SE511477C2 - Winding drum for hose or cable - Google Patents

Abstract

The drum part (3) drives at least one piece of electrical machinery (8) when the spring mechanism (5) rotates it in the wind-up direction (UR), so that the motor generates electricity. At least one electric power system (11) stores the generated electricity and uses it to brake the drum and prevent it exceeding a given rotation speed during wind-up. A spring mechanism cooperating with the drum part becomes tensioned during rotation of the drum while unwinding, and then once the hose or cable has been unwound it rotates the drum in the opposite direction in order to wind-up the hose or cable. TECHNOLOGY FOCUS - ELECTRONICS - Preferred Features: The electrical machinery comprises a preferably direct current motor, or a generator. The electric power system comprises an electric circuit with at least one diode and/or transistor.

Description

The increasing winding speed of the rotatable part also increases the retraction speed of the hose and this can become very high with winders with long hoses or cables and thus strong spring devices, which can cause various problems. Thus, it may happen that a hose stop member located on the hose end strikes a discharge housing with great force through which the hose passes with the risk of damage to the outlet housing as a result or the risk of the winding device being shaken loose from its brackets. There is also a risk that a hose rolling in at high speed may hit personnel with personnel injuries as a result.

The object of the present invention has been to eliminate this problem and this has been achieved according to the invention in that the winding device essentially has the features which appear from the following claim 1.

Because the winding device has the above-mentioned characteristics, it is achieved that the rotatable part is braked efficiently by simple and reliable means.

The invention will be explained in more detail below with reference to the accompanying drawings, in which Figure 1 schematically illustrates a winding device according to the invention; figure 2 schematically illustrates an electrical circuit in an electrical load device included in the winding device according to figure 1; and figure 3 schematically illustrates an alternatively designed electrical circuit in an electrical load device included in the winding device according to figure 1.

The winding device 1 illustrated in Figure 1 has a wall-mounted or otherwise suitable place 511 477 mounted stand 2 with a rotatable part rotatably mounted thereon, which is mounted to rotate in a unrolling direction and a winding-up direction. The rotatably mounted part can be a drum 3. On the drum 3 is arranged a hose 4 which is manually or otherwise extendable from the drum 3 in an extraction direction A, the drum 3 being rotated in a unrolling direction AR. The drum 3 cooperates with a spring device 5 with at least one helical leaf spring or a corresponding spring, which is tensioned when the drum 3 is rotated in the unwinding direction AR and which has such a spring characteristic that the spring force on the drum 3 increases the more turns it is rotated in the unwinding direction AR. the longer you pull out the hose 4.

Winding devices of the above-mentioned type are described in the initially mentioned U.S. Patent 4,299,249 and have therefore not been described in more detail.

In such winding devices, there are usually also locking devices 6 which ensure that the hose 4 remains in the extended position. The construction and function of such locking devices 6 are also known and they have therefore not been described in more detail, but it can be mentioned that they can be brought into locking position by stopping pulling out the hose 4 and they can be released from this locking position by pulling out the hose 4 a piece in the extraction direction A, after which the spring device 5 can rotate the drum 3 in a winding direction UR to pull the hose 4 in a retraction direction U. The retraction of the hose 4 and thus the rotation of the drum 3 in the winding direction UR is stopped by a hose stop means 20 on the hose 4 end portion strikes in a part 7 arranged on the frame 2, e.g. a so-called outlet housing, through which the hose 4 passes. Since the spring device 5 has the above-mentioned spring characteristic, the same will increase the rotational speed of the drum 3 in the winding direction UR as the hose 4 is wound on it. An electric braking device is provided for braking the rotational speed of the drum 3 as it is rotated in the winding direction UR so that the spring device 5 is prevented from imparting an undesirably high rotational speed of the drum 3 in the winding direction UR. This electric braking device has an electric machine 8 arranged on the stand 2, preferably an electrically driven motor which is in generator operation. This electric motor 8 has an output shaft with a gear 9 or equivalent which is in motion transmitting engagement with a ring gear 10 or the like on the drum 3 to transmit the rotational movement of the drum 3 to the electric motor 8 so that it is driven to generate electrical energy. The ring gear 10 is preferably arranged at such peripheral parts of the drum 3 which have a greater rotational speed than central parts thereof. As a result, the rotational movement of the drum 3 does not have to be shifted up to drive such electric motors 8 which must be driven at a certain minimum rotational speed in order to generate a sufficiently large electrical energy required in the present case.

The electric motor 8 cooperates with an electric load device 11 which receives and consumes electric energy generated by the electric motor 8 so that the rotational speed of the drum 3 is slowed down as it is rotated by the spring device 5 in the winding direction UR, i.e. when the hose 4 is pulled in the retraction direction U. The consumption of the electrical energy takes place by this e.g. converted into heat energy.

The electrical load device 11 may be an electrical circuit 12 connected to the electric motor 8 as illustrated in Figure 1. This electrical circuit 12 has two diodes 13, 14, a transistor 15 and a potentiometer 16 and it functions so that the transistor 15 is activated when the motor 8 generated the electrical energy, ie the bias voltage across diodes 13, 14, at a certain current, reaches or exceeds a predetermined threshold value selected depending on the desired maximum rotational speed of the drum 3 in the winding direction UR. When the voltage reaches or exceeds said threshold value, electrical conduction occurs with loading of the electric motor 8 and thus braking of the drum 3 as a result. This means that when the spring device 5 rotates the drum 3 in the winding direction UR and imparts the said maximum rotational speed, the electric motor 8 generates a voltage exceeding said threshold value, whereby the electric motor 8 is loaded and the drum 3 is braked so that its rotational speed does not increase. Instead, the hose 4 will be retracted by the spring device 5 at a suitable maximum speed until the hose stop member 20 arranged on the hose 4 strikes the frame part 7.

