DD299095A5 - INTRODUCTION OF HYDRAULIC - Google Patents

Abstract

The invention relates to an educational hydraulic unit consisting of a multiplicity of hydraulic valves and elements for a) illustrating the function of these valves and elements with the aid of desk models, b) preparing a hydraulic circuit on a blackboard, c) converting the circuit diagram into an assembly, and d) illustrating the function of the circuit in interaction with the valves and elements by means of a movable base frame and an appliance wall (wet) vertically arranged thereon as well as by means of a hydraulic tank and at least one hydraulic cylinder. Each hydraulic valve and/or electrohydraulic appliance or measuring instrument and/or filter has a commercially available transparent plastic outer tube (21) of a larger diameter compared with the hydraulic unit of the same type. The respective valve components, likewise made of plastic or stainless metal, are operatively arranged in the outer tube (21). In this arrangement, end pieces (22, 23) close off the tube, and there are bores in the wall of the tube for the valve inlets and valve outlets at locations of the tube which are suitable for the function. <IMAGE>

Description

For this 9 pages drawings

The invention relates to an introduction hydraulics, consisting of a plurality of hydraulic valves and elements, for

a) Illustrating the function of these valves and elements by means of table models,

b) creation of a hydraulic circuit on a school board,

c) Implementation of the circuit diagram in a montage and

d) Illustration of the function of the circuit in the interaction of the valves and elements by means of a mobile base frame and a vertically arranged device wall (wet), as well as a Kvdrauliktanks and at least one hydraulic cylinder.

Hydraulic technology is becoming increasingly important in the field of mechanical engineering as a whole. For this reason, increased demands are placed on education and training in this area. This is also evident in the new training regulations for the metalworking and electrical professions, which take into account the training contents defined therein as one of the key areas of control technology. Thus, the fluid technology, namely the pneumatics and hydraulics has become an integral part of specialist training. In this case, it is necessary for an efficient training, in addition to the teaching material for the theoretical basis, to have practice-oriented training and demonstration facilities available, which are designed in such a way that a clear understanding of the entire subject matter is achieved in a short time. A good education therefore not only includes partially selected sections of the entire fabric, but must largely convey everything that is required later in practice.

Of particular importance here is the seamless transition to the various topics. Thus, the knowledge and thus the illustration of the function of the hydraulic devices and in particular the valves, an important prerequisite for the preparation of a hydraulic circuit diagram, because only the one who controls the function and operation, for example, the hydraulic valves, can design a corresponding circuit diagram for solving a Hydraulikprohlems , This is immediately followed by the following stage, namely the implementation of the circuit diagram in a Monday. But first the practical interaction of all hydraulic elements, d. H. the illustration of the function of the circuit in the interaction of the valves and elements gives the complete picture and thus the complete understanding of the whole topic.

The invention is based on the recognition that such a pedagogical goal can best be achieved only if the learner gets to explain the first stage, namely the function of the hydraulic valves such models in the hand, which all functions visible and in the literal sense Table model make tangible, but beyond

However, it is of particular importance if such models or functionally identical patterns or models can accompany the learner through all the stages mentioned above.

Thus, for example, if the models can be directly used as T-type models in a simulated assembly, the line connections are created by adhesive strips or color strokes on a corresponding school board, and then the functionally similar models are displayed as "wet models" on a wet board "can be used functionally.

Hydraulic elements which serve the individual purposes are already known per se. These are manufactured and used, for example, as table models in the form of transparent devices and are located in a housing made of an acrylic glass block, which is provided with bores in order to be able to introduce the corresponding functional elements. Such devices are very expensive to manufacture and yet do not meet the features listed under a to d at the outset.

The invention is therefore an object of the invention to propose hydraulic devices that meet the conditions listed above, namely as functional models both as Trockenmodolle at the table, on the (dry) blackboard, to illustrate circuits and then on the (wet) device wall to illustrate the Cooperating all valves and elements of a circuit can be used, wherein in all the phases shown, and indeed during the wet function, the clarity is particularly preserved.

