WO2015089759A1 - Adjustable magnetically conductive disk body set - Google Patents

Abstract

An adjustable magnetically conductive disk body set, comprising two magnetically conductive disks (10), a connection disk (20), and at least one spacing adjustment mechanism (30). The magnetically conductive disks are arranged in parallel to one another and at an interval. The connection disk is arranged between the magnetically conductive disks, and is in parallel with the magnetically conductive disks. The spacing adjustment mechanism is arranged on the connection disk, and is connected to the magnetically conductive disks so as to control the spacing of the two magnetically conductive disks. When the position of either of the magnetically conductive disks is adjusted, the other magnetically conductive disk moves synchronously, the magnetically conductive disks moving closer to or further away from one another. The movement strokes of the magnetically conductive disks are identical, and both magnetically conductive disks maintain an identical distance from the connection disk. The present adjustable magnetically conductive disk body set enables easier spacing adjustment.

Description

 Adjustable lead disk group

 The invention relates to a group of guiding disk bodies, in particular to an adjustable group of guiding disks which can adjust the spacing of the two guiding disks.

Background technique

 At present, countries all over the world are actively solving the problem of energy demand. In addition to finding alternative energy sources, it is to improve the operational efficiency of each connection institution. The place where power loss is most likely to occur is where the components are connected to the components, such as: Couplings. Its main function is to use the components to connect the shafts of two different machines, so that the two shafts can rotate together in the transmission process, as a bridge to drive each other. However, during the process of transmission and rotation, the components are affected by factors such as friction and component characteristics, resulting in loss of power.

 In order to reduce the above-mentioned power loss condition, there is currently a coupling that utilizes magnetic force as a power transmission, which is mainly composed of a guide disk and a permanent disk, and utilizes magnetic characteristics to enable the two to achieve a linkage effect, and Used as a power transmission. Since the transmission method is not in direct contact, the magnetic coupling machine has less loss in operation than the conventional coupling machine, and provides energy saving effects.

 However, the structure of the permanent magnet coupling machine is known, and there are still disadvantages in actual application to be improved. The disadvantage is that the spacing adjustment of the two-conductor disk in the permanent magnet coupling machine is not easy, and one of the main factors affecting the transmission efficiency of the permanent magnet coupling machine lies in the spacing between the conductive disk and the permanent disk (ie, the air gap). The distance between each lead disk and the permanent disk must be within a certain range, so as to achieve the best stress effect. However, in the process of adjustment, the known technology is mainly in the form of single-chip movement, which may cause the spacing between the two-conductor disk and the permanent disk in the middle to be inconsistent, or the distance needs to be re-calibrated by other means, so After many adjustments, a lot of time will be wasted in this step. Summary of the invention

The technical problem to be solved by the present invention is: for the above-mentioned prior art two-conductor disk and permanent magnet The problem of wasted time and multiple times between disks is a waste of time, and an adjustable type of disk body is provided.

 In order to solve the above technical problem, the technical solution adopted by the present invention is: an adjustable type of conductive disk group, comprising a two-conducting disk, the two guiding disks are arranged in parallel with each other; and the utility model further comprises a connecting disk and At least one spacing adjustment mechanism, the lands are disposed between the two guiding disks and parallel to the two guiding disks; the spacing adjustment mechanism is disposed on the lands and connected to the two guiding disks for controlling the two guiding The spacing between the disks.

 Preferably, the disk assembly further includes a movement assisting mechanism, the movement assisting mechanism is disposed on the connecting plate, and includes at least two sliding slots and two sliding blocks, wherein the two sliding blocks are respectively inserted into one of the sliding slots and They are respectively connected to a guiding disk, and the two sliders can move in parallel in the sliding slot. This can improve the stability of the movement when the disk is moved.

 Preferably, the slider has a cylindrical shape to achieve stable sliding effect.

 Preferably, the number of the mobile assisting mechanisms is three or more, and the spacing of each of the adjacent mobile assisting mechanisms is the same. Thereby, the movement of the conductive disk can be made more stable and smoother.

