DE3430038A1 - Hydraulic system for a harvesting machine with a hydraulic control arrangement - Google Patents

Abstract

A hydraulic system for a harvesting machine with a hydraulic control arrangement (10) has a pump group (11), a first control group (12) for a single-acting working cylinder (13) for lifting and lowering a reaping table (18), and also a second control group (14) for single-acting working cylinders (15) and (16) and for a double-acting working cylinder (17). Arranged in the control group (14) is a control valve (60) which controls the pressure medium to the working cylinders (15, 16, 17) and/or to a directional control valve (33), which can be pilot-controlled hydraulically, a non-return valve (46) and a directional control valve (26). The directional control valve (33) and the non-return valve (46) are located in the control group (12) and control the pressure medium to the working cylinder (13). A second pump (20) with a greater delivery rate can be switched on by means of the directional control valve (26). The working cylinders (15, 16, 17) and the working cylinder (13) can be supplied with a different quantity of pressure medium. The control arrangement is of simple and compact construction. <IMAGE>

Description

Hydraulic system for a harvesting machine with a hydraulic

Lischen control device prior art The invention is based of a hydraulic system for a harvesting machine with a hydraulic control device according to the genre of the main claim. It is such a hydraulic system known in which the control valves for additional consumers with the help of mechanical Rods or Bowden cables can be operated. The additional consumers and the Main consumers are connected in parallel, so that the same for all consumers Pressure medium flows. The control valves of the consumers are in a single one Control group arranged.

Advantages of the invention The arrangement according to the invention with the characterizing Features of the main claim has the advantage that the additional Consumers and the main consumers despite being connected in parallel with a different one Amount of pressure medium can be supplied. An additional pump with a larger delivery rate is dampened switchable. When the harvester is operated, the second pump is activated at the same time switched on. With the help of two solenoid operated control valves, the additional consumers arranged individually or in a separate control block switchable together, and the Druckmitr tel is to hydraulically controllable control valves of the main consumer controllable. Additional consumers can be used at the same time can be controlled in different directions.

The measures listed in the subclaims are advantageous Further developments and improvements to the features specified in the main claim are possible. The annular arrangement of the control valves for the additional ones is particularly advantageous Consumers and their magnets in a separate control block separate from the control block for the main consumer. This means that the hydraulic system is compact and simple. The additional consumers and the main consumer are in two separate assemblies arranged, whereby easy maintenance is possible.

Drawing An embodiment of the invention is shown in the drawing and explained in more detail in the following description. It show figure 1 shows a circuit diagram of a hydraulic system and FIGS. 2 and 3 show a structural design of the embodiment, Figure 2 in section, Figure 3 in perspective.

Description of the exemplary embodiment A hydraulic system with a hydraulic control device 10 on a harvesting machine has a pump group 11 a first control group 12 for a single-acting working cylinder 13 and a second control group 14 for single-acting cylinders 15 and 16 and for one double-acting working cylinder 17. The working cylinder 13 is used for lifting and Lowering a cutting table 18 of the harvesting machine. To the working cylinder 15, 16 and 17 additional implements of the harvesting machine can be connected.

The pump group 11 has a pump 20, which has an inlet line 21 sucks pressure medium from a tank 22 and conveys it into a line 23. Of this A line 25 branches off from a connection point 24 shortly after the pump 20, via a hydraulically pilot-controllable 2l2-way valve 26 to a second pump 27 ride. The directional control valve 26 has a flow position I and a blocking position II. The pump 27 also delivers into the line 23, but has a lower delivery rate as the pump 20. Between a connection point 28 of the pump 27 and the connection place 24, a check valve 29 is arranged in the line 23, which the line 23 to the pump 20 shut off. Behind the directional control valve 26 branches off a line 30 to Feed line 21 from.

From line 23 leading from pump group 11 to control group 12 leads, branches after the connection point 28 a pump line 32 to the control group 14 from. The line 23 leads in the control group 12 to a hydraulically pilot operated 412-way valve 33. Downstream also branches from the line 23 from a connection point 34 from a return line 35 which leads back to the tank 22. Shortly after the junction 34, a pressure relief valve 36 is arranged in the return line 35. Further branches downstream from the directional control valve 33 from a second connection point 37 Bypass line 38 to directional control valve 33. In this is a second pressure relief valve 39 switched. From a point between the connection points 34 and 37 a control line 41 goes out, which leads to both pressure relief valves 36, 39 branches out.

The pressure relief valve 36 is advantageously at a higher level Opening pressure set as the pressure relief valve 39.

