the inner side of the second hole is connected with an air pipe, and a steering valve and a small suction machine are arranged on a connecting pipeline between the second hole and the air pipe, the air pipe is a telescopic pipe, and temperature sensors are arranged at the top end of the factory-shaped auxiliary shell and the bottom end of the inner part of the output shell.
According to the technical scheme, an air inlet is formed in the bottom end of the output shell, a baffle is connected in the air inlet in a sliding mode, a switching shell is fixed on one side of the output shell, a fixing plate is arranged on one side of the switching shell, a third hole is formed in the center of the fixing plate, a main shaft is connected on the inner side of the third hole in a sliding mode, the structure of the main shaft is the same as that of an auxiliary shaft, one end of the main shaft penetrates through the switching shell and is located inside the output shell, a second base is connected to a bearing at one end of the main shaft located inside the output shell, a single-pole double-throw switch is connected between the first base and the second base through a lead and is fixed inside the output shell, the single-pole double-throw switch is electrically connected with a power supply, threaded holes are uniformly formed in the outer side of the third hole in the fixing plate, the four corners of the fixing plate are respectively fixed with a clamping block, a groove is formed in each clamping block, a short rod is connected in each groove in a sliding mode, four notches are formed in one side of the textile base platform, and the four notches are distributed in one-to-one correspondence with the clamping blocks.
According to the technical scheme, square openings are formed in the joint of the bottom end of the factory-type auxiliary shell and the top end of the output shell, the two square openings are the same in size, sliding grooves are formed in the two sides of the inner wall of the output shell, a maintenance box and a recovery box are connected to the two sliding grooves in a sliding mode respectively, a first connecting plate and a second connecting plate are welded to one sides of the top ends of the maintenance box and the recovery box respectively, sliding strips are arranged on the left end face of the maintenance box and the right end face of the recovery box respectively, a first guide shell is fixed above the left end of the maintenance box, an oil pipe is fixed inside the first guide shell, the bottom end of the oil pipe is located inside the maintenance box, maintenance oil is arranged inside the maintenance box, a connecting rod is fixed to one side of the first guide shell at the top end of the maintenance box, an extraction assembly is fixed to the other end of the connecting rod and comprises a shell, one side of the shell is fixed to the first connecting plate, the top end bearing of the shell is connected with a short shaft, one end of the short shaft is connected with a bearing of a connecting plate, a short rod is fixed at the other end of the short shaft, a connector is connected with the other end bearing of the short rod, the center of the shell is hollow, a closed cylinder is connected with the center of the shell in a sliding manner, a cylindrical channel is arranged on one side of the closed cylinder, a pumping rod is connected in the cylindrical channel in a sliding manner, the top end of the pumping rod is fixed with the bottom end of the connector, two short channels are correspondingly arranged on the left side and the right side of the bottom end of the shell close to the cylindrical channel, the short channels on the left side are sleeved with the top end of an oil pipe, a first spherical hollow ball support is fixed at the top end of the right side of the maintenance box, a plurality of guide pipes are sleeved on the right side of the first spherical hollow ball support, fine holes are welded at the right ends of the guide pipes, and a guide pipe is arranged on the outer wall of the hollow ball support, the utility model discloses a maintenance box, including casing, first casing, spherical support, delivery tube, a plurality of pipes, maintenance box, the delivery tube runs through spherical support one, the left end of delivery tube cup joints on the right side short road of casing bottom, the other end of delivery tube divide into a plurality of sections and is located a plurality of pipes inside, a plurality of the pipe points to the tangential direction of main shaft and auxiliary shaft, be fixed with square shell one on the right-hand member face of maintenance box.
According to the technical scheme, a second guide shell is fixed at the top end of the right side of the recovery box, a recovery pipe is arranged in the second guide shell, the bottom end of the recovery pipe is positioned in the recovery box, the other end of the recovery pipe is divided into two sections, a short plate is fixed below the two sections of recovery pipe, a hose is arranged between the two sections of recovery pipe, a rotating shaft is arranged above the hose and is connected with a second connecting plate bearing, a circular plate is fixed at the outer side of the rotating shaft, three extrusion balls are uniformly welded on the circular plate, a second spherical support is sleeved at the top end of the recovery pipe, an absorption pipe is sleeved at the left end of the second spherical support, a second square shell is fixed at one side of the second connecting plate and is positioned above the absorption pipe, the first square shell and the second square shell have the same size, and sponge blocks are arranged in the first square shell and the second square shell, the cross section area of the sponge block is larger than that of the square shell I and the square shell II.
According to the technical scheme, the intelligent temperature control system comprises a driving subsystem, a detection subsystem, a protection subsystem and an auxiliary subsystem;
the drive subsystem is used for controlling the start and stop of the output of the power supply machine, the detection system is used for detecting the change condition of the temperature inside and outside the temperature control machine at present, the protection subsystem is used for automatically protecting the temperature control machine when the temperature of the temperature control machine is overheated, and the auxiliary subsystem is used for carrying out overheating protection on the device and simultaneously does not influence normal work.