 Preferably, the pitch adjustment mechanism further includes a gear and a two-rack, wherein the gear is embedded and driven to the lands. The two racks are respectively engaged on opposite sides of the gear, and are respectively connected to one of the guide disks, thereby achieving the effect of linkage.

 In addition, the number of the spacing adjustment mechanisms is three, and the spacing of each adjacent spacing adjustment mechanism is the same, thereby achieving the effect of stable movement.

 In addition, a plurality of heat sinks are disposed on the guide disk for the heat dissipation of the guide disk. Moreover, the guiding disk and the connecting plate are respectively provided with a shaft hole for connecting the external power output source or the receiving end. The periphery of the land surrounds a permanent disk.

 Thus, with the spacing adjustment mechanism, when the position of any of the conductive disks is adjusted, the other conductive disks also move synchronously, close to each other or away from each other, and the movements of the respective magnetic disks are the same, so that the respective magnetic disks are maintained. The same distance as the lands, overcoming the problems of the known art.

In order to facilitate the examiner to understand the technical features, contents and advantages of the present invention and the work that can be achieved The present invention will be described in detail with reference to the accompanying drawings, and the description of the embodiments of the present invention, which is used for the purpose of illustration and the accompanying description, Accurate configuration, and therefore should not be construed as limiting the scope and configuration of the drawings, and limiting the scope of the invention in actual implementation.

DRAWINGS

 FIG. 1 is a schematic perspective view of an embodiment of the present invention.

 Figure 2 is a perspective view of the present invention in which one of the guide disks is separated.

 FIG. 3 is an enlarged schematic view showing a pitch adjusting mechanism of the present invention installed on a lands.

 Figure 4 is a schematic cross-sectional view of the present invention.

 Fig. 5 is a schematic cross-sectional view showing a pitch adjusting mechanism of the present invention.

 Figure 6 is a perspective view of the lands of the present invention.

 Figure 7 is a perspective view showing the separation of the rack and the gear of the present invention.

 FIG. 8 is a perspective view of the present invention in which a permanent disk group is disposed outside the lands.

 Label description

10· • Guide disk 11 ·

 12· - Axis hole 20·

21 · - Axis hole 30·

 31 · • Gear 32·

 40· • Mobile assist mechanism 41 ·

42· • Slider 50·

detailed description

Referring to the embodiment of the adjustable guide disk assembly shown in FIGS. 1 to 7, the second guide disk 10, a lands 20 and at least one pitch adjustment mechanism 30 are included. The spacing adjustment mechanism 30 adjusts the spacing of the conductive disks 10, that is, adjusts the spacing between the conductive disks 10 and the lands 20. When one of the conductive disks 10 is forced to change the position relative to the lands 20, the other The boot disk 10 will also be moved synchronously. Change the position to achieve the purpose of spacing adjustment.

 The spacing adjustment mechanism 30 is disposed on the lands 20 and connected to the two-conducting disk 10 so that the guiding disks 10 can be close to or away from each other at the same time. Further, the two conductive disks 10 are arranged in parallel with each other at intervals, and the land 20 is disposed between the two conductive disks 10 and parallel to the two conductive disks 10. The spacing adjustment mechanism 30 is disposed on the lands 20 and connected to the two-conducting disk 10 for controlling the spacing between the two-conducting disks 10. The two-lead disk 10 is centered on the land 20 by the pitch adjusting mechanism 30 while being brought closer to or away from the land 20. Therefore, the user only needs to adjust the position of one of the guide disks 10, and the other guide disk 10 will be relatively moved by the spacing adjustment mechanism 30, and the displacement distance is uniform, and no additional measurement adjustment is needed, so that many of the guide disks can be reduced. Adjust the position of the time to overcome the problems of the known technology.

 Moreover, as shown in FIG. 2 or FIG. 6 , a movement assisting mechanism 40 is further disposed on the lands 20 and includes at least two sliding slots 41 and two sliders 42 , wherein the sliders 42 is inserted into one of the chutes 41 and connected to a guide disk 10, respectively, and the sliders 42 are movable in parallel. When any of the guide disks 10 is moved by force, the slider 42 connected thereto also moves in the sliding slot 41, and the slider 42 is limited by the position where the sliding slot 41 is disposed, and when the slider 42 is moved, It will travel straight, in other words, the guide disk 10 is guided and restricted by the slider 42, and the tilting is less likely to occur.

