CN209671185U - A kind of booster measurement device of oil tempera - Google Patents

Abstract

The utility model provides a kind of booster measurement device of oil tempera, including booster flowline jointing holes, temperature sensor mounting portion and oil storage cabin, booster flowline jointing holes are for being connected to booster flowline and oil storage cabin, one end of the separate booster flowline jointing holes of oil storage cabin has an oil outlet, the aperture of oil outlet is less than the aperture of booster flowline jointing holes, temperature sensor mounting portion is used for mounting temperature sensor, and temperature sensor mounting portion is connected with oil storage cabin.By the way that temperature sensor is installed in temperature sensor mounting portion and temperature sensor is connected to oil storage cabin, it can use the machine oil that the temperature sensor in oil storage cabin comes together in oil storage cabin storage and carry out temperature measurement, therefore the booster measurement device of oil tempera of the utility model can solve that the oil flow rate at booster flowline is few, the temperature sensor at flowline cannot be completely covered, and cause the oil temperature measurement at booster flowline that this technical problem is not allowed.

Description

A kind of booster measurement device of oil tempera

Technical field

The utility model relates to automotive fields, more particularly to a kind of booster measurement device of oil tempera.

Background technique

Automobile engine oil can be used for cooling down the components such as automobile engine cylinder-body, booster, test data and experience have shown that, pressurization Cooling machine oil flow at device accounts for the 5%~6% of total flow, and the oil temperature flowed through increases about 10 DEG C.If flowing through at booster Oil temperature increase excessively high, then aeronautic ATE speed will be accelerated, it is therefore necessary to which measurement flows through machine oil at booster Temperature is to control the oil temperature flowed through at booster.In vehicle operation, since arrangement space is limited, and even if volume Outer arrangement flows through pipeline knot due to changing the original machine oil of vehicle for measuring the device for flowing through the oil temperature at booster Structure, this will will increase the risk of vehicle machine oil permeability, oil leak.It is thus usually to measure to flow through at booster in bench test Oil temperature.The main means of measurement are to measure in booster machine oil exit mounting temperature sensor.However booster The oil flow rate of oil outlet is relatively low, and relatively slightly (internal diameter is about for the pipeline caliber of oil outlet), with The machine oil a fluid stream flowed in the pipeline of booster oil outlet is caused to be difficult to accumulate stock, so that temperature sensing cannot be completely covered Device, it is difficult to the oil temperature of accurate measurement booster oil outlet.

Utility model content

Few, temperature sensing that the purpose of this utility model is to provide a kind of oil flow rates that can solve booster oil outlet Device cannot be completely covered the booster oil temperature for causing booster oil outlet oil temperature measurement that this technical problem is not allowed and survey Measure device.

The utility model provides a kind of booster measurement device of oil tempera, including booster flowline jointing holes, temperature sensing Device mounting portion and oil storage cabin, booster flowline jointing holes for being connected to booster flowline and oil storage cabin, oil storage cabin it is remote One end from booster flowline jointing holes has an oil outlet, and the aperture of oil outlet is less than the hole of booster flowline jointing holes Diameter, temperature sensor mounting portion is used for mounting temperature sensor, and temperature sensor mounting portion is connected with oil storage cabin.

Further, which includes a main part, and booster flowline jointing holes are along main body The mode that the short transverse in portion extends is opened in main part.

Further, the upper surface of main part is formed with the first type face matched with the lower end surface of booster flowline, The lower end surface of main part is formed with the second type face matched with the upper surface of engine cylinder body.

Further, oil storage cabin is set to master in such a way that the short transverse along main part outwardly protrudes extension from main part Body portion, oil storage cabin is for being inserted into the oilhole of engine cylinder body being connected with booster flowline.

Further, temperature sensor mounting portion is set to the side of main part in a manner of outwardly protruding extension from main part Portion.

Further, which further includes the fixation being arranged side by side with booster flowline jointing holes Hole, fixation hole is for booster measurement device of oil tempera to be fixed between booster flowline and engine cylinder body.

Further, fixation hole is opened in main part in a manner of extending along the short transverse of main part, and fixation hole Axial direction is parallel with the axial direction of booster flowline jointing holes and oil storage cabin.