The solution of this problem consists according to the invention in that each s hydraulic valve and / or electro-hydraulic device or measuring device and / or filter has a commercially available transparent plastic tube in comparison to the same hydraulic larger diameter, in which the respective valve components, which are also made of plastic or stainless metal, are operatively disposed, with end pieces terminate the tube and holes in the wall of the tube for the valve inputs and valve outputs are in functional locations of the pipe.

For better visualization of the respective valve, but also for easier attachment both to the dry or school blackboard as well as to the wet board or the device wall and for easy placement on the table, the transparent outer tube of a Hydrau'ikgerätes is advantageously secured with a light-reflecting flat surface , which in turn has means for fixing the surface to the device wall, there are holes, which with the holes in the tube and the device wall for di? Valve inputs and valve outputs coincide spatially.

Drying board is understood to mean a school board in which the valves fastened with adhesive elements are not acted upon by a hydraulic fluid, while this is the case with a so-called wet panel or device wall.

On the wet board the line connections of the valves are made by means of commercially available connectors and transparent hoses.

In order to make the functional processes clearly visible, prepared and dyed water is used as the hydraulic agent.

This advantage is particularly due to the fact that no rusting parts, but only plastics and stainless metals are used in the valves. The internal leaks in some cases also consciously occurring internal leakages are not harmful, but belong to the educational program. The leaking fluid exiting at the hose assembly is collected by a tub which is placed under the wall of the device so that this wall can be set up and used in all rooms.

In an advantageous embodiment of the invention, the end piece of a hydraulic valve or hydraulic cylinder in the axial direction of the outer tube 6ine bore for carrying a manually operable rod, which is provided opposite the tube interior with seals. The valve can thus be manually operated both in the dry state and under realistic wet conditions, so that the valve functions can be studied and demonstrated in all phases. Of course, if the valve is used only in a dry state, the seals can be omitted.

A designed as a check valve check valve is advantageously formed between the end pieces of the outer tube and has a sealing cone made of plastic, which presses by means of a compression spring against a pipe located in the transparent, acting as a valve seat insert tube.

In a further development of a designed as a throttle valve flow control valve is formed between the end pieces of the outer tube and has a sealing cone made of plastic, which is axially movable by means of a manually operable adjusting spindle and presses in the closed state against a tube befindliches transparent acting as a valve seat insert tube.

Similarly, all the valves and hydraulic devices and hydraulic measuring devices ¹ η principles of the invention can be constructed advantageously by de. Thus, designed as a pressure relief valve pressure valve between the end pieces of the outer tube and has a sealing cone made of plastic, which presses by means of a compression spring against a tube located in the transparent, acting as a valve seat insert tube, wherein between the compression spring and the tail by hand means an adjustment spindle operable spring plate is arranged.

Further, according to the invention, a trained as a 4/3-way valve directional control valve between the end pieces of the outer tube and has a guided by the one end piece of manually operable push rod, which are assigned to spool, the corresponding holes in the tube, formed 3t is.

A trained as a flow meter hydraulic device is further formed between the end pieces of the outer tube and has a piston mounted between two compression springs with a throttle section.

Further advantageous embodiments of hydraulic devices are described in the further subclaims.

The vertically arranged device wall is arranged with a hydraulic tank in a drip tray, wherein the plate for receiving the hydraulic valves on one side and the arrangement of the line connections on the other side plate fastening means and for the implementation of the valve outputs and valve inputs has through holes.

The invention will be explained in more detail with reference to the drawings, in which the device wall and examples of hydraulic devices are shown. Show here

Fig. 1: the schematic representation of a mobile device wall in front view;

2 shows the schematic representation of a mobile device wall according to Figure 1 in side view;

Fig. 3: schematic representation of a pressure relief valve from the group of pressure valves, in longitudinal section;

4 shows a schematic representation of a throttle valve from the group of flow control valves in longitudinal section;

Fig. 5: schematic representation of a check valve from the group of the check valves in longitudinal section;

Fig. 6: schematic representation of a 4/3-way valve from the group of the directional control valves in longitudinal section;

Fig.7: schematic representation of a volumetric flow meter in longitudinal section;

Fig. 8: schematic representation of a pressure measuring device in longitudinal section;

9 shows a schematic representation of an electrohydraulic pressure switch in longitudinal section, and

10: schematic representation of a hydraulic filter in longitudinal section.

