CN204755752U - Bevel gear commutator with cooling body - Google Patents

Abstract

The utility model relates to a bevel gear commutator with cooling body, the input axle sleeve rotates to be installed on the casing, the input shaft rotates to be installed in the input axle sleeve, the output shaft rotates and installs on the casing, the central line of input shaft is perpendicular with the central line of output shaft, the one end fixed mounting that the input shaft is located the box has input bevel gears, fixed mounting has output bevel gear on the output shaft, input bevel gears and output bevel gear meshing, the casing is equipped with the cooling inner chamber, cooling inner chamber intercommunication has inlet tube and outlet pipe, the inlet tube passes through the water tank intercommunication with the outlet pipe, the intercommunication has first water pump on the inlet tube, the intercommunication has the second water pump on the outlet pipe, the intracavity is equipped with temperature sensor in the cooling, be equipped with the controller on the water tank, a weighing sensor and a temperature sensor, first water pump and second water pump all are connected with controller signal. The utility model discloses a drive mechanism provides the life of good transmission environment, extension bevel gear and commutator.

Description

There is the bevel gear commutator of cooling mechanism

Technical field

The utility model relates to commutator topology field, especially relates to a kind of bevel gear commutator with cooling mechanism.

Background technique

Bevel gear commutator structure generally comprises housing, be arranged on the input in housing, output shaft, and the drive bevel gear be arranged on input, output shaft, the conversion in input output direction is realized by drive bevel gear input, output shaft with velocity ratio, due to the engagement driving of bevel gear in housing, thus just can produce heat in housing, and under long bevel gear engagement driving, it can be caused to damage because bevel gear is overheated, shorten the working life of bevel gear and miscellaneous part.

Model utility content

The technical problems to be solved in the utility model is: in order to overcome in prior art commutator under using for a long time, the amount of heat produced in housing, shorten the problem in the working life of bevel gear and miscellaneous part, a kind of bevel gear commutator with cooling mechanism is provided.

The utility model solves the technological scheme that its technical problem adopts: a kind of bevel gear commutator with cooling mechanism, comprise housing, input axle sleeve, input shaft and output shaft, described input axle sleeve is rotatably installed on housing, described input shaft is rotatably installed in input axle sleeve, described output shaft rotation is arranged on housing, the center line of described input shaft and the central axis of described output shaft, one end that described input shaft is positioned at housing is installed with input bevel gear, described output shaft is installed with output bevel gear wheel, described input bevel gear is taken turns with described output bevel gear and engages, described housing is provided with cooling inner chamber, described cooling inner space has intake pipe and outlet pipe, described intake pipe is communicated with by water tank with described outlet pipe, described intake pipe is communicated with the first water pump, described outlet pipe is communicated with the second water pump, temperature transducer is provided with in described cooling inner chamber, described water tank is provided with controller, described temperature transducer, first water pump is all connected with controller signals with the second water pump.

In order to change the cooling liquid in cooling inner chamber more efficiently, described first water pump is draining pump, and described second water pump is suction pump.

The cooling liquid in water tank is caused generally to heat up in order to the cooling liquid not making the temperature of extracting out in cooling inner chamber higher mixes with cooling liquid original in water tank, detachably dividing plate is installed in described water tank, water tank is divided into into water chamber and water outlet chamber by described dividing plate, described water inlet chamber and intake pipe pipeline connection, described water outlet chamber and outlet pipe pipeline connection.

Cooling liquid higher for temperature be separated with the cooling liquid in water tank in order to better, described dividing plate is provided with thermal-protective material.

Bevel gear commutator opens draining pump before using, and in cooling inner chamber, pass into cooling liquid, after the volume passing into cooling liquid equals the volume of the cooling inner chamber that controller sets, draining pump is turned off by controller; Bevel gear commutator can use, in the process that bevel gear commutator uses, cooling liquid in cooling inner chamber heats up gradually, after the temperature sensor senses in cooling inner chamber exceedes to the temperature of cooling liquid the temperature that controller sets, controller starts suction pump, cooling liquid is drawn back water tank, after the volume of the cooling liquid of suction pump extraction equals the volume of the cooling inner chamber that controller sets, suction pump is turned off by controller, draining pump is opened by controller while turning off suction pump, draining pump adds cooling liquid in cooling inner chamber, so repeatedly.When the water of water-inlet cavity indoor drains soon, dismantled by dividing plate, the cooling liquid used in water chamber enters after water chamber, then is loaded by dividing plate, so repeatedly.

The beneficial effects of the utility model are: the bevel gear commutator with cooling mechanism of the present utility model, the heat of bevel gear engagement and generation can be reduced, the temperature in housing is made to remain in certain scope, for driving mechanism provides good transmission environment, extend the working life of bevel gear and commutator.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is two-dimensional representation of the present utility model;

Fig. 2 is the sectional drawing at A-A place in the utility model Fig. 1

In figure: 1. housing, 2. input axle sleeve, 3. input shaft, 4. output shaft, 5. inputs bevel gear, 6. output bevel gear wheel, 7. cool inner chamber, 8. intake pipe, 9. outlet pipe, 10. water tank, 11. temperature transducers, 12. controllers, 13. draining pumps, 14. suction pumps, 15. dividing plates, 16. water inlet chambers, 17. water outlet chambers.

