CN108443452B - A Composite Centripetal Turbine Torque Converter With Circulating Heat Dissipation - Google Patents

Abstract

Translated fromChinese

本发明公开了一种循环散热的复合型向心涡轮式液力变矩器，包括有向心涡轮式液力变矩器，其特征在于：在所述向心涡轮式液力变矩器一侧表面上设有探伤装置，在所述探伤装置两侧对称设有压力调节装置，所述压力调节装置设置在向心涡轮式液力变矩器表面上，在所述向心涡轮式液力变矩器两侧表面设有温度传感器，在所述温度传感器之间设有能水循环的水冷循环散热装置，在所述向心涡轮式液力变矩器的输出轴与向心涡轮式液力变矩器壳体的连接处设有扭矩监测装置，在所述向心涡轮式液力变矩器的端部上设有开源单片机，所述开源单片机输入端与外部电源的输出端连接，本发明结构简单，使用方便。

The invention discloses a composite centripetal turbine type hydraulic torque converter for circulating heat dissipation, comprising a centripetal turbine type hydraulic torque converter. A flaw detection device is arranged on the side surface, and a pressure regulating device is symmetrically arranged on both sides of the flaw detection device. The pressure regulating device is arranged on the surface of the centrifugal turbo hydraulic torque converter. There are temperature sensors on both sides of the torque converter, and between the temperature sensors is a water-cooled circulating heat dissipation device capable of water circulation. A torque monitoring device is arranged at the connection of the torque converter housing, an open-source single-chip microcomputer is arranged on the end of the centrifugal turbo hydraulic torque converter, and the input end of the open-source single-chip microcomputer is connected with the output end of the external power supply. The invention has simple structure and convenient use.

Description

Compound centripetal turbine type hydraulic torque converter capable of circularly radiating heat

Technical Field

The invention relates to the field of hydraulic torque converters, in particular to a compound centripetal turbine type hydraulic torque converter capable of circularly radiating heat.

Background

The existing composite centripetal turbine type hydraulic torque converter has the advantages that an input large gear ring and an input gear pair are connected with an input shaft, an output gear is connected with a confluence gear, the input gear pair is connected with the centripetal turbine type hydraulic torque converter, the centripetal turbine type hydraulic torque converter is connected with a one-way clutch and an output gear pair, the output gear pair is connected with a connection planet carrier, an output small gear ring is connected with the confluence planet carrier, and the output gear is connected with an output shaft.

Accordingly, further improvements are needed in the existing torque converters.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a compound centripetal turbine type hydraulic torque converter with circulating heat radiation.

In order to achieve the purpose, the invention adopts the following scheme: the utility model provides a radiating compound centripetal turbine formula torque converter of circulation, is including centripetal turbine formula torque converter, its characterized in that is in be equipped with the device of detecting a flaw on centripetal turbine formula torque converter one side surface the device bilateral symmetry of detecting a flaw is equipped with pressure adjusting device, pressure adjusting device sets up on centripetal turbine formula torque converter surface centripetal turbine formula torque converter both sides surface is equipped with temperature sensor be equipped with the water-cooling circulation heat abstractor that can the hydrologic cycle between the temperature sensor the output shaft of centripetal turbine formula torque converter is equipped with torque monitoring devices with the junction of centripetal turbine formula torque converter casing centripetal turbine formula torque converter's tip is equipped with the open source singlechip, open source singlechip input is connected with external power source's output.

The compound centripetal turbine type hydraulic torque converter capable of circularly dissipating heat is characterized in that the pressure adjusting device comprises pressure regulators symmetrically arranged on the surface of one side of the centripetal turbine type hydraulic torque converter, one side of each pressure regulator is provided with a pressure sensor, the pressure sensors are arranged on the surface of the centripetal turbine type hydraulic torque converter, the output ends of the pressure sensors are connected with the input end of an open-source single chip microcomputer, and the output end of the open-source single chip microcomputer is connected with the input end of the pressure regulator.

The compound centripetal turbine type hydraulic torque converter with the circulating heat dissipation function is characterized in that the torque monitoring device comprises a torque sensor arranged at the joint of an output shaft of the centripetal turbine type hydraulic torque converter and a shell of the centripetal turbine type hydraulic torque converter, a memory is arranged on the surface of one side of the centripetal turbine type hydraulic torque converter, the output end of the torque sensor is connected with the input end of an open-source single chip microcomputer, and the output end of the open-source single chip microcomputer is connected with the input end of the memory.