According to the technical scheme, the driving subsystem comprises a control module and a switching module, the switching module is electrically connected with the single-pole double-throw switch, the control module is electrically connected with the mechanical claw, the detection subsystem comprises a monitoring module, the protection subsystem comprises a pre-starting module and an opening and closing module, the auxiliary subsystem comprises a moving module, and the moving module is electrically connected with the maintenance box and the recovery box;
the control module is used for controlling the mechanical claw to vertically move, the temperature control machine is clamped by the mechanical claw and the position of the temperature control machine is adjusted, the switching module is used for adjusting the closing direction of the single-pole double-throw switch and providing the output power of the power supply machine for the main shaft and the auxiliary shaft, the monitoring module is used for monitoring various numerical values of the temperature control machine, the opening and closing module is used for controlling the conduction of an air pipe, and the moving module is used for adjusting the positions of the maintenance box and the recovery box.
According to the technical scheme, the control module comprises a placing sub-module, the placing sub-module is electrically connected with the mechanical claw, the switching module comprises a linkage sub-module and an air pumping sub-module, the linkage sub-module of the linkage sub-module is electrically connected with the first base and the second base, the air pumping sub-module is electrically connected with the small-sized suction machine, the monitoring module comprises an external temperature monitoring sub-module, an internal temperature monitoring sub-module and an operation time monitoring sub-module, the external temperature monitoring sub-module and the internal temperature monitoring sub-module are respectively electrically connected with two temperature sensors, the pre-starting module comprises a comparison sub-module, the comparison sub-module is electrically connected with the external temperature monitoring sub-module and the internal temperature monitoring sub-module, the opening and closing module comprises an injection adjusting sub-module, the adjusting sub-module is electrically connected with the steering valve and the baffle, and the moving module comprises a speed measuring sub-module, the speed measuring sub-module is electrically connected with the main shaft and the auxiliary shaft respectively;
the placing submodule is used for controlling the transverse forward and backward movement of the mechanical claw, the clamping block is aligned to the notch, the linkage submodule is electrically connected with the switching module, when the switching module controls the single-pole double-throw switch to supply power to the main shaft or the auxiliary shaft, the linkage module controls the corresponding first base or the corresponding second base to stretch out, the air pumping submodule is used for starting the small-sized suction machine to pump out outside air, the outside air is blown out through a pipeline, the outside temperature monitoring submodule is used for monitoring the temperature above the outside of the temperature control machine, the inside temperature monitoring submodule is used for monitoring the inside temperature of the factory-type auxiliary shell and the output shell, the operation time monitoring submodule is used for calculating the rotation time of the main shaft and the auxiliary shaft, the comparison submodule is used for comparing the ratio of the inside temperature of the factory-type auxiliary shell and the output shell and the temperature above the outside of the temperature control machine, and the adjusting submodule is used for adjusting the conduction direction of the steering valve and the opening and closing of the baffle plate, the speed measuring submodule is used for measuring the number of revolutions per second after the main shaft and the auxiliary shaft are separated from the driving wheel.
According to the technical scheme, the placing submodule comprises a clamping unit, the linkage submodule comprises a limiting unit, the air exhaust submodule comprises a guiding unit, the comparison submodule comprises a rotating unit and a recovery unit, the adjusting submodule comprises a switching unit, and the speed measuring submodule comprises a first starting unit and a second starting unit;
the clamping unit is used for controlling the extension of the short rod, the limiting unit is used for controlling the extension of the clamping strip, the guiding unit is used for controlling the extension of the air pipe, the rotating unit is used for temporarily providing driving force for the main shaft and the auxiliary shaft, the recycling unit is used for recycling the slow rotating speed of the main shaft and the auxiliary shaft, the switching unit is used for switching the extracting direction of the small-sized suction machine, the first starting unit is used for controlling the short shaft to rotate, and the second starting unit is used for controlling the rotation of the rotating shaft.
According to the technical scheme, the output shell is divided into three parts, namely a front part, a middle part and a rear part, wherein the front part is fixed to one end of the output shell, the middle part is in a U shape, the middle part is connected with the front part and the rear part in a sliding mode, the front part and the rear part are connected with the factory-shaped auxiliary shell through screw engagement, and the middle part is connected with the bottom end of the factory-shaped auxiliary shell in a clamping mode.
