EP2620194A1 - Cantilever arm assembly for a toy loading crane - Google Patents

Abstract

The cantilever arm component (2) has a cantilever arm (4) mounted on a cantilever arm stand (3) and pivotable around a pivotal axis (5). A cantilever arm fixing device (6) fixes the cantilever arm in a selected pivotal position. The cantilever arm fixing device has an actuatable switch device which is pivotable between a release position in which the cantilever arm is movable relative to the cantilever arm stand around the pivotal axis and a fixing position in which the cantilever arm is fixed relative to the cantilever arm stand. An independent claim is included for toy derrick.

Description

The invention relates to a boom assembly for a toy loading crane. It is also directed to a toy loader crane with a corresponding boom arm assembly.

Cantilever assemblies for toy loader cranes are well known through public prior use. These often include a boom that is pivotally mounted on a boom stand. A disadvantage of these known boom assemblies is generally that the fixation of the boom in a pivot position relative to the boom stand is not reliable.

From the DE 1 755 354 U For example, a toy is known that may be, for example, a toy crane. The toy comprises on a vehicle platform a housing on which a boom is pivotally mounted about a pin and pivotable by means of a chain. The chain is fastened to a cable drum inside the housing. The cable drum is assigned a ratchet wheel with ratchet teeth. Further, the ratchet wheel includes a double-armed lever with a locking arm and an actuating arm. If the actuating arm is pivoted, the locking arm is disengaged from the ratchet wheel. The cable drum can then turn. The boom is pivotable by operating the chain.

The DE 25 04 101 A1 discloses a toy vehicle with a crane body. The crane assembly comprises a pivotable cantilever arm with a toothed circular arc. The toothed circular arc meshes with a gear which is rotatably mounted on the toy vehicle body and is associated with a hand winch. An angle lever forms an automatic, releasable lock for the boom in the respective pivot position. In the locking position, the angle lever engages in the toothed circular arc.

A disadvantage of these two toy vehicles is that damage often occurs when playing these or in particular at their jibs.

The invention is therefore an object of the invention to provide a toy boom arm assembly for a toy loader crane, the boom arm is extremely safe and easy to fix in a pivotal position locally. A corresponding toy loading crane should also be created. The disadvantages of the prior art should also be overcome.

This object is achieved by the features specified in the independent claims 1 and 15 features. The essence of the invention is that a switching device is provided which is displaceable between a release position and a fixing position. The term "displaceable" is understood in particular that the switching device is pivotable and / or displaceable. In the release position of the switching device of the boom is pivotable relative to the boom base. The cantilever arm is then released for pivoting. He is then preferably free to move, in particular independent of other steering components, such as ropes, chains or the like. In contrast, in the fixing position of the switching device of the boom is fixed relative to the boom stand about the pivot axis. The cantilever arm is then not pivotable. Due to the design with the tooth devices an extremely secure and easy fixation of the boom relative to the boom stand is reached. The spring device over which the two tooth devices in the engaged position can be biased, can form an overload protection for the boom fixing device. Such an overload protection prevents damage to the toy vehicle when acting on the boom arm overload.

Preferably, the first tooth device has a plurality of teeth arranged one behind the other. Conveniently, the first dental device has at least four, more preferably at least six, teeth. It is expedient if the first toothed device is provided directly on the cantilever arm. Advantageously, the second tooth device has at least two teeth which are arranged one behind the other. Preferably, exactly two teeth are present, between which there is a tooth receptacle for receiving a tooth of the first tooth device. Conveniently, the second tooth device is directly or indirectly in communication with the boom base.

It is advantageous if the cantilever arm can be fixed in several or different pivot positions. It is advantageous if in the fixing position of the switching device, the cantilever arm is fixed both in a first pivoting direction and in a direction opposite to the first pivoting direction, the second pivoting direction. Preferably, the cantilever fixing device forms a direct pivotal fixing device.

In particular, the pivot axis extends horizontally. Conveniently, the pivot axis extends in an upper end region of the boom stand.

It is advantageous if the locking insert is displaceably guided.

Further advantageous embodiments of the invention are specified in the subclaims.

