EP2805043A2

EP2805043A2 - Hose guiding device

Info

Publication number: EP2805043A2
Application number: EP13709736.6A
Authority: EP
Inventors: Hubert Strzodka
Original assignee: Individual
Current assignee: Individual
Priority date: 2012-01-17
Filing date: 2013-01-16
Publication date: 2014-11-26
Also published as: US20150159798A1; AU2013211270A1; CN104246212A; AU2013211270B2; CN104246212B; JP5882501B2; ZA201405152B; US9297488B2; RU2014130255A; IN2014MN01421A; CA2868003A1; KR20140117552A; WO2013107440A2; WO2013107440A3; JP2015507124A

Abstract

The invention relates to a hose guiding device in which a hose (203) that is filled with a gaseous medium is guided through a liquid (201) in horizontal sections. The horizontal sections are supported on a gripping device. The movement of the gripping device is transmitted to a sprocket (214) via chains (207) in order to introduce or discharge the kinetic energy.

Description

Description Hose guide device

The invention relates to a hose guide device with a hose filled with a gaseous medium and with a gripping device for the hose and with a container filled with liquid for the passage of the hose, wherein the hose has a lower density than the liquid.

In order to transfer a transfer of energy, such as kinetic energy or heat energy between the hose and the container, it is desirable to lead the largest possible portion of the hose through the container. This is the common drive principle of

Hose guiding devices and displacement machines. In the present application, hose guiding devices and displacement machines of the priority applications should therefore be identical objects.

The invention is based on the problem, a hose guide device of the type mentioned so on to form that it receives a particularly long hose length in the container filled with liquid.

This problem is inventively solved in that the tube is guided in a vertical portion and in a horizontal portion or in the form of a helix with a vertical axis through the container.

Due to the guidance in horizontal and vertical sections, the hose can be meandered in almost horizontal loops. Leave the loops

confirmation copy generate through the pivotable guide part in the bottom area and by the gripping device. The guide member also seals the container from the hose. Preferably, the guide member is held on its outer side hemispherical in a correspondingly shaped ball socket and has a cylindrical recess for the passage of the hose. The tube is preferably particularly flexible and has a low density. The liquid medium in the container is preferably water and the gaseous medium in the tube is preferably air. As a result, the approximately horizontally guided loops of the hose buoyancy in the container.

By the leadership of the tube in the form of a helix with a vertical axis through the container is the

Hose guided in a helix. This results in several superposed coil sections of the hose. The hose is therefore not kinked or bent during guidance through the container. The guide of the hose is made by being rotated about the vertical axis of the helix. Therefore, the tube undergoes no change of shape during movement through the container and therefore has a long life. The guide member also seals the container from the hose. The low density of the tube is preferably produced by the tube being filled with air. The liquid medium in the container is preferably water. As a result, the approximately horizontal spiral sections of the hose have buoyancy in the container. Preferably, the guide part is held on its outside hemispherical in a correspondingly shaped ball socket and has a cylindrical recess for the passage of the hose.

An advantageous development of the invention is that the gripping device in the liquid filled container is arranged and leads the hose with approximately horizontal loops or individual coil sections, that the container in its bottom region has an insertion part for the passage of the hose and has sealing elements for sealing the hose. Kinking of the hose are preferably avoided when the insertion part has a pivotable guide member.

By this design, the hose is guided meandering through the approximately horizontal loops. The loops can be generated by the pivotable guide part in the bottom area and by the gripping device. The guide member also seals the container from the hose. Preferably, the guide member is held on its outer side hemispherical in a correspondingly shaped ball socket and has a cylindrical recess for the passage of the hose. The tube is preferably particularly flexible and has a low density. The liquid medium in the container is preferably water and the gaseous medium in the tube is preferably air. As a result, the approximately horizontally guided loops of the hose buoyancy in the container.

The gripping device designed in accordance with another advantageous embodiment of the invention structurally particularly simple when the gripping device has two mutually parallel chains and when grippers are arranged on the chains for supporting the approximately horizontally guided loops of the hose.

The gripping device is structurally particularly simple according to another advantageous embodiment of the invention, when the gripping device arranged a plurality of concentric to the vertical axis of the helix Has chains or toothed belt and when on the chains or toothed belt grippers for supporting the individual coil sections of the hose are arranged.