Embodiment

The utility model is described in more detail by reference to the accompanying drawings now.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present utility model are described in a schematic way, and therefore it only shows the formation relevant with the utility model.

A kind of bevel gear commutator with cooling mechanism as shown in Figure 1-2, comprise housing 1, input axle sleeve 2, input shaft 3 and output shaft 4, input axle sleeve 2 is rotatably installed on housing 1, input shaft 3 is rotatably installed in input axle sleeve 2, output shaft 4 is rotatably installed on housing 1, the center line of input shaft 3 and the central axis of output shaft 4, one end that input shaft 3 is positioned at housing 1 is installed with input bevel gear 5, output shaft 4 is installed with output bevel gear wheel 6, input bevel gear 5 is taken turns 6 with output bevel gear and engages, housing 1 is provided with cooling inner chamber 7, cooling inner chamber 7 is communicated with intake pipe 8 and outlet pipe 9, intake pipe 8 is communicated with by water tank 10 with outlet pipe 9, intake pipe 8 is communicated with draining pump 13, outlet pipe 9 is communicated with suction pump 14, temperature transducer 11 is provided with in cooling inner chamber 7, water tank 10 is provided with controller 12, temperature transducer 11, first water pump and the second water pump are all connected with controller 12 signal.

Mixing with original cooling liquid in water tank 10 to not make the higher cooling liquid of temperature of extracting out in cooling inner chamber 7 causes the cooling liquid in water tank 10 generally to heat up, in water tank 10, dividing plate 15 is detachably installed, water tank 10 is divided into into water chamber 16 and water outlet chamber 17 by dividing plate 15, water inlet chamber 16 and intake pipe 8 pipeline connection, water outlet chamber 17 and outlet pipe 9 pipeline connection; Cooling liquid higher for temperature be separated with the cooling liquid in water tank 10 in order to better, dividing plate 15 is provided with thermal-protective material.

Bevel gear commutator opens draining pump 13 before using, and in cooling inner chamber 7, pass into cooling liquid, after the volume passing into cooling liquid equals the volume of the cooling inner chamber 7 of setting on controller 12, draining pump 13 is turned off by controller 12, bevel gear commutator can use, in the process that bevel gear commutator uses, cooling liquid in cooling inner chamber 7 heats up gradually, after the temperature transducer 11 in cooling inner chamber 7 senses that the temperature of cooling liquid exceedes the temperature of setting on controller 12, controller 12 starts suction pump 14, cooling liquid is drawn back water tank 10, after the volume of the cooling liquid of suction pump 14 extraction equals the volume of the cooling inner chamber 7 of setting on controller 12, suction pump 14 is turned off by controller 12, draining pump 13 is opened by controller 12 while turning off suction pump 14, draining pump 13 adds cooling liquid in cooling inner chamber 7, so repeatedly.When the water in chamber 16 of intaking drains soon, dismantled by dividing plate 15, the cooling liquid used in water chamber 17 enters after water chamber 16, then is loaded by dividing plate 15, so repeatedly.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this model utility technological thought, can carry out various change and amendment completely.The technical scope of this model utility is not limited to the content on specification, must determine its technical scope according to right.

Claims (4)

1. one kind has the bevel gear commutator of cooling mechanism, it is characterized in that: comprise housing (1), input axle sleeve (2), input shaft (3) and output shaft (4), described input axle sleeve (2) is rotatably installed on housing (1), described input shaft (3) is rotatably installed in input axle sleeve (2), described output shaft (4) is rotatably installed on housing (1), the center line of described input shaft (3) and the central axis of described output shaft (4), one end that described input shaft (3) is positioned at housing (1) is installed with input bevel gear (5), described output shaft (4) is installed with output bevel gear wheel (6), described input bevel gear (5) is taken turns (6) and is engaged with described output bevel gear, described housing (1) is provided with cooling inner chamber (7), described cooling inner chamber (7) is communicated with intake pipe (8) and outlet pipe (9), described intake pipe (8) is communicated with by water tank (10) with described outlet pipe (9), (8) are communicated with the first water pump to described intake pipe, (9) are communicated with the second water pump with described outlet pipe, temperature transducer (11) is provided with in described cooling inner chamber (7), described water tank (10) is provided with controller (12), described temperature transducer (11), first water pump and the second water pump are all connected with controller (12) signal.

2. have the bevel gear commutator of cooling mechanism as claimed in claim 1, it is characterized in that: described first water pump is draining pump (13), described second water pump is suction pump (14).

3. there is the bevel gear commutator of cooling mechanism as claimed in claim 1, it is characterized in that: dividing plate (15) is detachably installed in described water tank (10), water tank (10) is divided into into water chamber (16) and water outlet chamber (17) by described dividing plate (15), described water inlet chamber (16) and intake pipe (8) pipeline connection, described water outlet chamber (17) and outlet pipe (9) pipeline connection.

4. there is the bevel gear commutator of cooling mechanism as claimed in claim 3, it is characterized in that: described dividing plate (15) is provided with thermal-protective material.