According to claim 2, the switching device is pivotally mounted on the boom stand. It is advantageous if the switching device can be pivoted through 360 °. Conveniently, at least one bearing body for the pivotable mounting of the switching device is provided on the boom stand.
The switch body according to claim 3 is designed as a kind of switching cam. It is advantageous if the at least one cam projection presses the second toothed device into engagement with the first toothed device when the cam projection is in a fixing position. It is advantageous if the switching device has two cam projections. Conveniently, the two cam projections are then arranged opposite one another. Conveniently, the at least one cam projection is then in fixing connection with the spring head or the locking insert, so that the switching device is fixed in its fixing position.

The at least one recognition projection according to claim 4 gives the user a noticeable or tactile feedback about the fixing position of the switching device. It preferably defines a surmountable dead center. The switching device thus preferably assumes a stable position in its fixing position. To overcome the recognition advantage an increased effort is required. If the force is too low, there is no adjustment of the switching device. She then returns automatically to her previous position.

The spring head according to claim 5 may form an overload protection for the boom fixing device. In this case, when a threshold torque is applied to the cantilever arm, it is preferable to compress the spring head so that the tooth connection between the first tooth device and the second tooth device is released. Preferably, the Arretiereinsatz is moved away from the boom. The boom is then released.

The embodiments according to claim 6 and 7 indicate a preferred embodiment of the spring head. The offset web is preferably formed elastically resilient.

The embodiment according to claim 9 leads to a boom assembly, which has a very simple structure. It is so easy to install.

The actuating handle according to claim 10 allows a simple displacement of the switching device, in particular pivoting of the switching device. The actuating handle is preferably mounted in a location where it is easily accessible and manually operable. It is advantageous if the actuating handle is pivotable about the pivot axis.

In the embodiment according to claim 11, when the torque is applied to the cantilever arm, preferably also the arresting insert is moved away from the cantilever arm. The boom is then released. The spring head preferably allows a spring movement of the Arretiereinsatzes or the second tooth means relative to the cantilever arm or the first tooth device. He is resiliently compressible.

In the embodiment of the switching device with a switch body and a dislocation web, the switch body on the at least one cam projection have a concave support surface, wherein in the fixing position of the switching device of the cam projection or one of the cam projections facing the Verstellungssteg and the support surface of this cam projection on the Verstellungssteg engages, wherein a curvature of this holding surface is adapted to a curvature of the dislocation web. Such a switching device is extremely securely fixed in its fixing position by the Verstellungssteg.

The toy main body according to claim 15 is preferably designed as a toy vehicle. Other alternative embodiments of the toy body, such as a toy rail body, toy foundation or toy frame, are alternatively possible.

Fig. 1

eine vereinfachte Seitenansicht eines Spielzeug-Ladekrans mit einer erfindungsgemäßen Auslegerarm-Baugruppe,

Fig. 2

eine Seitenansicht der in Fig. 1 dargestellten Auslegerarm-Baugruppe, wobei sich deren Schalteinrichtung in einer Freigabestellung befindet,

Fig. 3

das in Fig. 2 gezeigte Detail III,

Fig. 4

eine der Fig. 3 entsprechende Detailansicht, wobei sich hier die Schalteinrichtung in der Fixierstellung befindet,

Fig. 5

eine Draufsicht auf die Auslegerarm-Fixiereinrichtung der in den Fig. 1 bis 4 gezeigten Auslegerarm-Baugruppe, und

Fig. 6

eine Explosionsansicht der in den Fig. 1 und 2 in ihrer Gesamtheit veranschaulichten Auslegerarm-Baugruppe.

Hereinafter, a preferred embodiment of the invention will be described by way of example with reference to the accompanying drawings. Showing:

Fig. 1

a simplified side view of a toy loading crane with a boom assembly according to the invention,

Fig. 2

a side view of in Fig. 1 illustrated boom assembly, wherein the switching device is in a release position,

Fig. 3

this in Fig. 2 shown detail III,

Fig. 4

one of the Fig. 3 corresponding detail view, wherein here the switching device is in the fixing position,

Fig. 5

a plan view of the boom fixing of the in the Fig. 1 to 4 shown boom arm assembly, and

Fig. 6

an exploded view of the in the Fig. 1 and 2 in its entirety illustrated cantilever arm assembly.