Figures 1 and 2 show a mobile device wall 1, which has a cabinet 2 with lockable wheels 3 in the lower part. The device frame 4 is in a trough 5, which serves to catch the resulting during assembly leakage fluid. Within the equipment rack 4 are located at a defined distance two supports 6 and 7 between which at the same distance from each other strips 8 are arranged. Between each support 6 and 7 and the device frame 4, a wall surface 11 and 12 is respectively installed, on each of which a hydraulic cylinder 9 and 10 is attached. Furthermore, there are still manometers 13, 14 and 15 or other measuring instruments on the wall surface 11 and 12, respectively. Between the strips 8, the hydraulic devices are fixed, which will be described later and each of which is fixed with an equal-sized light-reflecting surface, which the distance of the Last 8 corresponds, The hydraulic cylinders 9 and 10 are formed in Dom here present example the same size. Of course, different sizes of hydraulic cylinders can also be used for pedagogical reasons. The cylinder pistons are connected to a cylinder rod 16, which in turn is operable with a hand lever 17 which is rotatably mounted at a pivot point 18. A liquid tank 19 is filled for the operation of the hydraulic system with prepared and dyed water.

The hydraulic valves, which are assembled and mounted on the panel 1 according to a particular Schaltpian to be fluidly connected to each other according to this diagram by means of plug-in coupling, wherein the hoses and hose connections are secured to the back 20 of the panel 1.

3 shows from the assembly of the pressure valves as application examples of the invention, a pressure relief valve with the following structure. A commercially available tube of transparent plastic is clamped as an outer tube 21 between the end pieces 22 and 23 and provided with seals 29 and 30. In the end piece 23 a Vorstellspindel 28 is guided through a bore and connected to a spring pressure piece 25 which is acted upon by a compression spring 27 at one end. At the other end of the compression spring 27, the sealing cone 26 is arranged, which presses on one end of the insert tube 24. The holes 31 and 32 through the outer tube 21 and insert tube 24 form the inlet and outlet of the pressure relief valve. With the aid of the hand-adjustable adjusting spindle 28, the trainee can study the effect of the sealing cone 26 in detail and observe the flow, since water used as the fluid is used.

FIG. 4 shows, from the assembly of the quantity valves as a further application example of the invention, a throttle valve with the following construction.

The same elements of the different valves are in this case provided with the same reference numerals, so that from this the underlying principle of the invention is illustrated.

A commercially available tube of transparent plastic is clamped as an outer tube 21 between the end pieces 22 and 23 and provided with seals 29 and 30. In the end piece 23, an adjusting spindle 28 is guided through a bore and connected to a sealing cone 26 which presses on the one end of the insert tube 24. The holes 31 and 32 through the outer tube 21 and insert tube 24 form the inlet and outlet of the throttle valve.

Similarly, a check valve, here as an example of the group of check valves, constructed, and shown as a further embodiment of the invention in Figure 5. Again, a commercially available tube of transparent plastic is clamped as an outer tube 21 between the end pieces 22 and 33 and provided with seals 29 and 30. Between the end piece 33, which is identical to the end piece 22, and the sealing cone 26, a compression spring 27 is arranged, which presses the sealing cone 26 against the one end of the insert tube 24. The holes 31 and 32 through the outer tube 21 and insert tube 24 form the inlet and outlet of the check valve.

FIG. 6 shows a 4/3-way valve from the group of directional control valves. A commercially available tube of transparent plastic is clamped as an outer tube 21 between the end pieces 22 and 23 and provided with seals 29 and 30. In the end piece 23, a push rod 28 is guided through a bore which is integrally connected to a thrust piston 39. A spool 35 in the middle part of the outer tube 21 and another Steuerschiebor 40 at the other end of the directional control valve can be reversed by the push rod 34 so that the holes 31,32 and 36,37 and 38 can communicate accordingly, creating the basic principle of a directional control valve can be illustrated.