Compared with the prior art, the invention has the following beneficial effects: according to the invention, the intelligent temperature control system, the temperature control machine and the internal components thereof are arranged, so that the temperature change of the temperature control machine is monitored in real time in the working process of the temperature control machine, when the temperature reaches a set value, the standby shaft is started to work, and meanwhile, the overheating shaft is withdrawn to cool the standby shaft, so that the production efficiency loss of shutdown cooling is reduced.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic overall elevational cross-sectional structural view of the present invention;
FIG. 2 is a schematic perspective view of a textile base station and a temperature control machine matching device of the present invention;
FIG. 3 is a schematic front cross-sectional view of the service and recovery tanks of the present invention;
fig. 4 is a schematic perspective view of the extraction assembly of the present invention;
FIG. 5 is a schematic diagram of an intelligent temperature control system module of the present invention;
FIG. 6 is a schematic view of the two operating states of the extraction assembly of the present invention;
FIG. 7 is a schematic view of the textile base and the fixing plate of the present invention;
in the figure: 1. a temperature control machine; 2. a factory-type auxiliary shell; 3. an observation cover; 4. an output housing; 5. a transfer shell; 6. a fixing plate; 7. a main shaft; 8. an auxiliary shaft; 9. clamping the strip; 10. an air tube; 11. a textile base station; 12. a driving wheel; 13. a driven wheel; 14. a maintenance box; 15. a first guide shell; 16. an oil pipe; 17. a first spherical bracket; 18. an extraction assembly; 181. a minor axis; 182. a housing; 183. a short connecting rod; 184. a connector; 185. drawing the row rods; 186. a closed cartridge; 19. a conduit; 20. a first square shell; 22. a recycling bin; 23. a second guide shell; 24. a recovery pipe; 25. a short plate; 26. a rotating shaft; 27. extruding the ball; 29. a second spherical bracket; 30. an absorber tube.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides an intelligent high auto-power-off control device of temperature for weaving motor, includes intelligent temperature control system, temperature control machine 1 and weaving base station 11, its characterized in that: the temperature control machine 1 comprises a power supply machine, a mechanical claw is arranged on one side of the textile base station 11, the temperature control machine 1 is fixed on one side of the textile base station 11, a driven wheel 13 is connected to a central bearing on one side of the textile base station 11 close to the temperature control machine 1, the upper end and the lower end of the driven wheel 13 are respectively connected with a driving wheel 12 in a meshed mode, one side of the driving wheel 12 is connected with the textile base station 11 through a bearing, and a concave hole is formed in the center of the other side of the driving wheel 12;
the right end of the power supply machine is welded with a factory-type auxiliary shell 2, the lower end of the factory-type auxiliary shell 2 is connected with an output shell 4 through screw meshing, the center of the top end of the factory-type auxiliary shell 2 is riveted with an observation cover 3, one end of the factory-type auxiliary shell 2 is provided with a first hole, the inside of the first hole is connected with an auxiliary shaft 8 in a sliding mode, the outer side of the auxiliary shaft 8 is connected with a clamping strip 9 in a sliding mode, one end of the auxiliary shaft 8, close to the factory-type auxiliary shell 2, is connected with a first base through a bearing, one end of the factory-type auxiliary shell 2, located on one side of the first hole, is fixedly connected with an air pipe 10 through a nut, one end of the factory-type auxiliary shell 2, far away from the first hole, is provided with a second hole, the inner side of the second hole is connected with an air pipe 10 through a pipeline, a steering valve and a small suction machine are arranged on a connecting pipeline between the second hole and the air pipe 10, the air pipe 10 is a telescopic pipe, and temperature sensors are arranged on the top end of the factory-type auxiliary shell 2 and the bottom end inside of the output shell 4;
an air inlet is arranged at the bottom end of an output shell 4, a baffle is connected in the air inlet in a sliding manner, a switching shell 5 is fixed at one side of the output shell 4, a fixing plate 6 is arranged at one side of the switching shell 5, a third hole is arranged in the center of the fixing plate 6, a main shaft 7 is connected in a sliding manner at the inner side of the third hole, the structure of the main shaft 7 is the same as that of an auxiliary shaft 8, one end of the main shaft 7 penetrates through the switching shell 5 and is positioned in the output shell 4, one end of the main shaft 7 positioned in the output shell 4 is connected with a second base through a bearing, a single-pole double-throw switch is connected between the first base and the second base through a lead wire and is fixed in the output shell, the single-pole double-throw switch is electrically connected with a power supply, threaded holes are uniformly arranged at the outer side of the third hole on the fixing plate 6, screws are connected in the threaded holes in an engaging manner, one end of the screws penetrate through the threaded holes and are positioned in the switching shell 5, and clamping blocks are fixed at four corners of the fixing plate 6, the fixture block is provided with a groove, the groove is connected with a short rod in a sliding manner, one side of the textile base 11 is provided with four notches, and the four notches are distributed in one-to-one correspondence with the fixture block;
the junction between the bottom end of the factory-type auxiliary shell 2 and the top end of the output shell 4 is provided with square openings, the two square openings are the same in size, sliding grooves are formed in two sides of the inner wall of the output shell 4, a maintenance box 14 and a recovery box 22 are respectively connected to the two sliding grooves in a sliding mode, a first connecting plate and a second connecting plate are respectively welded to one side of the top ends of the maintenance box 14 and the recovery box 22, sliding strips are respectively arranged on the left end face of the maintenance box 14 and the right end face of the recovery box 22, a first guide shell 15 is fixed above the left end of the maintenance box 14, an oil pipe 16 is fixed inside the first guide shell 15, the bottom end of the oil pipe 16 is located inside the maintenance box 14, maintenance oil is arranged inside the maintenance box 14, a connecting rod is fixed to one side of the first guide shell 15 at the top end of the maintenance box 14, an extraction assembly 18 is fixed to the other end of the connecting rod, the extraction assembly 18 comprises a shell 182, one side of the shell 182 is fixed to the first connecting plate, a top end bearing of the shell 182 is connected with a short shaft 181, one end of the short shaft 181 is connected with a bearing of the connecting plate, the other end of the short shaft 181 is fixed with a short connecting rod 183, the other end of the short connecting rod 183 is connected with a connecting head 184 through a bearing, the center of the shell 182 is hollow, the center of the shell 182 is connected with a closed cylinder 186 in a sliding manner, one side of the closed cylinder 186 is provided with a cylindrical channel, a pumping rod 185 is connected in the cylindrical channel in a sliding manner, the top end of the pumping rod 185 is fixed with the bottom end of the connecting head 184, two short channels are correspondingly arranged on the left and right sides of the bottom end of the shell 182 close to one side of the cylindrical channel, the short channel on the left side is sleeved with the top end of the oil pipe 16, the top end of the right side of the maintenance box 14 is fixed with a spherical support 17, the right side of the spherical support 17 is sleeved with a plurality of guide pipes 19, hollow balls are welded at the right ends of the plurality of the guide pipes 19, pores are arranged on the outer wall of the spherical support 17, the guide pipes penetrate through the spherical support 17, the left end of the guide pipes is sleeved on the short channel on the right side of the bottom end of the shell 182, the other end of the delivery pipe is divided into a plurality of sections and is positioned inside a plurality of guide pipes 19, the guide pipes 19 point to the tangential direction of the main shaft 7 and the auxiliary shaft 8, and a square shell I20 is fixed on the right end face of the maintenance box 14;