The compound centripetal turbine type hydraulic torque converter capable of circularly dissipating heat is characterized in that the flaw detection device comprises an ultrasonic flaw detector arranged on one side surface of the centripetal turbine type hydraulic torque converter, an alarm is arranged on the upper surface of the ultrasonic flaw detector, the output end of the ultrasonic flaw detector is connected with the input end of an open-source single chip microcomputer, and the output end of the open-source single chip microcomputer is connected with the input end of the alarm.

The compound centripetal turbine type hydraulic torque converter capable of circularly radiating heat is characterized in that the water-cooling circulating heat radiating device comprises a plurality of first heat radiating pipes arranged among the temperature sensors at intervals, second radiating pipes are symmetrically and respectively arranged at two sides of the first radiating pipe, first control valves are arranged on the second radiating pipes, a water storage tank is arranged above the centripetal turbine type hydraulic torque converter and is connected with one end of the second radiating pipe on the left side, a cooling tank is arranged on one side of the water storage tank and is connected with one end of the second radiating pipe on the right side, the volume of the water storage tank is twice of that of the cooling tank, the water storage tank is connected with the cooling tank through a through pipe, a second control valve is arranged on the through pipe, a dry refrigerator filled with dry ice is arranged above the cooling box, and a quantitative adding mechanism which can enable the dry refrigerator to add dry ice to the cooling box at regular time and quantity is arranged between the cooling box and the dry refrigerator.

The compound centripetal turbine type hydraulic torque converter capable of circularly dissipating heat is characterized in that the quantitative adding mechanism comprises a connecting pipe arranged between a dry refrigerator and a cooling box, a motor is arranged on the surface of one side of the connecting pipe, a rotating seat is arranged on a motor shaft of the motor, a plurality of grooves are formed in the circumference of the surface of one side of the rotating seat at intervals, the rotating seat is movably arranged in the connecting pipe, and a water level monitor is arranged on the inner surface of the cooling box.

In summary, compared with the prior art, the invention has the beneficial effects that: the centripetal turbine type hydraulic torque converter is simple in structure and convenient to use, the transmission part is convenient to judge whether the transmission part is damaged or not by detecting the inside of the centripetal turbine type hydraulic torque converter through the flaw detection device, the oil pressure inside the centripetal turbine type hydraulic torque converter is monitored and controlled through the pressure adjusting device, the output torque of the centripetal turbine type hydraulic torque converter is monitored through the torque monitoring device, a worker can reasonably plan the maintenance period of the centripetal turbine type hydraulic torque converter according to monitoring information conveniently, the oil inside the centripetal turbine type hydraulic torque converter is circularly cooled through the water cooling circulating and radiating device, the oil temperature overheating is avoided, and therefore the service life of the centripetal turbine type hydraulic torque converter is greatly prolonged and the use requirements of people are met.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present invention.

Detailed Description

The invention will be further described with reference to the following description and embodiments in conjunction with the accompanying drawings: as shown in fig. 1 to 2, the compound centripetal turbine type torque converter with circulating heat dissipation comprises a centripetal turbinetype torque converter 1, wherein aflaw detection device 3 is arranged on the surface of one side of the centripetal turbinetype torque converter 1, pressure adjusting devices 4 are symmetrically arranged on two sides of theflaw detection device 3, the pressure adjusting devices 4 are arranged on the surface of the centripetal turbinetype torque converter 1,temperature sensors 11 are arranged on the surfaces of two sides of the centripetal turbinetype torque converter 1, a water cooling circulating heat dissipation device 6 capable of circulating water is arranged between thetemperature sensors 11, atorque monitoring device 5 is arranged at the joint of an output shaft of the centripetal turbinetype torque converter 1 and a housing of the centripetal turbinetype torque converter 1, an open sourcesingle chip microcomputer 12 is arranged at the end of the centripetal turbinetype torque converter 1, and the input end of the open sourcesingle chip microcomputer 12 is connected with the output end of an external power supply, through the inside detection of device subtend heart turbine formula torque converter of detecting a flaw, be convenient for judge that the transmission position has no damage, rethread pressure adjusting device monitors the inside oil pressure of centripetal turbine formula torque converter, rethread torque monitoring device monitors the output torque of centripetal turbine formula torque converter, the staff of being convenient for rationally plans the maintenance cycle of centripetal turbine formula torque converter according to monitoring information, rethread water-cooling circulation heat abstractor circulates the heat dissipation to the inside oil of centripetal turbine formula torque converter, avoid the oil temperature overheated, the life who has improved centripetal turbine formula torque converter so greatly satisfies people's user demand.