Further, fixation hole is the bolt hole matched with the bolt hole on booster flowline and engine cylinder body.

Further, the aperture of oil outlet is the 2/5~3/5 of the aperture of booster flowline jointing holes.

Further, the height of oil storage cabin is 3~5mm.

It is connected since the booster measurement device of oil tempera of the utility model is provided with booster flowline jointing holes Oil storage cabin, and the temperature sensor mounting portion being connected with oil storage cabin, oil storage cabin are provided in the booster measurement device of oil tempera The lower machine oil of flow for not accumulating stock for collecting and coming from booster flowline stream can be stored, in this way by by temperature sensing Device is installed in temperature sensor mounting portion and temperature sensor is connected to oil storage cabin, and the temperature that can use in oil storage cabin passes Sensor comes together in the machine oil in oil storage cabin to storage and carries out temperature measurement, therefore the booster measurement device of oil tempera of the utility model It can solve that the oil flow rate at booster flowline is few, the temperature sensor at flowline cannot be completely covered, cause to be pressurized This technical problem is not allowed in oil temperature measurement at device flowline.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of the oil temperature of measurement booster oil outlet of the prior art.

Fig. 2 is the stereochemical structure signal at the first visual angle of the booster measurement device of oil tempera of an embodiment of the present invention Figure.

Fig. 3 is the stereochemical structure signal at the second visual angle of the booster measurement device of oil tempera of an embodiment of the present invention Figure.

Fig. 4 is the schematic perspective view at the booster measurement device of oil tempera third visual angle of an embodiment of the present invention.

Fig. 5 is that the booster measurement device of oil tempera of an embodiment of the present invention is installed on booster flowline and is started Schematic perspective view after between machine cylinder body.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiment of the present utility model is described in further detail.Below Embodiment is not intended to limit the scope of the present invention for illustrating the utility model.

As in Figure 2-4, the booster measurement device of oil tempera of an embodiment of the present invention includes that booster flowline connects Jack 1, fixation hole 2, temperature sensor mounting portion 3 and oil storage cabin 4.

The booster measurement device of oil tempera includes a main part 5, and the upper surface of main part 5 is formed with and booster flowline The first type face a for matching of lower end surface, the lower end surface of main part 5 is formed with matched with the upper surface of engine cylinder body Two type face b.

Booster flowline jointing holes 1 are formed as cylindrical, and booster flowline jointing holes 1 are along the height of main part 5 The mode that direction extends is opened in main part 5.Booster flowline jointing holes 1 are for being connected to booster flowline 6 and oil storage Storehouse 4.In the present embodiment, one end of booster flowline jointing holes 1 is used for and booster flowline 6 connects, and booster is fuel-displaced The other end of pipe jointing holes 1 is connected with one end of oil storage cabin 4.Size, precision and the booster of booster flowline jointing holes 1 The end of flowline 6 is consistent, machine oil will will not occur after the insertion booster flowline jointing holes 1 of booster flowline 6 to ensure The phenomenon that leakage or gas leakage.In addition, being also formed in booster flowline jointing holes 1 along booster flowline jointing holes 1 The boss 11 that the circumferential direction of inner wall extends radially inwardly, the boss 11 is for limiting booster flowline, convenient for that will be pressurized Device flowline is installed in booster flowline jointing holes 1.