Said threshold value may be variable by means of said potentiometer 16.

Figure 3 illustrates an alternatively designed electrical load device 11. This has an electrical circuit 17 which is connected to the electric motor 8 and which, like the electrical circuit 12, has two diodes 13, 14, a transistor 15 and a potentiometer 16 and in addition a control circuit 18 and a capacitor 19. In this embodiment, control voltage is stored. in the capacitor 19 and can be supplied from it to the transistor 15 via the control circuit 18 which has a variable threshold through the potentiometer 16. This electrical circuit 17 makes it possible to regulate and brake the drum 3 as it is rotated at speeds which are too low for the circuit 12 to be used. for regulation and braking.

The diodes 13, 14 in the two electrical circuits 12, 17 allow the rotational speed of the drum 3 to be slowed only when the drum 3 is rotated in the winding direction UR but not in the unwinding direction AR. 511 477 The electric machine 8 can be an electric motor in the form of a direct current motor or, alternatively, a generator.

The winding device described above may vary within the scope of the appended claims. Within the framework of these, the electrical load device 11 may consist of electrical circuits other than those described, the electrical machine 8 may co-operate with central parts of the drum 3, for example via a gear which shifts up the rotational speed of the central parts, and the drum 3 may be intended for winding up one or more hoses and / or one or more cables, wherein the hoses may, for example, be hoses for supplying liquids or gases to workplaces or suctioning gases from workplaces or exhaust pipes for vehicles.

The winding device may have a rotatable part 3 other than a drum. Thus, the rotatable part 3 can instead consist of an arm (not shown) which rotates in relation to a non-rotatable winding and unrolling part.

When the hose 4 is pulled out of the winding device, said arm is rotated in relation to the winding and unwinding part. For winding up, the arm is rotated by means of the spring device 5 so that the hose 4 is wound up on the winding up and unwinding part.

Claims (12)

511 477 Patent claims: II II II II II II II II II II II A winding device for hoses and / or cables, wherein the winding device (1) has a rotatable part (3) which is rotated during unwinding or winding of the hose and / or cable (4), and wherein a spring device (5) is arranged to cooperate with the rotatable part (3) so that the spring device (5) a) is tensioned when the rotatable part (3) is rotated in a unwinding direction (AR) when the hose and / or the cable (4) is pulled out of the winding device (1), and b) after pulling out the hose and / or cable (4) from the winding device (1) rotates the rotatable part (3) in a winding direction (UR) for winding the hose and / or cable (4) on the winding device (1), 511 477 k characterized in that at least one electrical machine (8) is arranged to be driven by the rotatable part (3) when the spring device (5) rotates it in the winding direction (UR) so that the electrical machine (8) generates electrical energy, and that at least one electrical load anano is arranged to receive and consume electrical energy generated by the electric machine (8) in order to brake the rotatable part (3) so that the spring device (5) is prevented from imparting to it an undesirably high rotational speed in the winding direction. (FROM). Winding device according to Claim 1, characterized in that the electrical load device (11) has an electrical circuit (12 or 17) connected to the electrical machine (8) which has at least one diode (13 and / or 14) and / or at least one transistor (15) which is arranged to consume electrical energy generated by the electric machine (8) in order thereby to brake the rotatable part (3). Rewinding device according to claim 2, characterized in that the diode (13 and / or 14) and / or the transistor (15) is arranged to be activated when the electrical energy generated by the electrical machine (8) reaches or exceeds a predetermined threshold value, which is selected in dependence on the desired maximum rotational speed of the rotatable part (3) in the winding direction (UR), for braking the rotatable part (3) when the spring device (5) has provided this said maximum rotational speed. A winding device according to claim 3, characterized in that the electrical circuit (12 or 17) has at least one potentiometer (16) to allow a change of the threshold value at which the rotatable part (3) is braked. A winding device according to any one of claims 2-4, characterized in that the electrical circuit (17) has at least one capacitor (19), at least one control circuit (18) and at least one transistor (15) and that the capacitor (19) is arranged to store electrical energy from the electrical machine (8) and to deliver it via the control circuit (18) to the transistor (15) so that the rotatable part (3) is braked even if it is rotated by the spring device (5) with a low rotational speed in up - scroll direction (UR). Rewinding device according to claim 5, characterized in that the control circuit (18) is activated when the electrical energy generated by the electrical machine (8) reaches or exceeds a predetermined threshold value, which is selected depending on the desired maximum rotational speed. on the rotatable part (3) in the winding direction (UR), and that at least one potentiometer (16) is arranged for changing this threshold value. Winding device according to any one of the preceding claims, characterized in that the rotatable part is a drum (3) from which the hose and / or cable (4) is unrollable and on which the hose and / or cable (4) is windable and that the electric machine (8) cooperates with such peripheral parts of the drum (3) which at its rotation have a greater rotational speed than central parts thereof. Winding device according to claim 7, characterized in that the drum (3) has a gear ring (10) which is arranged next to peripheral parts thereof and that the electric machine (8) has a gear wheel (9) on a 0/0 511 477 output shaft, which gear (9) is in motion-transmitting engagement with the gear ring (10). Winding device according to one of the preceding claims, characterized in that the electric load device (II) is arranged not to consume energy when the electric machine (8) is driven by the rotatable part (3) as it is rotated in the unwinding direction ( AR) so that the electrical load device (II) does not brake the rotatable part (3) when the hose and / or cable (4) is pulled out of it. Winding device according to one of the preceding claims, characterized in that the electric machine (8) is an electric motor in generator function. 11. ll. Winding device according to Claim 10, characterized in that the electric motor (8) is a direct current motor. A winding device according to any one of claims 1-9, characterized in that the electric machine (8) is a generator.