a second guide shell 23 is fixed at the top end of the right side of the recovery box 22, a recovery pipe 24 is arranged inside the second guide shell 23, the bottom end of the recovery pipe 24 is located inside the recovery box 22, the other end of the recovery pipe 24 is divided into two sections, a short plate 25 is fixed below the two sections of recovery pipe 24, a hose is arranged between the two sections of recovery pipe 24, a rotating shaft 26 is arranged above the hose, the rotating shaft 26 is connected with a second connecting plate bearing, a circular plate is fixed on the outer side of the rotating shaft 26, three extrusion balls 27 are uniformly welded on the circular plate, a second spherical support 29 is sleeved at the top end of the recovery pipe 24, an absorption pipe 30 is sleeved at the left end of the second spherical support 29, a second square shell is fixed at one side of the second connecting plate above the absorption pipe 30, the first square shell 20 and the second square shell are consistent in size, sponge blocks are arranged inside the first square shell 20 and the second square shell, and the cross-sectional area of the sponge blocks is larger than that of the first square shell 20 and the second square shell;
the intelligent temperature control system comprises a driving subsystem, a detection subsystem, a protection subsystem and an auxiliary subsystem;
the driving subsystem is used for controlling the starting and stopping of the output of the power supply machine, the detection system is used for detecting the change condition of the internal temperature and the external temperature of the current temperature control machine 1, the protection subsystem is used for automatically protecting the temperature control machine 1 when the temperature is overheated, and the auxiliary subsystem is used for carrying out overheating protection on the device and simultaneously does not influence the normal work;
the driving subsystem comprises a control module and a switching module, the switching module is electrically connected with the single-pole double-throw switch, the control module is electrically connected with the mechanical claw, the detection subsystem comprises a monitoring module, the protection subsystem comprises a pre-starting module and an opening and closing module, the auxiliary subsystem comprises a moving module, and the moving module is electrically connected with the maintenance box 14 and the recovery box 22;
the control module is used for controlling the mechanical claw to move up and down longitudinally, the mechanical claw is used for clamping the temperature control machine 1 and adjusting the position of the temperature control machine 1, the switching module is used for adjusting the closing direction of the single-pole double-throw switch and supplying the output power of the power supply machine 1 to the main shaft 7 and the auxiliary shaft 8, the monitoring module is used for monitoring various numerical values of the temperature control machine 1, the opening and closing module is used for controlling the conduction of the air pipe 10, and the moving module is used for adjusting the positions of the maintenance box 14 and the recovery box 22;
the control module comprises a placing sub-module, the placing sub-module is electrically connected with the mechanical claw, the switching module comprises a linkage sub-module and an air pumping sub-module, the linkage sub-module is electrically connected with a first base and a second base, the air pumping sub-module is electrically connected with the small-sized suction machine, the monitoring module comprises an external temperature monitoring sub-module, an internal temperature monitoring sub-module and an operation time monitoring sub-module, the external temperature monitoring sub-module and the internal temperature monitoring sub-module are respectively electrically connected with two temperature sensors, the pre-starting module comprises a comparison sub-module, the comparison sub-module is electrically connected with the external temperature monitoring sub-module and the internal temperature monitoring sub-module, the switching module comprises an injection adjusting sub-module, the adjusting sub-module is electrically connected with a steering valve and a baffle, the moving module comprises a speed measuring sub-module, and the speed measuring sub-module is respectively electrically connected with a main shaft 7 and an auxiliary shaft 8;
the placing submodule is used for controlling the transverse forward and backward movement of the mechanical claw, the clamping block is aligned to the notch, the linkage submodule is electrically connected with the switching module, when the switching module controls the single-pole double-throw switch to supply power to the main shaft or the auxiliary shaft, the linkage module controls the corresponding first base or the corresponding second base to stretch out, the air pumping submodule is used for starting the small-sized suction machine to pump out outside air, the outside air is blown out of the air pipe 10 through the pipeline, the outside temperature monitoring submodule is used for monitoring the temperature above the outside of the temperature control machine 1, the inside temperature monitoring submodule is used for monitoring the inside temperatures of the factory-type auxiliary shell 2 and the output shell 4, the operation time monitoring submodule is used for calculating the rotation time of the main shaft 7 and the auxiliary shaft 8, and the comparison submodule is used for comparing the ratio of the inside temperatures of the factory-type auxiliary shell 2 and the output shell 4 to the temperature above the outside of the temperature control machine 1, the adjusting submodule is used for adjusting the conducting direction of the steering valve and the opening and closing of the baffle, and the speed measuring submodule is used for measuring the number of turns per second after the main shaft 7 and the auxiliary shaft 8 are separated from the driving wheel 12;
the placing submodule comprises a clamping unit, the linkage submodule comprises a limiting unit, the air exhaust submodule comprises a guiding unit, the comparison submodule comprises a rotating unit and a recovery unit, the adjusting submodule comprises a switching unit, and the speed measuring submodule comprises a first starting unit and a second starting unit;
the clamping unit is used for controlling the extension of the short rod, the limiting unit is used for controlling the extension of the clamping strip 9, the guiding unit is used for controlling the extension of the air pipe 10, the rotating unit is used for temporarily providing driving force for the main shaft 7 and the auxiliary shaft 8, the recovering unit is used for recovering the reduced rotating speed of the main shaft 7 and the auxiliary shaft 8, the switching unit is used for switching the extraction direction of the small-sized suction machine, the first starting unit is used for controlling the short shaft 181 to rotate, and the second starting unit is used for controlling the rotation of the rotating shaft 26;
the output shell 4 is divided into three parts, namely a front part, a middle part and a rear part, one end of the front output shell 4 is fixed with the switching shell 5, the middle output shell 4 is U-shaped, the middle output shell 4 is connected with the front output shell 4 and the rear output shell 4 in a sliding mode, the top ends of the front output shell 4 and the rear output shell 4 are connected with the factory-shaped auxiliary shell 2 through screw meshing, and the middle output shell 4 is clamped with the bottom end of the factory-shaped auxiliary shell 2.