Differently sized loops can be easily guided according to another advantageous embodiment of the invention, when the grippers are mounted in different positions on the chains.

Tensioning of the tube in the supply of the insertion can be easily avoided according to another advantageous embodiment of the invention, if below the container a trough with a liquid is arranged and if the section located directly in front of the insertion part of the tube is in the tub or on the surface the liquid floats.

A continuous guidance of the hose can be easily ensured according to another advantageous embodiment of the invention, when above the container, a deflection roller for the hose is arranged and when the hose forms a closed ring.

The movement of the tube can be easily controlled according to another advantageous embodiment of the invention, when the gripping device is connected via a chain with a pinion for supplying or discharging the kinetic energy of the hose.

The movement of the tube can be easily controlled according to another advantageous embodiment of the invention, when the movements of the chains or toothed belts are coupled together and with a common wheel for supplying or discharging the kinetic energy of the hose. This will ensure that everyone Move chains or toothed belts and thus also the grippers with the same vertical speed.

The invention allows numerous embodiments. To further clarify its basic principle, two of them are shown in the drawing and will be described below. This shows in

1 shows a hose guide device according to the invention,

Fig. 2 is a side view of the invention

Hose guide device of Figure 1,

Fig. 2a is an enlarged sectional view of a

Insertion part of the hose guiding device,

3 is an enlarged view of the upper portion of the container,

4 is a side view of the upper portion of the container,

Fig. 5 is an enlarged view of the lower

Part of the container,

6 is a side view of the lower portion of the container,

7 shows a further embodiment of the hose guide device,

Fig. 8 is a helical according to the invention

Hose guide device, 9 is a side view of the helical hose guide device according to the invention of Figure 8,

10 is an enlarged sectional view of a

Introductory part of the helical hose guide device.

1 shows a hose guide device, as it is often referred to as a displacement machine, with a filled with a liquid 1, preferably water container 2. This hose guide device is also shown in Figure 2 in a side view.

Through the container 2 an annularly closed, filled with air hose 3 is guided. Below the container 2 is a trough 8 with a liquid 1 ', preferably water, arranged, through which the tube 3 is supplied to the bottom portion of the container 2. In the bottom area, an insertion part 6 is arranged, which allows an insertion of the tube 3 in the container 2 and the container 2 seals against the tube 3. It can be seen from the inclined representation of the insertion part 6 that the insertion part 6 can be pivoted by the movements of the hose 3. The hose 3 is guided by a gripping device with two parallel chains 7 vertically in approximately horizontal loops through the container 2. On the chains 7 grippers 14 are arranged to generate the loops at designated intervals. The chain 7 is guided laterally by guides 4. At the lower deflection of the chains 7, a shaft 9 is arranged with Umlenkritzeln not shown for the chains 7. At the upper deflection, a gear 5 is arranged, which is connected to a further chain 7 'to the deflection roller 10 superimposed shaft 9'. The deflection roller 10 superimposed shaft 9 'carries a pinion for the supply and removal of kinetic energy. Furthermore, the hose guide device has ontage rails for holding the shaft 9 'and a pedestal 13 which can be walked on by an operator, not shown.

2b shows enlarged the insertion part 6 of Figures 1 and 2. It can be seen that the insertion part 6 is designed spherical on its outer side and is pivotally mounted in a correspondingly shaped pan-shaped wall of the bottom portion of the container 2. Furthermore, the insertion part 6 has guide parts 11 for axial guidance of the hose 3 and sealing elements 12 for sealing the container 2 with respect to the hose 3.

For clarification, in FIGS. 3 and 4, the upper region of the hose guide device with the deflection roller 10 is shown in two views.

The lower portion of the hose guide device with the insertion part 6 is shown for clarity in Figures 5 and 6 in two views.

FIG. 7 shows a further embodiment of the hose guiding device in which a hose 103 is guided diagonally from an insertion part 106 arranged in the bottom region of a container 101 filled with liquid 101 to a deflection roller 110 arranged above the container 102. From the deflection roller, the hose is guided back to the insertion part 106 through a trough 108 filled with liquid 101 '. Thus, the deflection roller forms the gripping device of the tube 103. Otherwise, this embodiment is constructed like that of Figures 1 to 6.