The directional control valve 33 has the switching positions I and II and the connections a, b on one side and e, d on the other side. The terminal a opens Line 23, at connection c the bypass line 38. A line runs from connection b 42 to return line 35. A line 43 leads from connection d to pressure chamber 44 of the single-acting working cylinder 13. In switching position I is in the directional control valve 33 an adjustable throttle 45 is arranged between the connections b and d. In In switch position II, ports a and d are connected to one another. On the line 43 a hydraulically releasable check valve 46 is arranged, which the line 43 shut off towards directional control valve 33. Shortly before the pressure chamber 44 branches off the line 43 from a line 47 to a pressure accumulator 48.

A line 50 branches off from the connection point 37 in the line 23 which leads to the return line 35 via a circulation valve 51. From one before Circulation valve 52 located connection point 52 branches off a control line 53 to the return line 35 from. Shortly after the connection point 52 there is a throttle in the control line 53 54 switched. A control line branches off downstream from a connection point 55 56 to the circulation valve 51 loaded on this side by a spring 57. Between the connection points 37 and 52 branches a second control line 58 to the other side of the circulation valve 51. Behind the connection point 55 is in the control line 53 a 2/2 solenoid valve 59 is arranged. It has a flow position I and a blocking position II, The pump line 32 leads in the control group 14 to a 4/2 solenoid valve 60. This has switch positions I and II and the connections a, b on one side and c, d on the other side. The pump line 32 opens at connection a. A line 61 leads from connection c to a 5/2 solenoid valve 62, from connection d a line 63 to a second 5/2 solenoid valve 64 and from the connection b a line 65 to a line 66. This connects a third 5/2 solenoid valve 67 with the solenoid valve 62 and is connected to the return line 35 via a line 68 connected.

The solenoid valves 62, 64 and 67 are designed and have the same the switch positions I and II and the connections a, b, c on one side and d, e on the other side. A line opens out at connection a of the solenoid valve 67 71, which emanates from the line 63, at connection b a control line 72, which is short branches off from a connection point 73 of the pump line 32 in front of the solenoid valve 60, and at connection c the line 66. Shortly after the connection point 73 is in the control line 72 a throttle 74 is arranged. A line leads from connection d of solenoid valve 67 75 to a pressure chamber 76 of the double-acting consumer 17. In this is a hydraulically releasable 2/2-way check valve 77 is arranged, to which one at the connection e of the solenoid valve 67 connected control line 78 leads.

The shut-off valve 77 has a shut-off position I in which in the shut-off valve 77 a check valve 79 securing the line 75 to the directional valve 67 is arranged is, and a flow position II, from the piston rod side pressure chamber 81 of the Working cylinder 17 leads a line 82 to line 61. In this line 82 is a second shut-off valve 83 is switched, which is formed identically to the shut-off valve 77 is. A control line 84 branches off from the control line 78 to the shut-off valve 83.

Line 61 opens at connection a of solenoid valve 62, at connection b a control line 86 which leads to the control line 72, and the line at connection c 66. A line 87 leads from connection d to the pressure chamber 88 of the single-acting working cylinder 16. A third shut-off valve 89 is connected into this, which again is the shut-off valve 77, 83 and via a control line 90 to connection e of the solenoid valve 62 is connected.

This line 63 opens at connection a of the solenoid valve 64, at the connection b a control line 92, which is connected to the control line 86, and at the connection c a line 93 which establishes a connection to the line 66. From the terminal d A control line 94 leads to the directional control valve 33 and a control line from the connection e 95 to the check valve 46. A control line 96 branches off from the control line 94 which leads to directional control valve 26 in pump group 11. There is a thrush in it 97 arranged.

In the control group 14 is a fourth, the solenoid valves 62, 64, 67 corresponding 5/2 solenoid valve 100 arranged. At its connection a opens a Line 101, which branches off from line 7S, at connection b a control line 102, which branches off from the control line 72 and at the connection c a line 103, the one Connection to the line 66 establishes, the connection d is via a line 104 with connected to the pressure chamber 105 of the working cylinder 15. In this one is the check valves 77, 83, 89 corresponding shut-off valve 206 switched. One at the connection leads to this e of the solenoid valve 200 opening control line 107.

