TWM368478U - Toy device actuated by magnetic force - Google Patents

Description

M368478 V. New description: [New technical field] This creation is about a magnetically actuated toy device. It refers to the use of magnetic force to make the body advance m to provide additional power.疋[Prior Art] According to the conventional use of the magnetic toy device, it is like the Chinese "Magnetic Guide Toy Car and its Magnetic Track Cellar", which is composed of a toy car and a plurality of pad bodies, wherein Most of the pad systems are made of (4) softness materials and can be combined with each other, and a magnetic material is provided in one end surface of each pad body: layer 'when each pad body is combined with each other The magnetic interlayers of the sheets can be connected to each other to form a closed magnetic track, and at the bottom of the toy vehicle, there is a movable magnet that maintains a distance from the surface of the mantle ^ between the movable magnet and the floor mat The generated magnetic force can limit the walking of the car to follow the magnetic obstruction on the floor mat, but its main purpose is to enable the toy car to walk on the magnetic obedience without deviating from the obedience, but

The magnetic force does not provide the power for the toy car to travel, so it is still necessary to add a power device to the toy car I to enable the toy car to travel on the track. [New content] In view of the lack of the use of magnetic toys, the present invention provides a magnetically actuated toy device comprising: a track consisting of at least one axial magnet, the axial direction The two sides of the magnet are respectively a first anode surface and a first cathode surface, and the first anode surface and the first cathode surface form a running 3 M368478 surface. The body of the body travels on the side of the main body and has less than two sides of the two sides, and is provided with a ring-shaped multi-pole magnet, and the two sides of the annular multi-pole magnet are respectively a second anode surface and a second cathode surface, and the first anode surface or the second cathode surface of the annular multipole magnet sleeved on the sleeve portion are opposite to each other, and the magnetic direction of the multipole magnet Then the magnetic direction of the axial magnet is perpendicular to ^=^^! In the toy device, when the axial magnet is provided with two J Γ, the first anode surface of the iron attracts the first cathode surface of the other axial magnet, so that each of the running surfaces is connected to each other. The axial magnet described above is rectangular. When the annular multi-pole magnetic faces that are sleeved on the sleeve portion are opposite each other, the younger brother of the sun 栌 戟 — — 11 11 11 11 11 11 11 11 11 11 11 11 11 11 : 二 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该The running surface of the first cathode surface. The second cathode face of the annular multipole magnet on the sleeve is: when facing the front side. The system is from the line close to the first cathode face: travels to the running surface near the first anode face. The above system has four sleeve portions, and correspondingly disposed on both sides of the body, the four sleeve portions are provided; the J second system 2 magnets are disposed and the corresponding two sets are respectively arranged On the ferrule: The second anode surface or the second cathode surface of the pole magnet are opposite to each other. -Open " The above system is provided with four sets, correspondingly on both sides of the Zhao, the four sets of parts are multi-pole magnets 'and are set in two corresponding parts : Zhi; Yuan Kai:? The second anode surface of the M368478 pole magnet should be placed on the Qiu, and facing each other, and the other two sets of the opposite creations have the following advantages. To the magnetic nr, the magnetic direction of the annular multi-pole magnet is perpendicular to the direction of the ::::: force direction, so that the sleeve generates the forward power and drives the body to advance, and the power is supplied. ^Magnetic change The magnetic strength of the annular multi-pole magnet or the change of the axial magnetic force can increase or slow the speed of the body. 3. The error is changed by the ring set on the sleeve. The direction of the second anode surface or the second cathode surface is opposite to each other, so that: 2:! The running surface of the anode surface travels to the running surface close to the cathode surface of the first-cathode surface, the anode surface, and the driving surface of the anode surface is close to the system 2: the sleeve portion of the body is provided with four or more, and each of the two sleeves is provided. On the two sides of the body, the winter body advance speed can be changed by changing the magnetic direction of the annular multi-pole magnet sleeved on each of the two parts. [Embodiment] First of all, please refer to the figure below. 