 Further, as shown in the figure, the sliders 42 may have a cylindrical shape to enhance the smoothness when sliding. Further, three or more sets of the mobile assisting mechanism 40 may be provided, and the distances of the adjacent moving assisting mechanisms 40 may be the same, so that a more stable movement can be provided.

In order to make the pitch adjustment mechanism 30 of the present invention easier to understand, an example is listed below, but is not limited thereto. As shown in FIGS. 3 to 5, the pitch adjusting mechanism 30 includes a gear 31 and two racks 32. The gear 31 is embedded in the lands 20, and the two racks 32 are respectively engaged with the gears 31, and are respectively connected to one of the guide disks 10. When one of the guide disks 10 is forced to change position, the combined rack 32 will drive the gear 31 to rotate during the displacement, thereby making the relative position The rack 32 is moved and the other guide disk 10 is pushed or pulled to achieve simultaneous operation. The spacing adjustment mechanism 30 is only one embodiment, and may be composed of other mechanisms having similar functions, and is not limited thereto.

 Moreover, preferably, the number of the spacing adjustment mechanisms 30 may be three or more, and the spacing of each of the adjacent spacing adjustment mechanisms 30 is the same, so as to provide a balanced and stable power of the conductive disk when moving.

 As shown in FIG. 2, a plurality of heat sinks 11 are disposed on the two-conductor disk 10 for heat dissipation. The guide disks 10 and the lands 20 are correspondingly provided with a shaft hole 12, 21 for the corresponding object to be placed for transmission.

 Moreover, as shown in FIG. 8, a permanent magnetic disk 50 can be disposed outside the connecting plate 20, and the permanent magnetic disk 50 can be connected to another disk body or another transmission mechanism through a connecting block (not shown). The variety is not limited. The magnetic coupling machine formed by this arrangement has a smaller overall size than the known magnetic coupling machine, so that the space occupied is smaller.

 The embodiments described above are only for explaining the technical idea and the features of the present invention, and the purpose of the present invention is to enable those skilled in the art to understand the contents of the present invention and to implement the present invention. Equivalent variations or modifications made by the spirit of the invention are still intended to be included within the scope of the invention.

Claims

Rights request

An adjustable conductive disk group, comprising a two-conducting disk, wherein the two guiding disks are arranged in parallel with each other; and further comprising a connecting plate and at least one spacing adjusting mechanism, wherein the connecting disk is disposed on the second Between the conductive disks and parallel to the two conductive disks; the spacing adjustment mechanism is disposed on the connecting disk and connected to the two conductive disks to control the spacing between the two conductive disks.

 The adjustable disk group according to claim 1, wherein the disk group further comprises a movement assisting mechanism, wherein the movement assisting mechanism is disposed on the connecting plate, and comprises at least two sliding slots and two sliding And the two sliders are respectively inserted into one of the sliding slots and respectively connected to a guiding magnetic disk, and the two sliding blocks are movable in the sliding slot in parallel.

 The adjustable guide disk assembly according to claim 2, wherein the slider has a cylindrical shape.

 The adjustable guide disk assembly according to claim 2, wherein the number of the movement assisting mechanisms is three or more, and the distance between adjacent ones of the movement assisting mechanisms is the same.

 The adjustable lead disk assembly according to claim 2, wherein the pitch adjusting mechanism comprises a gear and a two-rack, the gear is embedded and driven to the connecting plate; and the two racks respectively mesh The gears are connected to one of the conductive disks.

 The adjustable disk group according to claim 5, wherein the number of the pitch adjusting mechanisms is three or more, and the pitch of each of the adjacent pitch adjusting mechanisms is the same.

 The adjustable disk group according to claim 6, wherein a plurality of heat sinks are disposed on the conductive disk.

 The adjustable guide disk assembly according to claim 7, wherein the guide disk and the connection plate are respectively provided with a shaft hole.

 The adjustable disk group according to claim 8, wherein the land surrounds a permanent disk.