With neutral circulation, i.e. none of the working cylinders 13, 15, 16, 17 is activated, the pump 20 sucks pressure medium from the tank via line 21 22 and promotes this in the line 25, the pressure medium flows over the itself Directional valve 26 located in flow position I into line 25. Part of the The amount of pressure medium flows via line 30 to feed line 21, the other part to the pump 27 and is displaced by this into the line 23. Since the directional control valve 33 is in switching position I, the line 23 to the working cylinder 13 is blocked. The pressure medium flows via the line 50 and the open circulation valve 51 to Return line 35 and to tank 22, all working cylinders 15, 16, 17 are through the shut-off valves 77, 83, 89, 106 in the shut-off position I are shut off.

The shut-off valves 77, 83, 89, 106 are advantageously to the tank 22 relieved.

Should only the working cylinder 13 acted upon and thus the mower table 18 are raised, the solenoid valves 59 and 64 are actuated and both in Switching position II switched. The solenoid valve 59 blocks the control line 53, so that the circulation valve 51 is switched to the blocking position, and it the line 50 to the return line 35 shut off.

The pressure medium conveyed by the pump 27 flows via the line 23, the pump line 32 and the solenoid valve in switching position I. 60 in the line 63 and further via the solenoid valve located in switching position II 64 into control line 94.

The pressure in the control line 94 brings the directional control valve 33 into its Switching position II, but at the same time the pressure medium flows from the control line 94 about the Control line 96 to directional control valve 26, which is in its blocking position II is switched., The pump 20 is thus connected to the pump 27, so that add their flow rates.

The pressure medium flows from the connection point 73 in the pump line 32 also via the throttle 74, the control lines 72, 86 and 92 and that is in the switching position II located solenoid valve 64 in the control line 95 and to the check valve 46. This is controlled by the pressure in the control line 95, with the help of the throttle 74 a damped opening of the check valve 46 is possible. It would take place of the check valve 46 also corresponds to the check valves 77, 83, 89, 106 Check valve can be used.

The pressure medium conveyed by the pumps 20 and 27 now flows over the line 23, the directional control valve 33 in switching position II, the line 43 and the open check valve 46 in the pressure chamber 44 of the working cylinder 13, so that the cutting table 18 is raised. The bypass line 38 is at connection c of the directional control valve 33 is blocked, so that the pressure relief valve 39 is advantageous is blocked. There is therefore no flow through it, so that its effect is canceled is. As a result, it is only with neutral circulation and when lowering the working cylinder 13 effective. Excess pressure medium can in the end position of the working cylinder 13 Flow through the pressure relief valve 36 into the return line 35.

If the desired lifting height of the mower table 18 is reached, the Solenoid valves 59 and 64 de-energized again, as a result of which the solenoid valve 59 is again moved into its flow position I and the solenoid valve 64 into its switching position 1. The pressure at the directional control valves 26 and 33 and on the check valve 46 drops so that the check valve 46 blocks the line 43 to the tank 22, the directional control valve 33 is in switching position I and the line 23 blocks, and the directional control valve 26 is in the flow position I. The set lifting height of the cutting table 18 is retained.

If the mower table 18 is to be lowered again, the solenoid valves are 59, 60 and 64 actuated. As described above, the circulation valve is thereby located 51 in the blocking position, and the check valve 46 is hydraulically opened, Da but the solenoid valve 60 is also actuated and is in switching position II is located, no pressure medium flows via line 63, the solenoid valve 64 and the Control line 94 to directional control valve 33. This is thereby in the switching position I.

The pressure medium flowing out of the pressure chamber 44 of the working cylinder 13 flows via line 43, the open check valve 46, the directional valve 33, the throttle 45 and the line 42 into the return line 35 and back to the tank 22. The pressure medium conveyed by the pump 27 into the line 23 can be via the open pressure relief valve 39 and the bypass line 38 in the line 42 and Flow back into the tank 22 via the return line 35. The directional control valve 26 is located are in switching position I, so that only the pump 27 promotes against pressure.

With the help of the control device 10, however, it is also possible to use the additional Working cylinders 15, 16, 17 can be operated in parallel without cutting table 18. To do this will be again the solenoid valve 59 and at the same time the solenoid valves 60 and 62 actuated, e.g. to control the working cylinder 16.

As described above, the circulation valve 51 is blocked again. That Solenoid valve 64 is not actuated, so that the directional control valve 26 is in the switching position I is located and only the pump 27 promotes into the line 23, it is thereby possible, the working cylinder 15, 16, 17 with a lower flow rate to supply, while when lifting the cutting table 18, the pump 20 is still additional promotes. The pressure medium delivered by the pump 27 flows via the pump line 32, the solenoid valve 60 in switching position II and the line 61 to the solenoid valve 62 which is in switching position II. At the same time, the Pressure medium via the control line 72, the throttle 74, the control line 86, the Solenoid valve 62 and the control line 90 to the check valve 89. This is through the Pressure in the control line 90 switched to its flow position II.