The working principle is as follows: in the invention, the existing textile motor is reformed, and a textile base station matched with the existing textile motor is adopted for working, and the specific working flow is as follows: the temperature control machine is arranged below the mechanical claw (the mechanical claw and the temperature control machine are positioned at the same side of the textile base station), the temperature control machine is grabbed by the control module to move upwards, a clamping block is aligned to a notch, the transverse movement of the mechanical claw is controlled by the placement sub-module, the clamping block on the temperature control machine is pushed into the notch, meanwhile, the clamping unit starts to push out a short rod in the clamping block to stretch out, so that the temperature control machine is stably installed at one side of the textile base station, the temperature control machine is started after the temperature control machine is installed, the switching module adjusts the single-pole double-throw switch to supply power to the main shaft to drive the main shaft to rotate clockwise, meanwhile, the sub-module control base II is linked to stretch out, the main shaft stretches out, the main shaft enters into a central concave hole of the driving wheel below, after the main shaft enters, the limiting unit starts to enable clamping strips outside the main shaft to lose the limiting stretch out, as can be known from figure 2, notches which are arranged at the upper side and the lower side of the central concave hole of the driving wheel and the clamping strips, the clamping strip extends out under the control of the limiting unit and then rotates along with the main shaft, if the clamping strip does not enter the notch at the moment, the main shaft can still drive the driving wheels to rotate, but the clamping strip and the driving wheels can generate relative slipping along with the increase of the speed, then the strip is clamped into the notch, the main shaft drives the driving wheels to rotate, a driven wheel is meshed and connected between the two driving wheels, so that the rotating directions of the two driving wheels are consistent, the clamping strip can be used for transmission on a textile production line or other items such as rotating hank yarns, the main shaft rotates along with the main shaft, the air pumping submodule starts a small-sized suction machine, the switching valve, the hole two and the air pipe are pumped at the moment when the air is pumped through the hole two, the external air is pumped and led out from the air pipe, the air pipe is positioned at one side of the textile base station, the air blowing pipe impacts the side surface of the textile base station, and the air is scattered at impact points to blow air to cool the driving wheels and the driven wheels driven by the main shaft and the main shaft, the external and internal temperature monitoring sub-modules monitor and record the temperature change above the outside and inside of the temperature control machine in real time, the comparison sub-module automatically compares two temperatures, when the internal temperature is gradually increased to the value twice the external temperature or the main shaft continuously runs for 12 hours (two shifts can be set for 12 hours according to the working time of workers in a textile factory, and three shifts can be set for 8 hours), the rotating unit is started to enable the auxiliary shaft to rotate and accelerate, the switching module stops providing driving force for the main shaft, the single-pole double-throw switch is controlled to be closed towards the other side, the single-pole double-throw switch is turned to provide driving force for the auxiliary shaft, the recovery unit recovers the main shaft into the output shell, the linkage sub-module controls the second base to extend out, the auxiliary shaft to extend out, the system repeats the operation mode when the main shaft extends out, the switching module is started to enable the air pipe not to be conducted any more after the main shaft is recovered, the sub-module rotates the switching valve and the baffle plate is opened, the switching unit switches the pumping direction of the small-sized suction machine, heat generated by rotation of the main shaft in the output shell is extracted and exhausted from the hole II, the generated hot air is exhausted and is positioned on the upper layer in a workshop space, the relative temperature of air below the output shell is balanced, the baffle is opened, the hole III is communicated, the air with lower temperature below the output shell is extracted and enters the output shell to circularly cool the internal temperature of the output shell, the moving module is used for controlling the maintenance box and the recovery box to slide up and down on the inner wall of the output shell, for example, the main shaft is recovered, the two slide to the left side and the right side of the main shaft, the speed measuring sub-module monitors the rotation speed of the main shaft after losing power, when the rotation speed of the main shaft is reduced to 180r/min, the first starting unit and the second starting unit are started, the short shaft rotates to drive the short connecting rod to rotate, the short chain connecting rod drives the connecting head connected with the bearing of the short chain connecting rod and the pumping rod, the pumping rod slides with the closed cylinder in the process of excursion to drive the closed cylinder to perform reciprocating excursion motion in the center of the shell, when the pumping rod moves to a state 1 in fig. 6 at the moment, negative pressure suction force is generated in the oil pipe to pump out the maintenance oil in the maintenance box, the pumped maintenance oil is extruded into the guide pipe along with the operation of the pumping component to a state 2 in fig. 6, the maintenance oil is discharged from the fine holes in the hollow ball at the top end of the guide pipe, as can be known from fig. 3, when the main shaft rotates, the sponge block on the right side of the maintenance box generates friction with the main shaft and is positioned at the right lower part of the hollow ball so as to prevent the maintenance liquid sprayed on the main shaft last time from being used up, the maintenance oil is sprayed on the outer side of the main shaft again to cause the accumulation of the maintenance oil on the outer side of the main shaft, and after the main shaft is inserted into the main shaft at the next time, the accumulated maintenance oil overflows to pollute a textile base station, the sponge block is used for wiping redundant maintenance oil to ensure that the maintenance