Oil storage cabin 4 is formed as cylindric, and oil storage cabin 4 is with the second type face b along the short transverse of main part 5 from main part 5 The mode for outwardly protruding extension is set to the lower end of main part 5, and oil storage cabin 4 is for being inserted into the fuel-displaced with booster of engine cylinder body In the oilhole that pipe is connected.In the present embodiment, one end of the close booster flowline jointing holes 1 of oil storage cabin 4 and booster The above-mentioned other end of flowline jointing holes 1 is connected, and one end of the separate booster flowline jointing holes 1 of oil storage cabin 4 has one Oil outlet 41.The aperture of oil outlet 41 is less than the internal diameter of cylindric oil storage cabin 4, and the aperture of oil outlet 41 is fuel-displaced less than booster The aperture of pipe jointing holes 1.In order to enable oil storage cabin 4 to match with the oilhole of engine cylinder body being connected with booster flowline It closes, the outer diameter of cylindric oil storage cabin 4 is preferably equal with the internal diameter of above-mentioned oilhole of engine cylinder body.In addition, in the present embodiment, The radial section of oil outlet 41 is formed as round.The aperture of oil outlet 41 cannot be too small, and the too small machine oil that will lead to is deposited in oil storage It cannot be discharged in storehouse 4；Certainly, the aperture of oil outlet 41 can not be too big, and will lead to greatly very much cannot play oil storage for oil storage cabin 4 Effect.The aperture of oil outlet 41 is preferably the 2/5~3/5 of the aperture of booster flowline jointing holes 1, and more preferably booster goes out The 1/2 of the aperture of oil pipe jointing holes 1.The height of oil storage cabin cannot be too small, too small to store enough oil for temperature sensor It is detected, also increases unnecessary cost of manufacture greatly very much, the highly preferred of oil storage cabin is 3~5mm, more preferably 4mm.

Temperature sensor mounting portion 3 is formed as hollow cylindrical, and for mounting temperature sensor and temperature sensor is installed Portion 3 is connected with oil storage cabin 4.In the present embodiment, temperature sensor mounting portion 3 is to outwardly protrude the side of extension from main part 5 Formula is set to the side of main part 5, and temperature sensor mounting portion 3 and oil storage cabin 4 are set to the different location of main part 5.By making temperature It spends sensor mount 3 and outwardly protrudes extension from the side of main part 5, temperature sensor mounting portion and boss 11 can avoided Under the premise of interference, temperature sensor mounting portion 3 is made there are enough axially extending spaces, to make temperature sensor mounting portion 3 are threadedly coupled with the adapter 9 of temperature sensor.The size and precision of temperature sensor mounting portion 3 are passed with temperature to be installed Subject to the adapter 9 of sensor.

Fixation hole 2 and booster flowline jointing holes 1 are arranged side by side, and fixation hole 2 is used to fill the booster fuel temperature measurement It sets and is fixed between booster flowline and engine cylinder body.In the present embodiment, fixation hole 2 is along the height side of main part 5 Main part 5, and the axial direction of the axial direction of fixation hole 2 and booster flowline jointing holes 1 and oil storage cabin 4 are opened in the mode of extension In parallel.Preferably, fixation hole 2 is the bolt hole matched with the bolt hole on booster flowline and engine cylinder body.

As shown in figure 5, the booster measurement device of oil tempera in the embodiment using the utility model carries out oil temperature When measurement, temperature sensor is mounted in temperature sensor mounting portion 3 by general adapter 9 first, meanwhile, it is accurate Oil temperature is measured, the head of temperature sensor should be adjusted to the middle part of oil storage cabin 4.Adapter 9 and temperature sensor mounting portion 3 The case where position mutually screwed should wind adhesive tape or apply glue, avoid deuterogenesis's engine oil leakage.

Then, in such a way that second type face b is matched with the upper surface of engine cylinder body 7, temperature sensor will be housed The booster measurement device of oil tempera is fitted in the upper surface of engine cylinder body 7, while guaranteeing fixation hole 2 and engine cylinder body 7 Bolt hole is corresponding, and the oil storage cabin 4 of protrusion is inserted in the oilhole of engine cylinder body 7 being connected with booster flowline, and The oil sump glue of a circle about 2mm wide is applied at the faying face of the upper surface of second type face b and engine cylinder body 7.

Then, in such a way that the first type face a is matched with the lower end surface of booster flowline 6, booster flowline 6 is inserted Enter in booster flowline jointing holes 1, and keeps fixation hole 2 corresponding with the bolt hole of 6 end of booster flowline.Because of booster 6 end of flowline is equipped with O-ring seal, be generally not necessarily at the faying face of the lower end surface of the first type face a and booster flowline 6 into The processing of row gluing.Simultaneously because the booster measurement device of oil tempera has certain altitude, lead to the mounting distance of booster flowline 6 It shortens, i.e., former booster flowline 6, at this moment can be by shrinking booster flowline 6 come so that booster is fuel-displaced by " too long " Pipe 6 and booster flowline jointing holes 1 cooperate.