The pressure adjusting device 4 comprisespressure regulators 41 symmetrically arranged on one side surfaces of a centripetal turbine typehydraulic torque converter 1,pressure sensors 42 are arranged on one side of eachpressure regulator 41, thepressure sensors 42 are arranged on the surface of the centripetal turbine typehydraulic torque converter 1, the output ends of thepressure sensors 42 are connected with the input end of an open sourcesingle chip microcomputer 12, the output end of the open sourcesingle chip microcomputer 12 is connected with the input end of thepressure regulator 42, the pressure sensors are used for monitoring the oil pressure in the centripetal turbine type hydraulic torque converter, the monitored information is transmitted to the open source single chip microcomputer, the open source single chip microcomputer analyzes and processes the information, and when the oil pressure is judged to be too low, the pressure regulators are controlled to pressurize the interior of the centripetal turbine type hydraulic torque converter.

Thetorque monitoring device 5 comprises atorque sensor 51 arranged at the joint of an output shaft of the centripetal turbine typehydraulic torque converter 1 and a shell of the centripetal turbine typehydraulic torque converter 1, amemory 52 is arranged on the surface of one side of the centripetal turbine typehydraulic torque converter 1, the output end of thetorque sensor 51 is connected with the input end of an open sourcesingle chip microcomputer 12, the output end of the open sourcesingle chip microcomputer 12 is connected with the input end of thememory 52, the output torque of the centripetal turbine type hydraulic torque converter is monitored through the torque sensor, monitored information is transmitted to the open source single chip microcomputer, the open source single chip microcomputer analyzes and processes the information, and the information is stored in the memory.

Theflaw detection device 3 comprises anultrasonic flaw detector 31 arranged on one side surface of the centripetal turbine typehydraulic torque converter 1, analarm 32 is arranged on the upper surface of theultrasonic flaw detector 31, the output end of theultrasonic flaw detector 31 is connected with the input end of an open sourcesingle chip microcomputer 12, the output end of the open sourcesingle chip microcomputer 12 is connected with the input end of thealarm 32, the ultrasonic flaw detector is controlled by the open source single chip microcomputer to detect a mechanical transmission part in the centripetal turbine type hydraulic torque converter, detected information is transmitted to the open source single chip microcomputer, the open source single chip microcomputer analyzes and processes the information, and the alarm is controlled to give an alarm when the transmission part is judged to be damaged.

The water-cooling circulation heat dissipating device 6 of the present invention comprises a plurality of firstheat dissipating pipes 61 arranged betweentemperature sensors 11 at intervals, secondheat dissipating pipes 62 are symmetrically arranged on both sides of the firstheat dissipating pipes 61, respectively, afirst control valve 65 is arranged on the secondheat dissipating pipes 62, awater storage tank 63 is arranged above the centripetal turbinetype torque converter 1, thewater storage tank 63 is connected with one end of the secondheat dissipating pipe 62 on the left side, acooling tank 64 is arranged on one side of thewater storage tank 63, thecooling tank 64 is connected with one end of the secondheat dissipating pipe 62 on the right side, the volume of thewater storage tank 63 is twice as large as that of thecooling tank 64, thewater storage tank 63 is connected with thecooling tank 64 through apipe 66, asecond control valve 67 is arranged on thepipe 65, adry ice box 68 containing dry ice is arranged above thecooling tank 64, a quantitative adding mechanism 9 capable of adding dry ice to thecooling tank 64 at regular time and quantitative is arranged between the cooling tank, through first control valve respectively control the storage water tank to first cooling tube delivery water and control to the intaking of cooler bin to the cooling of counter-center turbine formula torque converter, and half volumetric water of storage water tank just fills up first cooling tube and second cooling tube, the rethread ration adds the hot water of mechanism to the cooler bin and cools down the processing, and the rethread second control valve will be handled in the water transport return storage water tank in the cooler bin.

The quantitative adding mechanism 9 comprises a connectingpipe 91 arranged between adry refrigerator 68 and acooling box 64, amotor 92 is arranged on one side surface of the connectingpipe 91, a rotatingseat 93 is arranged on a motor shaft of themotor 92, a plurality ofgrooves 94 are formed in the circumference of one side surface of the rotatingseat 93 at intervals, the rotatingseat 93 is movably arranged in the connectingpipe 91, awater level monitor 95 is arranged on the inner surface of thecooling box 64, the water level height of the cooling box is sensed through the water level monitor, and when a certain height is reached, the motor is started and is driven to rotate through the motor, so that quantitative dry ice in the grooves of the rotating seat falls down to the cooling box, and hot water in the cooling box is cooled.