From the solenoid valve 62, the pressure medium via the line 87 and the now open shut-off valve 89 flow into the pressure chamber 88, and the working cylinder 16 extends. The throttle 74 enables all shut-off valves 77, 83, 89, 106 a dampened opening, if the desired position of the working cylinder 16 is reached, so the magnets of the solenoid valves 59, 60, 62 are de-energized again and thereby the Solenoid valves 59, 60, 62 are controlled in switching position I again. The check valve 89 closes because its control line 90 via the solenoid valve 62, lines 66 and 68 and the return line 35 to the tank 22 is relieved.

To lower the working cylinder 16, the solenoid valve 62 and the solenoid valve 59 actuated again; but the solenoid valve 60 is not actuated in its switching position I. The pressure in the control line 90 - as above described - the check valve 89 switched to flow position II. That from the Pressure medium flowing out of the pressure chamber 88 of the working cylinder 16 flows via the line 87, the solenoid valve 62, the line 61, the solenoid valve 60, the line 65, the Lines 66 and 68 and the return line 35 into the tank 22 from.

Depending on the switching position of the solenoid valves 67 and 100, the working cylinders 15 and 17 in addition to the working cylinder 16 can be extended or lowered.

This enables parallel operation of the three working cylinders 15, 16, 17 or, alternatively, individual operation of one of these working cylinders 15, 16, 17 is possible. Depending on the switching position of the solenoid valve 64, it is also possible to use the working cylinder 13 and the working cylinders 15, 16, 17 operate in parallel. Advantageously the working cylinder 13 can have a greater pressure medium flow than the working cylinder 15, 16 or 17 are applied.

Of course, several single or double-acting Working cylinder in the second control group 14 can be arranged.

In Figures 2 and 3 is a structural design of the embodiment shown. Corresponding components are denoted by the same reference numerals as before. The control block 14 has a disk-like body 111, a disk 112 and a connection cover 113 on. The body 111 has a bulge-like, protruding one Edge 114, which surrounds the disc 112 on the outside. The body 111 and the disc 112 are fastened to the connection cover 113 with the aid of screws 115.

In the edge 114 are annular according to the number of solenoid valves 60, 62, 64, 67, 100 vertical through bores 116 are formed. These are at its upper end - as shown in Figure 3 - by ring-shaped on the body 111 arranged magnets 117 completed. The other end of the bores 116 is closed by a screw plug 118. In each of the bores 116 one of the solenoid valves, e.g., solenoid valve 62. It has a spool valve 120, which has three sections 123, 124, 125 separated by annular grooves 121, 122. At one end there is a return spring -126 on the outer one Section j25 and at its other end to the screw plug 1J8, In the Bore .116 six annular grooves 127 to 132 are formed, with the two outer (127, 132) die.Leitung 66, in the annular groove 129 the line 86 and in the annular groove 130 the line 61 or 63 opens. A connection channel 133 leads from the annular groove 131 to a parallel to the bore 116 and in the disk 112 and in the connection channel 113 formed, stepped, through hole 134. At the transition point a recess 135 is formed in the body 111 between the disk 112 and the body 11.1, to which the return line 35 is connected. Furthermore, leads from the annular groove a28 a second connection channel 136 to a bore a37 which is axially aligned with the bore 134, which is formed in the body 111. This bore 137 has a larger diameter than hole 134.

In the bore 134 there is a respective solenoid valve 62, 67, 100 associated shut-off valve 77, 83, 89, 106 arranged. Its structural design has a control slide guided in the bore 534 and loaded by a spring 138 139 on, this has two sections 141, 142, which are separated by an annular groove 243 are separated.

A pin 144 is arranged on the section .141. The other outer Section 142, on which the spring a38 rests, is designed as a valve cone, the rests against a valve seat 145 of the bore 134. After the valve seat 145 is in the bore 134 is arranged a diaphragm z46. The pin 144 of the control slide 139 is in operative connection with a second control slide 247, which is in the bore 137 slidably guided and advantageously pressurizable via the connecting channel 135 is. The line leading to the respective working cylinder 16 is attached to the bore 134, z, B, the line 87, connected,

Claims (18)