FIG. 7 shows a hydraulic device designed as a volumetric flow meter. Between the end pieces 22 and 23 of the outer tube 21, a piston 39 is arranged, which is mounted between two compression springs 41 and 42. This piston 39 is equipped with a throttle section 40 through which the pressure fluid flows and against the spring force exerts a force which is proportional to the volume flow. The piston is provided with a marking 43, so that the value of the volume flow readable

FIG. 8 shows a hydraulic device designed as a pressure measuring device. Between the end pieces 22 and 23 of the outer tube 21, a piston 44 is arranged, which is also equipped with a marking 43 which is movably mounted against a compression spring 41. Between a tail 22 and the piston 44, a pressure port 45 is provided, so that the piston 44 can be acted upon against the force of the spring 41 with a pressure fluid, wherein the displacement of the piston 44 is proportional to the pressure.

FIG. 9 shows an electrohydraulic pressure switch which is formed between the end pieces 22 and 23 of the outer tube 21 and has a spring-actuable piston 46 which cooperates with an electrical switch 47. The compression spring 41, which bears against the piston 47 at one end, abuts at its other end against a spring plate 48 which is displaceable by means of a handwheel and a threaded spindle 50, so that the switching point of the electrical switch is adjustable in dependence on the pressure. As soon as the piston 47 has traveled a defined path by the application of pressurized fluid, it actuates the electrical switch to generate an electrical signal for control purposes.

FIG. 10 shows a hydraulic device designed as a hydraulic, which is formed between the end pieces 22 and 23 of the outer tube 21 and has a filter fabric 53 between the inlet and outlet openings 51 and 52. The

Pressurized fluid flows through the inlet port 51 and passes through the filter fabric 53, causing in the liquid

existing dirt is retained.

The illustrated devices are based on the same principles and it can be electro-hydraulic ^ devices, such as

For example, build magnetically actuated directional control valves or pressure switch.

The proposed for the introduction of hydraulics is a pure experimental hydraulics, but with the aerade so you are able to represent the basic concepts of hydraulic technology in an easy-to-understand way.

Consciously, this avoids the compromise that must be made in the execution and pressure load of the hydraulic devices when physical and hydraulic engineering basic concepts are to be explained and at the same time the claim is made to be practical. The devices used in practice are subject to completely different conditions, which, after this training stage, provide no problems with commercially available equipment and with technical data which correspond to reality,

can be performed.

Claims (15)