An in Fig. 1 The toy loader crane shown comprises a toy main body 1 and a toy boom arm assembly 2 arranged on the toy main body 1. The toy main body 1 is formed as a toy land vehicle and has a plurality of wheels 9 for rolling on a ground (not shown) ).

The boom arm assembly 2 in turn has an arranged on the toy body 1, elongated boom base 3 and a boom arm 4, which is pivotally mounted on the boom stand 3 about a horizontal pivot axis 5. The boom 4 is pivotable up and down. The boom stand 3 is preferably pivotable relative to the toy base body 1 about a vertical pivot axis or rotatable. It preferably runs vertically.

Further, the cantilever arm assembly 2 has a cantilever fixing device 6. The cantilever fixing device 6 is for fixing the cantilever arm 4 in a pivotal position. When the boom-fixing device 6 is in its fixing position, the boom arm 4 is fixed and thus pivotable relative to the pivot axis 5. When the boom-fixing device 6, however, in its release position is, the boom 4 is pivotable about the pivot axis 5 for height adjustment.

The boom base 3 is formed in two parts and thus has a first boom pedestal half 7 and a second boom pedestal half 8. The boom pedestal halves 7, 8 are plugged together and thus form the boom stand in the assembled state 3. They are formed substantially identical with respect to a plane of symmetry.

Each boom pedestal half 7, 8 has a bearing lug 10 and 11 at the bottom. The bearing lugs 10, 11 in the assembled state of the boom pedestal halves 7, 8 has a substantially round outer cross-sectional shape. They engage in a corresponding opening in the toy main body 1 and thus allow a storage of the boom stand 3 on the toy main body 1. At each bearing lug 10, 11 is provided below a laterally projecting outside latching projection 12 and 13, which fixes the boom pedestal 3 to the toy main body 1 in the vertical direction and thus prevents lifting thereof from the toy main body 1. The latching projections 12, 13 can engage, for example, under the toy base body 1 or in a corresponding lateral recess in the toy base body 1.

Opposite to the latching projections 12, 13 each boom pedestal half 7, 8 has a bearing head 14 and 15, respectively. Each bearing head 14, 15 has an outer side wall 16. The side walls 16 are in the assembled state of the pedestal pedestal halves 7, 8 opposite each other. They then extend parallel to each other. From the side wall 16 of the bearing head 15, a bearing pin 17 jumps in the direction the bearing head 14 of the first boom pedestal half 7 before. The bearing pin 17 is located substantially in the center of the bearing head 15 and the pivot axis 5 before. He is circular in cross-section or annular performs.

In the first boom pedestal half 7, a recess 18 is formed, which is circular in cross-section.

Each bearing head 14 and 15 also has two lateral, opposing guide walls 19 which project from the respective side wall 16 perpendicular to the inside and preferably extend substantially vertically. The guide walls 19 of the bearing heads 14, 15 bound together laterally a Arretiereinsatz recording 20, which is opposite to the bearing lugs 10, 11 open at the top. The Arretiereinsatz receptacle 20 is bounded down to the bearing lugs 10, 11 by two Fußstege 21 projecting from the side walls 16 of the respective bearing heads 14, 15 perpendicular to the inside and are below with the corresponding guide walls 19 in connection. From the guide walls 19 jump to the outside outside stiffening ribs 50 perpendicular before.