oil is evenly smeared on the outer side of the main shaft, the sponge block above the right side of the recovery box is used for contacting the main shaft when the main shaft rotates, the sponge block enables external dust to be accumulated on the outer side of the main shaft due to the fact that the external air is extracted in the previous step and cooled, (the distance between the two sponge blocks and the main shaft is inconsistent, the distance between the sponge block on the right side of the maintenance box and the main shaft is 2-3mm, the distance between the sponge block at the top end of the recovery box and the main shaft is 1-2 mm), the rotating shaft rotates to drive the outer circular plate and the extrusion balls to rotate to extrude a hose below, as can be seen in figure 3, the top end of the recovery box is closed, at the moment, one of the extrusion balls extrudes the hose, when the extrusion balls rotate away, the hose rebounds to generate suction force, and dust and micro particles scraped by the sponge block are absorbed and discharged into the recovery box, because the sponge block at the top end of the recovery box is closer to the main shaft, after particulate matters and dust are absorbed, the sponge block at the top end of the recovery box can spread and flatten the maintenance oil extruded from the guide pipes outside the main shaft so as to fill the gap between every two guide pipes, so that the maintenance oil can be smeared on the gap.
It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
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 (6)

1. The utility model provides an excessive auto-power-off controlling means of intelligent temperature for weaving motor, includes intelligent temperature control system, temperature control machine (1) and weaving base station (11), its characterized in that: the temperature control machine (1) comprises a power supply machine, a mechanical claw is arranged on one side of the textile base (11), the temperature control machine (1) is fixed on one side of the textile base (11), a driven wheel (13) is connected to the central bearing of one side, close to the temperature control machine (1), of the textile base (11), the upper end and the lower end of the driven wheel (13) are respectively connected with a driving wheel (12) in a meshed mode, one side of the driving wheel (12) is connected with the bearing of the textile base (11), and a concave hole is formed in the center of the other side of the driving wheel (12);
the right-hand member welding of power supply machine has factory type auxiliary housing (2), the lower extreme of factory type auxiliary housing (2) is connected with output shell (4) through screw engagement, one side of output shell (4) is fixed with and connects shell (5), one side of switching shell (5) is provided with fixed plate (6), the central authorities of fixed plate (6) are seted up porosely three, three inboard sliding connection in hole has main shaft (7), the inner wall both sides of output shell (4) all are provided with the spout, two be sliding connection respectively on the spout have maintenance case (14) and collection box (22), the top central authorities of factory type auxiliary housing (2) are riveted with observation lid (3), the one end of factory type auxiliary housing (2) is seted up porosely one, the inside sliding connection in hole one has auxiliary shaft (8), the outside sliding connection of auxiliary shaft (8) has card strip (9), a bearing at one end, close to the factory-type auxiliary shell (2), of the auxiliary shaft (8) is connected with a first base, one end, located at one side of the first hole, of the factory-type auxiliary shell (2) is fixedly connected with an air pipe (10) through a nut, a second hole is formed in one end, far away from the first hole, of the factory-type auxiliary shell (2), the inner side of the second hole is connected with the air pipe (10) through a pipeline, a steering valve and a small suction machine are arranged on a connecting pipeline between the second hole and the air pipe (10), the air pipe (10) is a telescopic pipe, and temperature sensors are arranged at the top end of the factory-type auxiliary shell (2) and the inner bottom end of the output shell (4);
the intelligent temperature control system comprises a driving subsystem, a detection subsystem, a protection subsystem and an auxiliary subsystem;
the driving subsystem is used for controlling the starting and stopping of the output of the power supply machine, the detection system is used for detecting the change condition of the temperature inside and outside the temperature control machine (1), the protection subsystem is used for automatically protecting the temperature control machine (1) when the temperature is overheated, and the auxiliary subsystem is used for carrying out overheating protection on the device and simultaneously does not influence the normal work;
the driving subsystem comprises a control module and a switching module, the switching module is electrically connected with the single-pole double-throw switch, the control module is electrically connected with the mechanical claw, the detection subsystem comprises a monitoring module, the protection subsystem comprises a pre-starting module and an opening and closing module, the auxiliary subsystem comprises a moving module, and the moving module is electrically connected with the maintenance box (14) and the recovery box (22);
the control module is used for controlling the mechanical claw to move up and down longitudinally, the mechanical claw is used for clamping the temperature control machine (1) and adjusting the position of the temperature control machine, the switching module is used for adjusting the closing direction of the single-pole double-throw switch and supplying the output power of the power supply machine to the main shaft (7) and the auxiliary shaft (8), the monitoring module is used for monitoring various numerical values of the temperature control machine (1), the opening and closing module is used for controlling the conduction of the air pipe (10), and the moving module is used for adjusting the positions of the maintenance box (14) and the recovery box (22);