FIG. 8 shows a helical tube guiding device with a liquid 201, preferably a This water-filled hose guide device is also shown in FIG. 9 in a side view. Through the container 202, an annular closed, filled with air hose 203 is guided. Within the container, the tube 203 is guided in the form of a helix with a vertical axis. Below the container 202, a trough 208 with a liquid 201 ', preferably water, is arranged, through which the hose 203 is supplied to the bottom region of the container 202. In the supply, the tube 203 floats on the surface of the liquid 201 'of the tub 208. In the bottom portion of the container 202, an insertion part 206 is arranged, which allows insertion of the tube 203 into the container 202 and the container 202 seals against the tube 203. At the top of the container 202, a guide roller 209 is arranged.

The hose 203 is held by a gripping device with a plurality of chains or toothed belts 207 arranged concentrically with the vertical axis of the helix of the hose 203. As a result, the tube 203 forms a plurality of helical sections 210 arranged vertically one above the other. Grippers 211 are arranged on the chains or toothed belt 207 in order to produce the helical sections 210 at intended intervals. The movements of the chains or toothed belts 207 are coupled to each other via a plurality of deflection gear 212. The deflection gear 212 form a positive connection with a common vertical shaft 213. On the shaft 213, a wheel 214 for supplying or discharging the kinetic energy of the hose 203 is attached. The coil sections 210 increase due to buoyancy in the liquid 201. The spiral sections with the gripping device rotate in the vertical axis formed by the shaft 213. FIG. 10 shows an enlarged view of the insertion part 206 from FIGS. 8 and 9. It can be seen that the insertion part 206 has a spherical shape on its outside and is pivotably mounted in a correspondingly shaped pan-shaped wall of the bottom area of the container 202. Furthermore, the insertion part 206 has guide parts 215 for axial guidance of the hose 203 and sealing elements 216 for sealing the container 202 with respect to the hose 203.

Claims

claims

1. Hose guide device with a filled with a gaseous medium hose (3, 103, 203) and with a gripping device for the hose (3, 103, 203) and with a liquid (1, 101, 201) filled container (2, 102nd , 202) for the passage of the hose (3, 103, 203), wherein the hose (3, 103, 203) has a lower density than the fluid (1, 101, 201), characterized in that the hose (3, 103 , 203) is guided in a vertical section and in a horizontal section or in the form of a helix with a vertical axis through the container (2, 102).

2. Hose guide device according to claim 1, characterized in that the gripping device in the liquid (1, 201) filled container (2, 202) is arranged and the hose (3, 203) with approximately horizontal loops or individual coil sections (210) leads that the container (2, 202) in its bottom region an insertion part (6, 206) for the passage of the hose and sealing elements (12, 216) for sealing the

Hose (3, 203) has.

3. Hose guide device according to claim 2, characterized in that the gripping device has two mutually parallel chains (7) and that on the chains (7) grippers (14) for supporting the approximately horizontally guided loops of the hose (3) are arranged.

4. hose guide device according to claim 2 or 3, characterized in that the gripping device has a plurality of concentric with the vertical axis of the coil arranged chains or toothed belt (207) and that on the Chains or toothed belt (207) grippers (211) for supporting the individual coil sections (210) of the hose (203) are arranged.

5. Hose guide device according to claim 3 or 4, characterized in that the grippers (14, 211) in different positions on the chains (7, 207) are mountable.

6. hose guide device according to one of claims 1 to 5, characterized in that below the container (2, 102, 202) a trough (8, 108, 208) with a liquid (1 ', 101', 201 ') is arranged and in that the portion of the hose (3, 103, 203) located immediately before the introduction part (6, 106, 206) lies in the trough (8, 108, 208) or on the surface of the liquid (1 ', 101', 201 '). ) is swimming.

7. hose guide device according to one of claims 1 to 6, characterized in that above the container (2, 102, 202) a deflection roller (10, 110, 209) for the hose (3, 103, 203) is arranged and that the hose (3, 103, 203) forms a closed ring.

8. Hose guide device according to one of claims 1 to 7, characterized in that the gripping device via a chain (7 ') with a pinion (5) for supplying or discharging the kinetic energy of the hose (3) is connected.

9. hose guide device according to one of claims 1 to 7, characterized in that the movements of the chains or toothed belt (207) with each other and with a common wheel (214) for supplying or discharging the kinetic energy of the hose (203) are coupled.