In the Arretiereinsatz recording 20 a separate Arretiereinsatz 22 is inserted. The Arretiereinsatz 22 is movable in the vertical direction relative to the boom base 3. He has the top of a spring head 23 which is elastically resilient in the vertical direction relative to the boom base 3. The spring head 23 has an upper carrier web 24 which carries a tooth device 25 substantially in the center. Furthermore, the spring head 23 has a lower displacement web 26, which is arranged opposite to the carrier web 24. The carrier web 24 and the dislocation web 26 are the end connected to each other at lateral connection points 27. From each junction 27 a sliding wall 28 of the locking insert 22 projects down to the bearing lugs 10, 11. The sliding walls 28 are parallel and spaced from each other. The carrier web 24 and the dislocation web 26 connect the sliding walls 28 with each other. The carrier web 24 is compared to a direct connection between the connection points 27 upwardly or convexly curved, while the dislocation web 26 is based on the direct connection between the connection points 27 curved downwards. The carrier web 24 and the dislocation web 26 are thus curved in opposite directions to each other, so that there is a variable in size spring chamber 29 between them. The carrier web 24 and the offset web 26 extend substantially perpendicularly or obliquely to the sliding walls 28. In the assembled state of the boom stand 3, the sliding walls 28 rest on the inside on the guide walls 19 or are arranged adjacent to the guide walls 19. The sliding walls 28 extend parallel to the guide walls 19. The bearing pin 17 is located between the sliding walls 28. It is disposed below the spring head 23. The spring head 23 is arranged opposite to the foot webs 21. The tooth device 25 has two teeth 30, wherein there is a tooth receptacle 31 between the two teeth 30. The teeth 30 are arranged one behind the other. They have the same orientation.

On the bearing pin 17, a switching device 32 is pivotally mounted. The switching device 32 is pivotable between a fixing position and a release position. It has a non-circular cross-section switching body 33 and a cylindrical transmission pin 34 which is in rotationally fixed connection with the switch body 33 and axially projecting from the center thereof. In the switch body 33 is a central, end-side Bearing opening 35 is formed, which is cylindrical. The bearing pin 17 engages in the bearing opening 35 for the pivotable mounting of the switching device 32 a. The switch body 33 is designed as a cam-like Schaltellipse. It is elongated in cross section and has two opposite, flattened longitudinal ends 36, which form quasi cam projections. At the longitudinal ends 36 of the switch body 33 concavely curved, opposing holding surfaces 37. On either side of each support surface 37 so the switch body 33 each have a recognition projection 38a, which is provided on the laterally outer edges of the longitudinal ends 36.

The transmission pin 34 passes through the recess 18. It is rotatably or pivotably mounted in the recess 18. At the projecting from the recess 18 end of the transfer pin 34, an operating handle 38 is mounted rotatably. The operating handle 38 is executed out of round and preferably has a plurality of retaining ribs 39 for better holding the same. He is plugged onto the transfer pin 34. He is manually operated from the outside.

The boom 4 is again formed in two parts. It is formed by a first boom arm half 40 and a second boom arm half 41. The boom halves 40, 41 are made substantially identical with respect to a plane of symmetry. They are pluggable.

Each cantilever arm half 40, 41 has a side wall 42 and 43, respectively. The side walls 42, 43 extend substantially parallel to each other.

Each Auslegerarm half 40, 41 also has at its the boom pedestal 3 facing the end 44 a bearing head part holder 45 which is bounded laterally outwardly by the respective side wall 42 and 43, respectively. Furthermore, each bearing head part holder 45 is bounded by a circular ring land 46 in the radial direction upwards and laterally. At each pitch ring land 46 several teeth 47 are arranged one behind the other in the circumferential direction. The teeth 47 extend parallel to each other. They extend perpendicular to the circumferential direction of the pitch circular webs 46. The boom-fixing device 6 is formed by the teeth 30 and 47, which in turn form corresponding tooth devices. In the area of the bearing head part holders 45, a round bearing recess 48 is provided in each side wall 42, 43. In the assembled state of the boom arm-half 40, 41 are the bearing head part receptacles 45 facing each other and together form a bearing head receptacle.

In the assembled state of the boom assembly 2, the bearing heads 14, 15 are received in the bearing head receptacle. On the bearing heads 14, 15 arranged on the outside ring lands 49 engage inside the bearing recesses 48 a. The ring lands 49 run around the pivot axis. 5

Between the boom base 3 and the boom 4 a variable-length guide unit 51 is arranged, which is actuated upon pivoting of the boom 4 and this leads. The guide unit 51 comprises a base body 52 and a pull-out rod 53 displaceably guided in the base body 52. The pull-out rod 53 is articulated on a bearing pin 54 which is disposed on the second boom pedestal half 8 adjacent to the upper end of its bearing lug 11. The Auszieharm 53 has for this purpose a corresponding bearing eye 55 on the bearing pin 54 penetrates a corresponding bearing lug 56 on the first boom pedestal half 7. On the base 52, a bearing eye 57 is also provided above. One adjacent to the side wall 42 arranged to the circular ring land 46 bearing pin 58 engages in the bearing eye 57 a. The bearing pin 58 further protrudes into a corresponding bearing opening 59, which is arranged in the side wall 43 of the boom arm half 41.