the control module is including placing the submodule piece, place the submodule piece and be connected with the gripper electricity, the switching module includes linkage submodule piece and the submodule piece of bleeding, the linkage submodule piece is connected with base one, two electricity on the base, the submodule piece of bleeding is connected with small-size suction machine electricity, the monitoring module includes outside temperature monitoring submodule piece, inside temperature monitoring submodule piece and operating duration monitoring submodule piece, outside temperature monitoring submodule piece, inside temperature monitoring submodule piece are connected with two temperature sensor electricity respectively, the module of starting in advance includes the contrast submodule piece, the contrast submodule piece is connected with outside temperature monitoring submodule piece, inside temperature monitoring submodule piece electricity, the module that opens and shuts is including spouting the adjustment submodule piece, the adjustment submodule piece is connected with diverter valve, baffle electricity, the removal module includes the submodule piece that tests the speed, the submodule piece that tests the speed respectively with main shaft (7), The auxiliary shaft (8) is electrically connected;
the placing submodule is used for controlling the transverse forward and backward movement of the mechanical claw, the clamping block is aligned to the notch, the linkage submodule is electrically connected with the switching module, when the switching module controls the single-pole double-throw switch to supply power to the main shaft or the auxiliary shaft, the linkage module controls the corresponding first base or the corresponding second base to stretch out, the air pumping submodule is used for starting the small-sized suction machine to pump outside air and blow the air out of the air pipe (10) through a pipeline, the external temperature monitoring submodule is used for monitoring the temperature above the outside of the temperature control machine (1), the internal temperature monitoring submodule is used for monitoring the internal temperatures of the factory-type auxiliary shell (2) and the output shell (4), the operation time monitoring submodule is used for calculating the rotation time of the main shaft (7) and the auxiliary shaft (8), and the comparison submodule is used for comparing the ratio of the internal temperatures of the factory-type auxiliary shell (2) and the output shell (4) to the temperature above the outside of the temperature control machine (1), the adjusting submodule is used for adjusting the conduction direction of the steering valve and the opening and closing of the baffle, and the speed measuring submodule is used for measuring the number of rotations per second after the main shaft (7) and the auxiliary shaft (8) are separated from the driving wheel (12).
2. The intelligent over-temperature automatic power-off control device for the textile motor as claimed in claim 1, wherein: an air inlet is formed in the bottom end of the output shell (4), a baffle is connected in the air inlet in a sliding manner, the structure of the main shaft (7) is the same as that of the auxiliary shaft (8), one end of the main shaft (7) penetrates through the transfer shell (5) and is positioned inside the output shell (4), one end of the main shaft (7) positioned inside the output shell (4) is connected with a second base through a bearing, a single-pole double-throw switch is connected between the first base and the second base through a lead and fixed in the output shell (4), the single-pole double-throw switch is electrically connected with a power supply, threaded holes are uniformly formed in the outer side of a third upper hole of the fixing plate (6), screws are connected in an engaged manner in the threaded holes, one end of each screw penetrates through the threaded holes and is positioned inside the transfer shell (5), clamping blocks are fixed at four corners of the fixing plate (6), and grooves are formed in the clamping blocks, the groove is internally provided with a short rod in sliding connection, one side of the textile base platform (11) is provided with four notches, and the four notches are distributed in one-to-one correspondence with the clamping blocks.
3. The intelligent over-temperature automatic power-off control device for the textile motor as claimed in claim 2, wherein: the connecting part of the bottom end of the factory-type auxiliary shell (2) and the top end of the output shell (4) is provided with square openings, the two square openings are the same in size, one side of the top ends of the maintenance box (14) and the recovery box (22) is respectively welded with a first connecting plate and a second connecting plate, sliding strips are arranged on the left end face of the maintenance box (14) and the right end face of the recovery box (22), a first guide shell (15) is fixed above the left end of the maintenance box (14), an oil pipe (16) is fixed inside the first guide shell (15), the bottom end of the oil pipe (16) is positioned inside the maintenance box (14), maintenance oil is arranged in the maintenance box (14), a connecting rod is fixed on one side of the top end of the maintenance box (14) positioned on the first guide shell (15), an extraction component (18) is fixed at the other end of the connecting rod, and the extraction component (18) comprises a shell (182), one side of casing (182) is fixed with connecting plate one, the top end bearing of casing (182) is connected with minor axis (181), the one end and the connecting plate bearing of minor axis (181) are connected, the other end of minor axis (181) is fixed with short connecting rod (183), the other end bearing of short connecting rod (183) is connected with connector (184), the central authorities of casing (182) are hollow, the central sliding connection of casing (182) has a sealed section of thick bamboo (186), the cylinder passageway has been seted up to one side of sealed section of thick bamboo (186), sliding connection has row pole (185) in the cylinder passageway, the top and the connector (184) bottom mounting of row pole (185) take out, the bottom of casing (182) is close to one side of cylinder passageway and corresponds about and has seted up two short tracts, the left side the short tract cup joints with the top of oil pipe (16), the right side top of maintenance case (14) is fixed with ball-type support (17), the right side of ball-type support (17) has cup jointed a plurality of pipes (19), and is a plurality of the right-hand member welding of pipe (19) has the clean shot, the pore has been seted up on the outer wall of clean shot, be provided with the contact tube on ball-type support (17), the contact tube runs through ball-type support (17), the left end cup joint on the right side short road of casing (182) bottom of contact tube, the other end of contact tube divide into a plurality of sections and is located inside pipe (19), and is a plurality of the tangent line direction of directional main shaft (7) of pipe (19) and auxiliary shaft (8), be fixed with square shell (20) on the right-hand member face of maintenance case (14).