'This creation is a magnetically actuated toy device' that includes: "I is obeying (1), consisting of at least one or more axial magnets," The two sides of the axial magnet (11) are respectively a first anode ^1, 1] and a first cathode surface (1 1 2)' perpendicular to the first anode surface and the "first cathode surface (112 ) forming a running surface (1丨3), 5 M368478 and the axial magnet (11) may be rectangular, and when the axial magnet (ιι) is provided with two or more, each axial magnet (11) The first anode surface (111) adsorbs the first cathode surface (112) of the other axial magnet (u), and connects each of the running surfaces (113) to each other. A body (2) is driven by the body On the running surface (113), and at least two corresponding sleeve portions (2〇, the sleeve portion (21) is sleeved with a ring-shaped multi-pole magnet (22) The two sides of the annular multi-pole magnet (22) are respectively a second anode surface (221) and a second cathode surface (222), and the annular multi-pole magnet sleeved on the sleeve portion (21) 22) The second anode surface (221) or the second cathode surface (222) are opposite each other 'other'. The magnetic direction of the annular multipole magnet (22) is perpendicular to the magnetic direction of the axial magnet (11), below In the embodiment, the present invention is used in a toy vehicle, and the body (1) is referred to as a vehicle body, and the fitting portion (21) is set as a wheel. In use, the present invention is embodied as shown in the second figure, the body (2) There are four sets of joints 〆苌σ (and two sets of mating parts (21) are correspondingly arranged on both sides of the body (1), and two of the corresponding sets of 'sections' (21) The (4) annular multi-pole magnets (22) are sleeved, and the annular multi-pole magnets (Μ) sleeved on the corresponding sleeve portions (21) are opposite to each other, so 'when the sleeve portion (21) ) When the driving surface 〇 13) 'the circular multi-pole magnet (2)): = (U2) the rotating force, and the second cathode surface (10) of the ring brother will produce the axial magnet ((1)) M368478 a rotating force of the anode surface (112), and the annular multi-pole magnet (2 2 ) is sleeved on the corresponding corresponding sleeve portion (21), and the ring is opened > 22) The second anode faces (221) are opposite to each other, so the component of the steering will be offset, and the component force that is always moving forward remains, and the body (2) is pushed close to the first anode face (丨)行驶) The driving surface (113) travels to the driving surface (113) near the first cathode surface (112) without additional power, and the user can also change the circular multi-pole magnet Lu, (22) The strength of the magnetic force or the strength of the magnetic force of the axial magnet (11) increases or decreases the speed at which the body (2) travels. The second embodiment of the present invention is shown in the third figure, which differs from the previous embodiment in the second cathode of the annular multipole magnet (22) that is sleeved on the two corresponding sleeve portions (21). The faces (222) are opposite to each other, so the body (2) travels from the running surface (113) close to the first cathode face (112) to the running face near the first anode face (111) (丨) 3) . In the third embodiment of the present invention, as shown in the fourth figure, the body (2) is provided with four sleeve portions (21), and each of the two sleeve portions (21) is correspondingly disposed on the body (2). On both sides, the four sleeve portions (21) are sleeved with the ring-shaped multi-pole magnet (22), and the annular multi-pole magnet sleeved on each of the two corresponding sleeve portions (21) (22) The second anode faces (221) are mutually opposite each other and the driving principle of the body (2) is as described in the first embodiment, and the body (2) is close to the first anode face (m) The driving surface (113) travels to the running surface (113) near the first cathode surface (112), and the annular multi-pole magnet (22) is sleeved by the four fitting portions (21), and The second anode surface (221) of the annular multipole magnet 7 M368478 iron (22) disposed on each of the two corresponding sleeve portions (21) is opposite to each other, so the component of the advancement will have a multiplication The effect is to increase the speed of the body (2). The fourth embodiment of the present invention is shown in FIG. 5, which is different from the third embodiment in that the second annular magnet (22) is placed on each of the two corresponding sleeve portions (21). The cathode faces (222) are opposite each other, so they travel from a running surface (ι 3) close to the first cathode face (112) to a running face (113) close to the first anode face (m). In the fifth embodiment, as shown in the sixth figure, the body (2) is provided with four sleeve portions (21)' and each of the two sleeve portions (21) is correspondingly disposed on the body. (2) On both sides, the four sleeve parts (21) are sleeved with the annular multi-pole magnet (22), and the annular multi-pole magnets are sleeved on the two corresponding corresponding parts (21) ( 22) The second anode faces (221) are opposite to each other, and the second cathode faces (222) of the annular multipole magnets (22) sleeved on the other two corresponding sleeve portions (21) are mutually In the opposite direction, the front part of the two corresponding corresponding parts (21) on the body (2) and the other two parts of the corresponding part (21) are opposite to each other. 2) It will drive in the direction of greater forward force, and achieve the effect of reducing the speed of the body (2). [Simple description of the diagram] 'The first picture is a three-dimensional diagram of the creation. The second drawing is a schematic view of the first embodiment of the creation. The third figure is a schematic diagram of the second embodiment of the creation. The fourth figure is a schematic view of the third embodiment of the creation. The fifth figure is a schematic view of the fourth embodiment of the present creation. M368478 The sixth figure is a schematic diagram of the fifth embodiment of the creation. [Description of main component symbols] (1) Orbit (11) Axial magnet (111) First anode surface (112) First cathode surface (113) Driving surface (2) Main body (21) Fitting part (22) Polar magnet (221) second anode surface (222) second cathode surface