At the end of the bearing head opposite end 60 is located at each boom arm 40 and 41, a laterally projecting outward hinge pin 61. At the pivot pin 61, a pivot member 62 is articulated. For this purpose corresponding first bearing recesses 63 are provided on the pivoting part 62.

In the pivoting part 62, an extension part 64 is guided to extend the pivoting part 62 axially displaceable. The pull-out part 64 can be pulled out from the front of the pivoting part 62 and, vice versa, can also be pushed back into the pivoting part 62. A corresponding guide is provided for this purpose on the pull-out part 64 and / or on the swivel part 62. On the pull-out part 64, a bearing receptacle 65 is formed in front, in which a blade, a gripper or the like can be stored.

Adjacent to the first bearing recesses 63 62 second bearing recesses 66 are provided on the pivot member. The second bearing recesses 66 are arranged above the first bearing recesses 63. In the second bearing recess 66 engage bearing lugs 67, which are arranged on a first coupling member 68 on the outside. Opposite to the bearing lugs 67 bearing recesses 69 are provided on the first coupling member 68. The bearing recesses 69 are connected to bearing bodies 70 of a second coupling member 71 in connection. Opposite to the bearing bodies 70 bearing lugs 72 are arranged on the second coupling member 71, which in corresponding lateral bearing recesses 73a on the boom arm halves 40, 41 adjacent to the pivot pin 61 engage.

Between the bearing bodies 70 extends a transmission rod 73, which is part of the second coupling member 71. To the transmission rod 73 engages an elongated Ausziehkörper 74, which is guided in a bushing body 75 slidably. The socket body 75 is connected to a coupling part 76 in connection, which in turn is articulated to the boom 4. For this purpose, a corresponding holder 77 is provided on the investor arm 4 approximately in the middle.

The function of the toy loading crane will be described below. As already mentioned, the switch body 33 is pivotable between a release position and a fixing position. In the fixation position, the in Fig. 4 is shown, the switch body 33 is oriented vertically, that is, the longitudinal extent of the switch body 33 extends in a vertical direction. One of the longitudinal ends 36 faces the displacement web 26. The holding surface 37 of this longitudinal end 36 engages from below to the dislocation web 26. The curvature of this holding surface 37 is adapted to the curvature of the displacement web 26. About this support surface 37 and the dislocation web 26 is applied from below a force acting upward in the direction of the teeth 47 movement force on the locking insert 22 so that a selected tooth 47 engages positively in the tooth holder 31. The locking insert 22 is in an upper position. The pivotal position of the cantilever arm 4 is dependent on the selected tooth 47. By this engagement, the boom 4 is fixed relative to the boom base 3.

By pivoting of the actuating handle 38 about the pivot axis 5 of standing with this in a rotationally fixed connection transmission pin 34 is pivoted about the pivot axis 5 accordingly. The standing with the transmission pin 34 in a rotationally fixed connection switch body 33 is therefore pivoted according to the pivot axis 5 accordingly. In this case, the hitherto fixing holding surface 37 is rotated away from the displacement web 26. Preferably, the operating handle 38 is rotated by about 90 °. The dead center is overcome. In the release position, one of the transverse ends of the switch body 33 is arranged adjacent to the offset web 26. The switch body 33 exerts on the dislocation web 26 now no more pressure from below on the Arretiereinsatz 22. The locking insert 22 is now in a lower position. The teeth 47 are disengaged from the tooth receptacle 31. The release order is in Fig. 3 shown. The boom 4 is pivotable relative to the boom base 3 about the pivot axis 5. It can then be fixed again in another pivot position. The pivoting position specifies the then engaging in the tooth holder 31 tooth 47. The locking insert 22 is thus displaceably guided in the Arretiereinsatz recording 20 between the upper position and the lower position.