1. Introduction hydraulics, consisting of a variety of hydraulic valves and elements, for a) Illustration of the function of these valves and elements based on table models, b) creation of a hydraulic circuit on a school board, c) Implementation of the circuit diagram in a montage and d) Illustration of the function of the circuit in the interaction of the valves and elements by means of a mobile base frame and a device wall arranged thereon (wet) vertically, and a hydraulic tank and at least one hydraulic cylinder characterized in that each hydraulic valve and / or electro-hydraulic device or measuring device and / or filter has a commercially available transparent outer tube (21) made of plastic of a larger compared to similar hydraulic diameter, in which the respective valve components, which also consist of plastic or stainless metal are operatively arranged, with end pieces (22,23) complete the tube and holes in the wall of the tube for the valve inputs and valve outputs are present at functional locations of the tube. 2. Introduction hydraulics according to claim 1, characterized in that the transparent outer tube (21) of a hydraulic valve and / or electro-hydraulic device and / or filter or hydraulic cylinder is fixed with a light-reflecting flat surface, which in turn means for fixing the surface to the device wall (1 ), wherein bores are present, which correspond spatially with the bores in the outer tube and the device wall for the valve inputs and valve outputs. 3. Introduction hydraulics according to claim 1 or 2, characterized in that the line connections of the valves by means of commercially available connectors and transparent tubes. 4. introduction hydraulics according to claim 1,2 or 3, characterized in that as a hydraulic medium prepared and dyed water is used. 5. Introduction hydraulics according to claim 1 or one of the preceding claims, characterized in that the end piece of a hydraulic valve or hydraulic cylinder (9,10) in the axial direction of the outer tube has a bore for carrying a manually operable cylinder rod (16) which with respect to the pipe interior Seals is provided. 6. Introduction hydraulics according to claim 1 or one of the preceding claims, characterized in that a designed as a check valve check valve between the end pieces (22,33) of the outer tube (21) is formed and a plastic sealing cone (26), which by means of a Compressive spring (27) against a in the outer tube (21) located transparent, acting as a valve seat insert tube (24) presses. 7. introduction hydraulic system according to claim 1 or one of the preceding claims, characterized in that a throttle valve designed as a flow valve between the end pieces of the outer tube (21) and a plastic sealing cone (26) which by means of a manually operable adjusting spindle ( 28) is axially movable and in the closed state against a in the outer tube (21) located, acting as a valve seat insert tube (24) presses. 8. Introduction hydraulics according to claim 1 or one of the preceding claims, characterized in that a pressure relief valve designed as a pressure valve between the end pieces (22, 23) of the outer tube (21) is formed and has a sealing cone made of plastic (26) by means of a Compression spring (27) against a in the outer tube (21) located, acting as a valve seat insert tube (24) presses, wherein between the compression spring (27) and the end piece (23) arranged by hand by means of an adjusting spindle (28) actuated spring plate (25) is. 9. introduction hydraulics according to claim 1 or one of the preceding claims, characterized in that a 4/3-way event ^; l trained directional control valve between the end pieces (22 and 23) of the outer tube (21) is formed and by the one end piece (23) guided, manually operable push rod (34) which on the control slide (35), the corresponding holes (36,37,38) in the outer tube [9A ] are assigned, is formed operable. 10. introduction hydraulic according to claim 1 or one of the preceding claims, characterized in that a designed as a flow meter hydraulic device between the End pieces (22,23) of the outer tube is formed and a between two compression springs (41,42) mounted piston (39) having a throttle section (40). 11. Introduction hydraulics according to claim 1 or one of the vorangestellenden claims, characterized in that a designed as a pressure measuring device hydraulic device between the end pieces (22,23) of the outer tube is formed, wherein at an end piece (22) is a pressure connection (45) and a piston (44) is movably mounted against a compression spring (41). 12. Introduction hydraulics according to claim 1 or one of the preceding claims, characterized in that a designed as electrohydraulic pressure switch pressure valve between the end pieces (22,23) ofTuißenrohres (21) is formed and a spring-actuated piston (46), which with an electrical switch (47) interacts. 13. introduction hydraulic according to claim 1 or one of the preceding claims, characterized in that a hydraulic device designed as a hydraulic device between the end pieces (22, 23) of the outer tube (21) is formed and between the input and output ports (51 and 52) Filter fabric (53). 14. Introduction hydraulics according to claim 1 or one of the preceding claims, characterized in that the vertically arranged device .'and (1) with a hydraulic tank (19) in a collecting tray (5) is arranged, wherein the Gei Jtewand (1) for Receiving the hydraulic valves on one side and the arrangement of the line connections preferably on the other wall side fastening means and for the implementation of the valve outputs and valve inputs has through holes. 15. Hydraulic system for educational purposes, consisting of a variety of hydraulic elements, which are designed in the form of transparent devices as a hydraulic valve and / or electro-hydraulic device or measuring device and / or filter and functioning to illustrate their respective basic function and their interaction in a hydraulic circuit on a device wall can be mounted, characterized in that each hydraulic element comprises a commercially available transparent outer tube (21) made of plastic, in which only the basic elements required for this purpose are arranged operatively to illustrate the respective basic function of the hydraulic element, which also consist of plastic or stainless metal, with similar end pieces (22, 23) terminate the tube and holes are disposed in the wall of the outer tube for valve inlets and outlets at functional locations of the tube.