JP2014145342A - Negative pressure supply device of engine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a negative pressure supply device of an engine capable of simplifying a piping structure, and improving rigidity of a cylinder head.SOLUTION: A vacuum pump 3 is mounted on a cylinder head 1, and a cylinder head internal negative pressure passage 24 for communicating an inlet 15 connected to a pump inlet 27 of the vacuum pump 3 and negative pressure outlets 17, 18 connected to a negative pressure operation apparatus, is formed on a wall of the cylinder head 1. A pipe connecting portion 26 connected to the cylinder head internal negative pressure passage 24 and connecting the negative pressure outlets 17, 18 is disposed outside of a wall portion of the cylinder head 1. In a case when two connection holes 29 of which axes are orthogonal to one communication passage 28, are formed in a direction opposite to each other, ribs constituting outer walls of the communication passage 28 and the connection hole 29 are formed continuously to an outer side of the wall portion of the cylinder head 1, thus rigidity of the cylinder head 1 is improved.

Description

  The present invention relates to a negative pressure supply device that supplies a negative pressure to a negative pressure operating device used in a vehicle, and in particular, to a negative pressure of an engine that supplies a negative pressure to a negative pressure operating device by a vacuum pump attached to a cylinder head of the engine. It is suitable for the supply device.

  The vacuum pump has a function of generating a negative pressure by a rotational driving force, and the negative pressure is used in an engine negative pressure operating device such as a negative pressure booster for a brake or a VSV (Vacuum Switching Valve) for turbocharger control. . As an engine negative pressure supply device using such a vacuum pump, for example, there is one described in Patent Document 1 below. In this negative pressure supply device for an engine, a vacuum pump whose pump shaft is driven by a timing chain is attached to a cylinder block, and a negative pressure forming passage member for connecting the vacuum pump and the negative pressure operating device is provided along the upper end of the cylinder head. Pipe them together. The negative pressure forming passage member is formed by bending a metal pipe.

JP 2003-74411 A

  By the way, as a rotational drive source of such a vacuum pump, a camshaft is often used in recent years. That is, the vacuum pump is connected to and driven by the cam shaft. Such a vacuum pump is often attached to the cylinder head. However, in the engine negative pressure supply device described in Patent Document 1, the negative pressure operating device is disposed in the vicinity of the cylinder head. Since the negative pressure operating device and the vacuum pump are connected by a negative pressure forming passage member made of a metal pipe, the piping structure is complicated, and for example, there are many parts such as a fixture for fixing the metal pipe.

  The present invention has been made paying attention to the above problems, and an object of the present invention is to provide a negative pressure supply device for an engine that can simplify the piping structure and increase the rigidity of the cylinder head. It is what.

  In order to solve the above-described problems, an aspect of the present invention is an engine negative pressure supply device that supplies negative pressure to a negative pressure operating device by a vacuum pump attached to a cylinder head of an engine. A cylinder head negative pressure passage formed between the suction port connected to the pump suction port of the vacuum pump and the negative pressure outlet connected to the negative pressure operating device; and an outer side of the wall of the cylinder head The engine negative pressure supply device is provided with a pipe connecting portion that is connected to the negative pressure passage in the cylinder head and connects the negative pressure outlet.

  In addition, the negative pressure passage in the cylinder head includes a communication passage that communicates with the suction port, a communication hole that communicates with the pipe connection portion, an axis is orthogonal to the axis of the communication passage, and the axis is a straight line. It was.

  Further, the connecting hole has an axis set so that the communication path side is lower in the vertical direction of the engine than the pipe connecting portion side.

  According to an aspect of the invention, a vacuum pump is attached to a cylinder head of an engine, and the cylinder head communicates between an intake port connected to a pump intake port of the vacuum pump and a negative pressure take-out port connected to a negative pressure operating device. An internal negative pressure passage is formed in the wall of the cylinder head, and a pipe connecting portion connected to the negative pressure passage in the cylinder head and for connecting the negative pressure outlet is disposed outside the wall portion of the cylinder head. Therefore, the piping structure from the negative pressure outlet to the negative pressure operating device can be simplified. In addition, when the piping structure from the negative pressure outlet to the negative pressure operating device is a rubber hose, the piping section of the rubber hose can be shortened, and the negative pressure generated by the vacuum pump is transferred to the negative pressure operating device. Pressure transmission performance is improved. Further, it is possible to prevent freezing of moisture in the air in the negative pressure passage in the cylinder head due to the heat of the cylinder head.