Claims (1)

M368478 VI. Applicable scope of the patent: The toy device of the sub-domain knife, including: The inner magnetic furnace = is composed of at least one or more axial magnets, and the two sides of the axial magnet are respectively - - an anode surface and a second pole surface; f ~ a pole cathode surface forming - driving - body ' is driven on the running surface, and has two corresponding fitting portions, and the sleeve portion is sleeved There are: =: a pole magnet' and the two sides of the annular multi-pole magnet are - a first pole face and an n (four), respectively, and the second anode face or the second cathode face of the iron sleeved on the sleeve portion are mutually In the opposite direction, the magnetic direction of the other magnetic pole is perpendicular to the magnetic direction of the axial magnet. The magnetically actuated toy device of claim 1 wherein, when the axial magnet is provided with two or more, each axial magnetic anode surface adsorbs the first cathode surface of the other axial magnet, The S-home is connected to each other. 2 towel please patent range! The magnetically actuated toy device of the item, wherein the axial magnet is rectangular. 4. The magnetically actuated toy device according to claim 1, wherein the second anode surface of the annular multi-pole magnet disposed on the sleeve portion is a phase (four), and the system is close to the first An anode surface travels to a running surface adjacent to the first cathode surface. [5] The magnetically actuated toy device of claim 2, wherein the second yin of the annular multi-pole magnet sleeved on the ferrule is opposite to each other when the surface is opposite to each other The first cathode surface travels to the running surface of the first anode surface. 0, for example, the magnetically actuated toy skirt described in the first item of the patent scope, wherein the system has four sleeve portions, and each of the two sleeve portions is correspondingly disposed on both sides of the body, the four Each of the sleeve portions is sleeved with the ring and sleeved on each of the two corresponding sleeve portions. The second anode surface or the second cathode surface of the pole magnet are opposite to each other. :: Applying for the magnetic force action mentioned in item i of the patent scope, the system is provided with four sets, and the corresponding ones are arranged on both sides of the body, and the 纟- a set part is a multi-pole magnet, and the horse is set on The second anode surface of the annular pole magnet is disposed on the opposite side of the annular multi-pole magnet on the annular multi-component sleeve on the opposite side of the sleeve portion, and is disposed on the other two opposite sides. The brother-one cathode faces are opposite each other.