When an overload acts on the cantilever arm 4, the spring head 23 is compressed while reducing the spring space 29. The dislocation bar 26 is bent. In this case, the locking insert 22 is moved away from the teeth 47. The second tooth device 25 comes out of engagement with the teeth 47. The locking insert 22 thus forms an overload protection that releases the tooth connection between the two tooth devices in case of overload and thus prevents damage to the toy loading crane, in particular on the boom or its storage. If the overload is no longer present, the spring head 23 through the Verstellungsegeg 26 again pushed up to the teeth 47. There is then again a tooth connection between the two tooth devices.

When the pivot member 62 is pivoted, the coupling members 68, 71 are pivoted to each other. The pullout body 74 is axially displaced.

Claims (15)

Boom arm assembly for a toy loader crane, comprising a) a boom arm foot (3), b) a boom arm (4), the i) is mounted on the boom stand (3), and ii) relative to the boom pedestal (3) for height adjustment about a pivot axis (5) is pivotable, and c) a boom-fixing device (6) for fixing the boom arm (4) in a selected pivot position, wherein the boom-fixing device (6) i) an actuatable switching device (32) which is pivotable between a release position, in which the boom arm (4) relative to the boom base (3) about the pivot axis (5), and a fixing position, in which the boom arm (4) the boom base (3) is fixed about the pivot axis (5), is displaceable, and ii) a first tooth device (47) provided on the cantilever arm (4) and a second tooth device (25) provided on the cantilever pedestal (3), the first tooth device (47) and the second tooth device (32) being in the fixing position of the switching device (32) Tooth device (25) are in engagement with each other, d) wherein the second tooth device (25) on a locking insert (22) is provided, which is mounted in a Arretiereinsatz recording (20) of the boom base (3) and by displacing the switching device (32) relative to the first tooth means (47 ) is movable, wherein the second tooth means (25) in the engaged position with the first tooth means (47) via a spring means (23) is biased. Arm assembly according to claim 1, characterized in that the switching device (32) is pivotably mounted on the boom base (3). Arm assembly according to one of the preceding claims, characterized in that the switching device (32) has a switching body (33) which is executed out of round and at least one cam projection (36) for bringing the second tooth means (25) in engagement with the first tooth device (47). Boom arm assembly according to claim 3, characterized in that on the switch body (33) at least one laterally projecting, to the at least one cam projection (36) adjacent the detection projection (38) is provided for detecting the fixing position. Arm assembly according to one of claims 1 to 4, characterized in that the Arretiereinsatz (22) as the spring means comprises a spring head (23) for allowing a spring movement of the switching device (32) relative to the first tooth means (47). Boom arm assembly according to claim 5, characterized in that the spring head (23) has a displacement web (26) which extends at least partially towards the switching device (32) and in the fixing position with the switching device (32) is in direct operative connection. Arm assembly according to claim 5 or 6, characterized in that the second tooth means (25) on a support web (24) is provided, which at least partially away from the switching device (32) and part of the spring head (23). Arm assembly according to one of the preceding claims, characterized in that the first toothed device (47) has a plurality of successively arranged teeth which are arranged on a part-circle body (46) on the cantilever arm (4). Boom arm assembly according to one of the preceding claims, characterized in that the switching device (32) about the pivot axis (5) is pivotable. Boom arm assembly according to one of the preceding claims, characterized in that the switching device (32) is an actuating handle (38) for displacing the switching device (32) in a fixed connection. A boom assembly according to any one of the preceding claims, characterized in that the spring head (23) is compressed so that the tooth connection between the first tooth means (47) and the second tooth means (25) detaches when on the boom arm (4) Torque over a threshold torque is applied. Arm assembly according to one of the preceding claims, characterized in that the Arretiereinsatz (22) in a Arretiereinsatz recording (22) is inserted. Arm assembly according to one of the preceding claims, characterized in that the second tooth means (25) in a first position of the Arretiereinsatzes (22) with the first tooth means (47) is in tooth connection, while in a second position of the Arretiereinsatzes (22) with the first toothed device (47) is disengaged. Arm assembly according to one of the preceding claims, characterized in that the switching device (32) assumes a stable position in its fixing position. Toy loading crane, comprising a) a toy body (1), and b) one on the toy base body (1) arranged boom arm assembly (2) according to one of the preceding claims.

Images