  The negative pressure passage in the cylinder head is configured to include a communication passage that communicates with the suction port, and a connection hole that communicates with the pipe connection portion and whose axis is orthogonal to the axis of the communication passage and whose axis is linear. . For this reason, when two connecting holes whose axes are orthogonal to each other are formed in opposite directions, ribs constituting the outer walls of the communicating path and the connecting hole are continuously formed outside the wall portion of the cylinder head. It becomes possible to increase the rigidity of the cylinder head. This also improves the performance of isolating engine internal sounds such as gear noise attached to the camshaft and timing chain operating noise. Further, even when three or more negative pressure outlets are provided, all the negative pressure outlets can be arranged in the cylinder head by connecting three or more connecting holes to one communication path. The layout of the negative pressure outlet becomes easy.

  In addition, the axis of the connection hole was set so that the communication path side was lower in the engine vertical direction than the pipe connection side. As a result, liquid such as moisture and oil in the negative pressure passage in the cylinder head can be collected on the vacuum pump side and discharged from the vacuum pump.

It is a top view which shows one Embodiment of the cylinder head to which the negative pressure supply apparatus of the engine of this invention was applied. It is a front view which shows the attachment structure of the vacuum pump in the cylinder head of FIG. It is a perspective view of the negative pressure supply apparatus in the cylinder head of FIG. It is AA sectional drawing of FIG. 2 which shows the negative pressure channel | path in a cylinder head of FIG.

  Next, an embodiment of an engine negative pressure supply device of the present invention will be described with reference to the drawings. FIG. 1 is a plan view of the cylinder head of the present embodiment, FIG. 2 is a front view showing a vacuum pump mounting structure in the cylinder head of FIG. 1, and FIG. 3 is a perspective view of a negative pressure supply device in the cylinder head of FIG. FIG. In the engine of this embodiment, the cylinder head 1 is attached above a cylinder block (not shown). The cylinder head 1 according to the present embodiment includes a cylinder head lower portion 1a mounted above the cylinder block and a cam housing 2 attached above the cylinder head. Although the engine body is mounted on the vehicle in various directions, it is mounted so that the cylinder head 1 is approximately upward with respect to the cylinder block, so that the direction is defined as the engine upper direction and the opposite direction as the engine lower direction. To do.

  The engine of this embodiment includes negative pressure operating devices such as a negative pressure booster (master bag) 51 and a turbocharger control VSV 52 in the vicinity of the cylinder head 1. Among these, the negative pressure booster 51 is attached to the master cylinder 53, and is used for boosting the depression force on a brake pedal (not shown) to obtain a large brake fluid pressure. The turbocharger control VSV 52 is connected to the turbocharger 54 to control the operating state of the turbocharger 54. In addition to this, examples of the negative pressure operating device using the negative pressure obtained by the engine include an EGR passage control VSV for opening and closing a passage of an exhaust gas recirculation device (EGR).

  First, the vacuum pump 3 used in this embodiment will be described. The vacuum pump 3 of the present embodiment includes a main body portion 4 in which a rotor such as a vane is accommodated, and a pump shaft 5 to which the rotor is connected in the main body portion 4 and protrudes from the main body portion 4 to the outside. The main body 4 includes a housing 6 that accommodates a rotor and the like, and a lid 7 that seals the housing 6 that accommodates the rotor. The lid 7 can be attached to and detached from the housing 6 by a fastener 11 such as a bolt. Installed on. The housing 6 has a pump upper side boss portion 8 for fixing the engine upper side of the vacuum pump 3 to the engine, and a pump lower side boss portion 9 for fixing the engine lower side of the vacuum pump 3 to the engine. There are two places. Bolts 10 are respectively inserted into the pump upper boss portion 8 and the pump lower boss portion 9, and the vacuum pump 3 is fixed to the cylinder head 1 by these bolts 10. The pump shaft 5 projects from the housing 6 of the main body 4 in the same direction as the projecting direction of the bolt 10, and a bifurcated claws 12 are formed on the projecting end. Reference numeral 27 in the drawing denotes a pump inlet provided on the side of the pump shaft 5 of the housing 6 of the vacuum pump 3.