Finally, fastening bolt 8 to be passed through to the fixation of the bolt hole, the booster measurement device of oil tempera of booster flowline 6 The bolt hole in hole 2 and engine cylinder body, and fastened by torque requirement, the installation of the booster measurement device of oil tempera can be realized.

In conclusion since the booster measurement device of oil tempera of the utility model is provided with and booster flowline jointing holes 1 oil storage cabin being connected, and the temperature sensor installation being connected with oil storage cabin 4 is provided in the booster measurement device of oil tempera Portion, oil storage cabin 4 can store the lower machine oil of flow for not accumulating stock for collecting and coming from booster flowline stream, pass through in this way Temperature sensor is installed in temperature sensor mounting portion and temperature sensor is connected to oil storage cabin, can use oil storage cabin Interior temperature sensor comes together in the machine oil in oil storage cabin to storage and carries out temperature measurement, therefore the booster oil of the utility model Temperature measurement device can solve that the oil flow rate at booster flowline is few, the temperature sensor at flowline cannot be covered completely Lid, causes the oil temperature measurement at booster flowline that this technical problem is not allowed.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, anyone skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation Or replacement, it should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with the power Subject to the protection scope that benefit requires.

Claims (10)

1. a kind of booster measurement device of oil tempera, which is characterized in that including booster flowline jointing holes (1), temperature sensor Mounting portion (3) and oil storage cabin (4), the booster flowline jointing holes (1) are for being connected to booster flowline and the storage One end far from the booster flowline jointing holes (1) of bunker (4), the oil storage cabin (4) has an oil outlet (41), institute The aperture for stating oil outlet (41) is less than the aperture of the booster flowline jointing holes (1), the temperature sensor mounting portion (3) For mounting temperature sensor, and the temperature sensor mounting portion (3) is connected with the oil storage cabin (4).

2. booster measurement device of oil tempera as described in claim 1, which is characterized in that the booster measurement device of oil tempera includes One main part (5), the booster flowline jointing holes (1) are opened in a manner of extending along the short transverse of the main part (5) In the main part (5).

3. booster measurement device of oil tempera as claimed in claim 2, which is characterized in that the upper surface shape of the main part (5) The lower end surface in the first type face (a) that the lower end surface of Cheng Youyu booster flowline matches, the main part (5) is formed with and sends out The second type face (b) that the upper surface of motivation cylinder body matches.

4. booster measurement device of oil tempera as claimed in claim 2, which is characterized in that the oil storage cabin (4) is along the master The short transverse in body portion (5) is set to the main part (5), the storage from the mode that the main part (5) outwardly protrudes extension Bunker (4) is for being inserted into the oilhole of engine cylinder body being connected with booster flowline.

5. booster measurement device of oil tempera as claimed in claim 2, which is characterized in that the temperature sensor mounting portion (3) The side of the main part (5) is set in a manner of outwardly protruding extension from the main part (5).

6. booster measurement device of oil tempera as claimed in claim 2, which is characterized in that the booster measurement device of oil tempera also wraps The fixation hole (2) being arranged side by side with the booster flowline jointing holes (1) is included, the fixation hole (2) is used for the pressurization Device measurement device of oil tempera is fixed between booster flowline and engine cylinder body.

7. booster measurement device of oil tempera as claimed in claim 6, which is characterized in that the fixation hole (2) is along the master The mode that the short transverse in body portion (5) extends is opened in the main part (5), and the axial direction of the fixation hole (2) and the increasing Depressor flowline jointing holes (1) are axial parallel with the oil storage cabin (4).

8. booster measurement device of oil tempera as claimed in claim 6, which is characterized in that the fixation hole (2) is and booster The bolt hole that bolt hole on flowline and engine cylinder body matches.

9. booster measurement device of oil tempera as described in claim 1, which is characterized in that the aperture of the oil outlet (41) is institute State the 2/5~3/5 of the aperture of booster flowline jointing holes (1).

10. booster measurement device of oil tempera as described in claim 1, which is characterized in that the height of the oil storage cabin be 3~ 5mm。