Claims 1. Hydraulic system for a harvesting machine with a hydraulic Control device (10) for raising and lowering a harvesting device (18), with a pump (27), with one of these with the harvesting device (18) via a directional control valve (33) and a check valve (46) connecting the first working line (23) on which at least one pressure relief valve (36) is connected, and with a second working line (32) leading from the pump (27) via control valves (62, 67, 100) and pilot-controllable shut-off valves (77, 83, 89, 106) leads to additional consumers (15, 16, 17), characterized in that at least one second pressure medium source with the aid of a first control valve (26) (20) can be switched on so that the first control valve (26) and the directional control valve (33) simultaneously can be actuated, and that in the second working line (32) a second control valve (60) is arranged, the pressure medium to the additional consumers (15, 16, 17) controls. 2. Hydraulic system according to claim 1, characterized in that the Directional valve (33) and the first control valve (26) are hydraulically controllable that a third control valve (64) is connected to the second control valve (60), which controls the control flow to the directional control valve (33) and to the first control valve (26). 3. Hydraulic system according to claim 1 and / or 2, characterized in that that the second control valve (60) divides the pressure medium into several pressure medium circuits (61, 63, 71, 83) controls to which the additional consumers (15, 16, 17) are connected are. 4. Hydraulic system according to one of claims 1 to 3, characterized in that that the pressure medium circuits (61, 63, 71, 83) are arranged so that the additional Consumers (15, 16, 17) can be actuated simultaneously in different directions of movement are. 5. Hydraulic system according to one of claims 1 to 4, characterized in that that the shut-off valve (46) is hydraulically controllable and that its control line (95) is connected to the third control valve (64). 6. Hydraulic system according to one of claims 1 to 5, characterized in that that on the first working line (23) at least one first and one second pressure relief valve (36, 39) are connected so that they are set to a different pressure and that the second pressure relief valve (39) with the help of the directional control valve (33) is lockable, 7. Hydraulic system according to claim 6, characterized in that the first pressure relief valve (36) to a higher pressure than the second pressure relief valve (39) is set. 8. Hydraulic system according to one of claims 1 to 7, characterized in that that the two pressure medium sources (20, 27) have a different delivery rate to have, 9. Hydraulic system according to one of claims 1 to 8, characterized characterized in that the directional valve (33) is a 4/2-way valve which is an adjustable Has throttle point (45) and the pressure relief valve (39) in a working position locks. 10. Hydraulic system according to one of claims 1 to 9, characterized in that that the pressure chambers (76, 81, 88, 105) of the additional consumers (15, 16, 17) through hydraulically controllable shut-off valves (77, 83, 89, 106) are secured, and that with the help of control valves (62, 67, 100) pressure medium to the additional consumers (15, 16, 17) and a control current to the shut-off valves (77, 83, 78, 106) can be controlled is. 11. Hydraulic system according to one of claims 1 to 10, characterized in that that the control valves (62, 64, 67, 100) are designed as 5/2-way valves, and that in switching position I two connections (a, b) are blocked and the remaining connections (c, d, e) are connected to each other, and in switch position II a connection (c) is blocked and two connections (a, d or b, e) are connected to one another are. 12. Hydraulic system according to one of claims 1 to 11, characterized in that that from the second working line (32) upstream of the second control valve (60) a control line (72) branches off, in which a throttle (74) is arranged, and that this control line (72) leads to the shut-off valves (77, 83, 89, 106), 13. Hydraulic system after a of claims 1 to 12, characterized in that all control valves (60, 62, 64, 67, 100) for the additional consumers (15, 16, 17) and their Check valves (77, 83, 89, 106) arranged in a ring in their own housing (14) are, 14. Hydraulic system according to one of claims 3 to 13, characterized in that that all control valves (60, 62, 64, 67, 100) for the additional consumers (15, 16, 17) in a round, disk-like body (111) ring-shaped and approximately perpendicular are arranged on the end face of the body (111). 15. Hydraulic system according to one of claims 1 to 14, characterized in that that the shut-off valves (77, 83, 89, 106) are arranged in a ring in a body (112) are, and that this body (112) is disc-like and in a recess of the body (111) is arranged. 16. Hydraulic system according to one of claims 1 to 15, characterized in that that the control slide (134) of the check valves (77, 83, 89, 106) in operative connection with pressurized second control slide (147), and that the control slide (147) have a larger diameter than the control slide (134). 17. Hydraulic system according to one of claims 1 to 16, characterized in that that the body (112) is arranged on a round connection plate (113). 18. Hydraulic system according to one of claims 1 to 17, characterized in that that the magnets (117) of the control valves (60, 62, 64, 67, 106) for the additional Consumers (15, 16, 17) arranged in a ring on the end face of the body (111) are.