While there have been shown and described the fundamental principles and principal features of the invention and advantages thereof, it will be understood by those skilled in the art that the invention is not limited by the embodiments described above, which are given by way of illustration of the principles of the invention, but is susceptible to various changes and modifications without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a compound centripetal turbine formula torque converter of circulation heat dissipation, includes directional centrum turbine formula torque converter (1), its characterized in that: the device is characterized in that a flaw detection device (3) is arranged on one side surface of the centripetal turbine type hydraulic torque converter (1), pressure adjusting devices (4) are symmetrically arranged on two sides of the flaw detection device (3), the pressure adjusting devices (4) are arranged on the surface of the centripetal turbine type hydraulic torque converter (1), temperature sensors (11) are arranged on two side surfaces of the centripetal turbine type hydraulic torque converter (1), a water-cooling circulation heat dissipation device (6) capable of realizing water circulation is arranged between the temperature sensors (11), a torque monitoring device (5) is arranged at the joint of an output shaft of the centripetal turbine type hydraulic torque converter (1) and a shell of the centripetal turbine type hydraulic torque converter (1), an open-source single chip microcomputer (12) is arranged at the end part of the centripetal turbine type hydraulic torque converter (1), and the input end of the open-source single chip microcomputer (12) is connected with the output end of an external power supply, the water-cooling circulation heat dissipation device (6) including a plurality of first cooling tubes (61) of interval setting between temperature sensor (11) the bilateral symmetry of first cooling tube (61) is equipped with second cooling tube (62) respectively be equipped with first control valve (65) on second cooling tube (62) be equipped with storage water tank (63) to centripetal turbine formula torque converter (1) top, storage water tank (63) is connected with left second cooling tube (62) one end storage water tank (63) one side is equipped with cooler bin (64), cooler bin (64) is connected with right side second cooling tube (62) one end, storage water tank (63) volume is cooler bin (64) twice, be connected through siphunculus (66) between storage water tank (63) and cooler bin (64) be equipped with second control valve (67) on the siphunculus, a dry refrigerator (68) filled with dry ice is arranged above the cooling box (64), and a quantitative adding mechanism (9) which can enable the dry refrigerator (68) to add the dry ice to the cooling box (64) at regular time and quantity is arranged between the cooling box (64) and the dry refrigerator (68).

2. The compound centripetal turbine type torque converter with circulating heat dissipation function according to claim 1, wherein the pressure regulating device (4) comprises pressure regulators (41) symmetrically arranged on one side surfaces of the centripetal turbine type torque converter (1), one side of each pressure regulator (41) is provided with a pressure sensor (42), the pressure sensors (42) are arranged on the surfaces of the centripetal turbine type torque converter (1), the output ends of the pressure sensors (42) are connected with the input end of the open source single chip microcomputer (12), and the output end of the open source single chip microcomputer (12) is connected with the input end of the pressure regulators (41).

3. The compound centripetal turbine type torque converter with the circulating heat dissipation function according to claim 1, wherein the torque monitoring device (5) comprises a torque sensor (51) arranged at the joint of an output shaft of the centripetal turbine type torque converter (1) and a shell of the centripetal turbine type torque converter (1), a memory (52) is arranged on one side surface of the centripetal turbine type torque converter (1), the output end of the torque sensor (51) is connected with the input end of the open-source single chip microcomputer (12), and the output end of the open-source single chip microcomputer (12) is connected with the input end of the memory (52).

4. The compound centripetal turbine type torque converter with the circulating heat dissipation function according to claim 1, wherein the flaw detection device (3) comprises an ultrasonic flaw detector (31) arranged on one side surface of the centripetal turbine type torque converter (1), an alarm (32) is arranged on the upper surface of the ultrasonic flaw detector (31), the output end of the ultrasonic flaw detector (31) is connected with the input end of the open-source single chip microcomputer (12), and the output end of the open-source single chip microcomputer (12) is connected with the input end of the alarm (32).

5. A compound centripetal turbine type torque converter with circulating heat dissipation according to claim 1, wherein the quantitative adding mechanism (9) comprises a connecting pipe (91) arranged between a dry refrigerator (68) and a cooling tank (64), a motor (92) is arranged on one side surface of the connecting pipe (91), a rotating seat (93) is arranged on a motor shaft of the motor (92), a plurality of grooves (94) are arranged on one side surface of the rotating seat (93) at intervals, the rotating seat (93) is movably arranged in the connecting pipe (91), and a water level monitor (95) is arranged on the inner surface of the cooling tank (64).

Images