  On the other hand, in this embodiment, two camshafts 13 and 14 are arranged in one cylinder head 1. Of these, for example, the left camshaft 13 shown in FIG. 3 is an exhaust camshaft, and the right camshaft 14 is an intake camshaft. These camshafts 13 and 14 are rotatably supported with respect to the cylinder head 1 by being attached to the cylinder head lower portion 1a so as to cover the cam housing 2 from above the engine. When the cam housing 2 is attached to the cylinder head lower portion 1a, for example, the cam shafts 13 and 14 are pressed against the cylinder head lower portion 1a side by the cam housing 2 against the reaction force of the lash adjuster. In the cam housing 2, for example, a suction flange 16 is formed on the axial end side of the cam shafts 13 and 14 that can be seen in FIG. 3, and a suction port 15 is formed in the center of the suction flange 16. ing. The suction port 15 is connected to the first negative pressure extraction port 17 connected to the turbocharger control VSV 52 and the second negative pressure connected to the negative pressure booster 51 in the cam housing 2, that is, the wall of the cylinder head 1. The outlet 18 is communicated. Among these, the first negative pressure outlet 17 is connected to the turbocharger control VSV 52 via the rubber hose 55, and the turbocharger control VSV 52 is connected to the turbocharger 54 via the rubber hose 55. Further, the second negative pressure outlet 18 is connected to the negative pressure booster 51 through a rubber hose 55.

  In this embodiment, a gear 19 is attached to one axial end of the two camshafts 13 and 14, that is, for example, the axial end on the side visible in FIG. These gears 19 mesh with each other and have the same number of teeth. Accordingly, the two camshafts 13 and 14 are rotated in the opposite directions at the same speed. In this embodiment, the timing gear 20 is attached only to the intake camshaft 14 of the two camshafts 13 and 14. A timing chain 21 that transmits the rotation of the crankshaft is wound around the timing gear 20. For this reason, the two camshafts 13 and 14 rotate in opposite directions at a rotational speed that is half the rotational speed of the crankshaft in synchronization with the rotation of the crankshaft.

  Further, a cam housing side boss portion 22 is formed at one location adjacent to the intake flange 16 above the engine of the gear 19 of the exhaust cam shaft 13 to which the timing gear 20 is not attached. Is formed with one screw hole. Also, two cylinder head side boss portions 23 are formed below the engine of the gear 19 of the exhaust camshaft 13, and one screw hole is formed for each. Among these, the screw hole of the cam housing side boss portion 22 corresponds to the pump upper side boss portion 8 formed in the main body portion 4 of the vacuum pump 3, and the cylinder head side boss portion 23 corresponds to the pump lower side boss portion 9. . Further, an engagement groove 25 into which the engagement claw 12 of the vacuum pump 3 is fitted is formed at the axial end of the exhaust camshaft 13 to which the gear 19 is attached.

  The engagement claw 12 of the vacuum pump 3 is fitted into the engagement groove 25, the pump upper side boss part 8 is assigned to the cam housing side boss part 22, and the pump lower side boss part 9 is assigned to the cylinder head side boss part 23. . In this state, the bolt 10 inserted into the pump upper boss 8 is screwed into the screw hole of the cam housing boss 22, and the bolt 10 inserted into the pump lower boss 9 is inserted into the cylinder head boss 23. Screw in. Further, by tightening these bolts 10 into the screw holes of the cam housing side boss portion 22 and the screw holes of the cylinder head side boss portion 23, the vacuum pump 3 is connected to the cam housing 2 and the cylinder head lower portion 1 a, i. Fixed to. Thereby, the pump shaft 5 of the vacuum pump 3 is connected to the axial end portion of the exhaust cam shaft 13, and the cam housing 2 and the cylinder head 1 are connected by the main body portion 4 of the vacuum pump 3. By attaching the vacuum pump 3 to the cylinder head 1 and the cam housing 2 in this way, the pump suction port 27 of the vacuum pump 3 is connected to the suction port 15 of the cam housing 2, and a negative pressure passage 24 in the cylinder head to be described later. In addition, the gas from the first negative pressure outlet 17 and the second negative pressure outlet 18 can be sucked through the pipe connecting portion 26.