4. An intelligent over-temperature automatic power-off control device for a textile motor as claimed in claim 3, wherein: the utility model discloses a recycling bin, including collection box (22), the right side top of collection box (22) is fixed with direction shell two (23), the inside of direction shell two (23) is provided with recovery tube (24), the bottom of recovery tube (24) is located the inside of collection box (22), the other end of recovery tube (24) divide into two sections, two sections below is fixed with short slab (25) between recovery tube (24), two sections be provided with the hose between recovery tube (24), the top of hose is provided with pivot (26), pivot (26) and connecting plate two bearings are connected, the outside of pivot (26) is fixed with the plectane, evenly weld three extrusion ball (27) on the plectane, the top of recovery tube (24) has cup jointed ball-type support two (29), the left end of ball-type support two (29) has cup jointed absorption tube (30), one side of connecting plate two is located the top of absorption tube (30) and is fixed with square shell two, the size of the first square shell (20) is consistent with that of the second square shell, sponge blocks are arranged inside the first square shell (20) and the second square shell, and the cross-sectional area of each sponge block is larger than that of the first square shell (20) and the second square shell.
5. The intelligent over-temperature automatic power-off control device for the textile motor as claimed in claim 4, wherein: the placing submodule comprises a clamping unit, the linkage submodule comprises a limiting unit, the air exhaust submodule comprises a guiding unit, the comparison submodule comprises a rotating unit and a recovery unit, the adjusting submodule comprises a switching unit, and the speed measuring submodule comprises a first starting unit and a second starting unit;
the clamping unit is used for controlling the extension of a short rod, the limiting unit is used for controlling the extension of a clamping strip (9), the guiding unit is used for controlling the extension and retraction of an air pipe (10), the rotating unit is used for temporarily providing driving force for the main shaft (7) and the auxiliary shaft (8), the recycling unit is used for recycling the one of the main shaft (7) and the auxiliary shaft (8) with the reduced rotating speed, the switching unit is used for switching the extraction direction of the small-sized suction machine, the first starting unit is used for controlling the rotation of the short shaft (181), and the second starting unit is used for controlling the rotation of the rotating shaft (26).
6. The intelligent over-temperature automatic power-off control device for the textile motor as claimed in claim 5, wherein: output shell (4) divide into the triplex before, in, back triplex, preceding the one end of output shell (4) is fixed with switching shell (5), the middle part output shell (4) are the U type, the middle part output shell (4) and preceding, back triplex output shell (4) sliding connection, preceding, back triplex the top of output shell (4) is connected through screw engagement with factory type auxiliary housing (2), the middle part the bottom joint of output shell (4) and factory type auxiliary housing (2).
CN202110992977.6A 2021-08-27 2021-08-27 Intelligent over-temperature automatic power-off control device for textile motor Active CN113437839B (en)

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN204794524U (en) * 2015-07-24 2015-11-18 吴江市七都镇庙港雅迪针织制衣厂 Water spray textile motor
CN208028731U (en) * 2017-12-25 2018-10-30 呈磁科技股份有限公司 A kind of excessively high auto-power-off control device of intelligent temperature for textile motor
CN110644162A (en) * 2019-10-29 2020-01-03 江苏今达纺织实业有限公司 Polyester filament fabric printing and dyeing equipment
CN211046688U (en) * 2020-01-14 2020-07-17 福建永信数控科技股份有限公司 Permanent-magnet efficient energy-saving textile motor
CN213783067U (en) * 2020-12-26 2021-07-23 南通海嘉电机制造有限公司 Energy-saving permanent magnet textile motor
CN213846437U (en) * 2020-12-26 2021-07-30 南通海嘉电机制造有限公司 Textile motor with adjusting function

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN204794524U (en) * 2015-07-24 2015-11-18 吴江市七都镇庙港雅迪针织制衣厂 Water spray textile motor
CN208028731U (en) * 2017-12-25 2018-10-30 呈磁科技股份有限公司 A kind of excessively high auto-power-off control device of intelligent temperature for textile motor
CN110644162A (en) * 2019-10-29 2020-01-03 江苏今达纺织实业有限公司 Polyester filament fabric printing and dyeing equipment
CN211046688U (en) * 2020-01-14 2020-07-17 福建永信数控科技股份有限公司 Permanent-magnet efficient energy-saving textile motor
CN213783067U (en) * 2020-12-26 2021-07-23 南通海嘉电机制造有限公司 Energy-saving permanent magnet textile motor
CN213846437U (en) * 2020-12-26 2021-07-30 南通海嘉电机制造有限公司 Textile motor with adjusting function

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