  A cover (not shown) is attached to the cam housing 2 and the cylinder head lower portion 1a to which the vacuum pump 3 is attached, that is, the end face of the cylinder head 1. By attaching this cover to the end surfaces of the cam housing 2 and the cylinder head lower portion 1a, the vacuum pump 3 is covered, and the end surface of the cam housing 2 and the end surface of the cylinder head lower portion 1a are sealed. And this cover can isolate the noise generated when the vacuum pump 3 is operated.

  The cylinder head negative pressure passage 24 individually communicates the suction port 15 connected to the pump suction port 27 of the vacuum pump 3 and the negative pressure extraction ports 17 and 18 connected to the negative pressure operating device. In this embodiment, it is formed in the wall of the cylinder head 1, more specifically in the outer wall of the cam housing 2. In addition, the pipe connecting portion 26 is connected to the negative pressure passage 24 in the cylinder head and connects the first negative pressure extraction port 17 or the second negative pressure extraction port 18. It is arranged outside the wall, more specifically outside the outer wall of the cam housing 2. That is, the pump suction port 27 of the vacuum pump 3 is connected to the first negative pressure take-out port 17 of the pipe connecting portion 26 from the cylinder head 1, more specifically, the suction port 15 of the cam housing 2 through the cylinder head negative pressure passage 24. Alternatively, it is connected to the second negative pressure outlet 18. As described above, since the first negative pressure outlet 17 is connected to the turbocharger control VSV 52 and the second negative pressure outlet 18 is connected to the negative pressure booster 51, the negative pressure of the vacuum pump 3 is reduced in the cylinder head. These negative pressure operating devices are supplied via the negative pressure passage 24.

  The negative pressure passage 24 in the cylinder head is connected to a communication passage 28 that communicates with the suction port 15 of the cam housing 2, a connection hole that communicates with the pipe connection portion 26, and whose axis is orthogonal to the axis of the communication passage 28 and whose axis is linear. 29. In the present embodiment, a cylinder head negative pressure passage 24 that communicates the suction port 15 and the first negative pressure extraction port 17, and a cylinder head negative pressure passage 24 that communicates the suction port 15 and the second negative pressure extraction port 18. Two cylinder head negative pressure passages 24 of the two systems are formed, but the communication passage 28 communicating with the suction port 15 is common. That is, two connection holes 29 are connected to one communication path 28, and the axis of each connection hole 29 is orthogonal to the axis of the communication path 28. In the present embodiment, the first negative pressure extraction port 17 and the second negative pressure extraction port 18 are disposed in opposite directions with the suction port 15 in between, and therefore, two systems of connection holes 29 orthogonal to the communication path 28. Are arranged in a straight line across the communication path 28 in a plan view, for example. Since the portion forming the outer wall of the connecting hole 29 has a rib shape protruding from the outer wall of the cam housing 2, that is, the outer wall of the cylinder head 1, the outer wall of the connecting hole 29 formed in the opposite direction is the outer wall of the cylinder head 1. It becomes a continuous rib shape, and the rigidity of the cylinder head 1 is improved. In addition, although the check valve 30 is built in the vacuum pump 3 as shown in FIG. 4, even in the case where two systems of negative pressure passages 24 in the cylinder head are formed as in this embodiment. The check valve 30 can be shared. Incidentally, the check valve 30 is for maintaining the negative pressure in the cylinder head negative pressure passage 24 when the engine is stopped.

  Further, in the present embodiment, as shown in FIG. 2, the axis of the connection hole 29 of each cylinder head negative pressure passage 24 is set so that the communication passage 28 side is lower in the engine vertical direction than the pipe connection portion 26 side. Set. As a result, moisture and oil in the cylinder head negative pressure passage 24 gather on the suction port 15 side, that is, on the vacuum pump 3 side. Since the vacuum pump 3 sucks and discharges air in the cylinder head negative pressure passage 24, the water and oil collected on the vacuum pump 3 side are also sucked and discharged by the vacuum pump 3.

  As described above, in the engine negative pressure supply device according to the present embodiment, the vacuum pump 3 is attached to the cylinder head 1 of the engine, and is connected to the suction port 15 connected to the pump suction port 27 of the vacuum pump 3 and the negative pressure operating device. A negative pressure passage 24 in the cylinder head that communicates with the negative pressure outlets 17 and 18 is formed in the wall of the cylinder head 1 and is connected to the negative pressure passage 24 in the cylinder head and connected to the negative pressure outlets 17 and 18. A pipe connection portion 26 for connection is disposed outside the wall portion of the cylinder head 1. Therefore, the piping structure from the negative pressure outlets 17 and 18 to the negative pressure operating device can be simplified. Further, when the piping structure from the negative pressure outlets 17 and 18 to the negative pressure operating device is the rubber hose 55, the piping section of the rubber hose 55 can be shortened, and the negative pressure generated by the vacuum pump 3 is negative pressure operated. The negative pressure transmission performance until it is transmitted to the equipment is improved. In addition, the moisture in the air in the cylinder head negative pressure passage 24 can be prevented from freezing by the heat of the cylinder head 1.

  The negative pressure passage 24 in the cylinder head includes a communication passage 28 that communicates with the suction port 15, a connection hole 29 that communicates with the pipe connection portion 26, and whose axis is orthogonal to the axis of the communication passage 28 and whose axis is linear. It is configured with. Therefore, when two connecting holes 29 whose axes are orthogonal to each other are formed in one communication path 28 in opposite directions, the ribs constituting the outer walls of the communication path 28 and the connection hole 29 are formed outside the wall portion of the cylinder head 1. It is formed continuously, and the rigidity of the cylinder head 1 can be increased. This also improves the performance of isolating engine internal sounds such as gear noise attached to the camshaft and timing chain operating noise. Even when three or more negative pressure outlets are provided, all of the negative pressure outlets are arranged in the cylinder head 1 by connecting three or more connecting holes 29 to one communication path 28. And the layout of the negative pressure outlet becomes easy.

  In addition, the axis of the connection hole 29 was set so that the communication passage 28 side was lower in the engine vertical direction than the pipe connection portion 26 side. As a result, liquid such as moisture and oil in the cylinder head negative pressure passage 24 can be collected on the vacuum pump 3 side and discharged from the vacuum pump 3.

1 is a cylinder head 2 is a cam housing 3 is a vacuum pump 4 is a main body part 5 is a pump shaft 6 is a housing 7 is a lid body 8 is a pump upper side boss part 9 is a pump lower side boss part 10 is a bolt 11 is a fastener 12 The engaging claw 13 is an exhaust camshaft 14 is an intake camshaft 15 is a suction port 16 is a suction flange 17 is a first negative pressure outlet 18 is a second negative pressure outlet 19 is a gear 20 is a timing gear 21 is a timing chain 22 Cam housing side boss portion 23 is cylinder head side boss portion 24 is cylinder head negative pressure passage 25 is fitting groove 26 is pipe connection portion 27 is pump suction port 28 is communication passage 29 is connection hole 51 is a negative pressure booster 52 is VSV for turbocharger control
53 is a master cylinder 54 is a turbocharger 55 is a rubber hose

Claims (3)

In an engine negative pressure supply device for supplying negative pressure to a negative pressure operating device by a vacuum pump attached to a cylinder head of the engine,
A negative pressure passage in the cylinder head that is formed in the wall of the cylinder head and communicates with a suction port connected to a pump suction port of the vacuum pump and a negative pressure extraction port connected to the negative pressure operating device;
A negative pressure supply device for an engine, comprising: a pipe connecting portion arranged outside the wall portion of the cylinder head, connected to the negative pressure passage in the cylinder head, and connecting the negative pressure outlet. The negative pressure passage in the cylinder head is
A communication path communicating with the suction port;
2. The negative pressure supply device for an engine according to claim 1, further comprising a connecting hole that communicates with the pipe connecting portion, has an axis orthogonal to the axis of the communication path, and has a straight line.   3. The negative pressure supply device for an engine according to claim 1, wherein an axis of the connection hole is set so that the communication path side is downward in the engine vertical direction than the pipe connection portion side. 4. .

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