JP2009066393A - Storage apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a storage apparatus having a storage space having an automatically adjustable size. <P>SOLUTION: The storage apparatus includes a chamber, a plurality of spacers set in the chamber and defining a plurality of storage spaces in the chamber, a plurality of supporting devices set in the chamber and removably setting the spacers thereon, and a spacer-moving module set in the chamber and adjusting the size of the storage space by adjusting and moving the spacers at coupling positions on the supporting devices. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a storage device, and more particularly to a storage device that can automatically adjust the size of a storage space.

  In conventional storage devices, for example, the size of the storage space of an office cabinet or book shelf is usually fixed, so if the volume of an article or book to be placed is too large, it is often in the cabinet or book shelf. I can't put it in.

  Even in the prior art, there are cabinets or bookshelves that can adjust the size of the storage space, and the size of the storage space is adjusted mainly by manually adjusting the position of the spacer. However, the user must disassemble the spacer and remove it from the fixture. However, it is difficult to remove the fixture, which causes inconvenience to the user.

  An object of the present invention is to provide a storage device.

  The present invention provides a storage device to solve the problems of the prior art. The accommodation device includes a chamber, a plurality of spacers, a plurality of retaining devices, and a spacer moving module. The spacer is installed in the chamber and defines a plurality of receiving spaces in the chamber. The retaining device is installed in the chamber, and the spacer is installed on the retaining device in a disassembly manner. A spacer moving module is installed in the chamber, and the spacer moving module adjusts the size of the accommodating space by adjusting and moving the coupling position of the spacer on the holding device.

  According to the present invention, since the spacer is moved in an automated manner and the size of the accommodation space is adjusted, it is possible to prevent a problem that it is difficult to remove the conventional fixture. At the same time, since the spacer is moved in an automated manner, the user automatically operates the control unit by using the input interface in the usable space in the accommodation device, so that the control unit automatically increases the size of the accommodation space. It can be adjusted to save user time and increase convenience.

  In order that the objects, features, and advantages of the present invention will be more clearly understood, embodiments will be described below in detail with reference to the drawings.

  Please refer to Fig.1. The accommodation apparatus 100 of this invention is represented. The accommodation device includes a chamber 110, an input interface 101, a plurality of spacers 120, a plurality of retaining devices (not shown in the figure), and a spacer moving module 200. The spacer 120 is installed in the chamber 110 and defines a plurality of receiving spaces 111 in the chamber 110. The retaining device is installed in the chamber 110, and the spacer 120 is installed on the retaining device in a manner that allows disassembly. The spacer moving module 200 is installed in the chamber 110. The spacer moving module 200 adjusts the size of the accommodation space 111 by adjusting and moving the coupling position of the spacer 120 on the holding device.

  Please refer to Figure 2. 3 shows a detailed structure of the spacer movement module 200 of the present invention. The spacer moving module 200 includes a moving unit 210 and a holding unit 220. The holding unit 220 is used to hold the spacer, and the moving unit 210 is used to move the holding unit 220. The moving unit 210 includes a driving device 211, a rod 212, and a rod 213. The driving device 211 is a motor, the rod 212 is a screw rod, the driving device 211 is connected to the rod 212, rotates the rod, and moves the holding unit 220 on the rod 212. At the same time, the holding unit 220 is connected to the rod 213, and the rod 213 is a smooth rod and is used to limit the movement path of the holding unit 220. The driving device 211 of this embodiment is a stepping motor and controls the position of the holding unit 220 more accurately.

  The holding unit 220 includes a plurality of actuating devices 221 and a plurality of holding elements 222, and the actuating device 221 drives the holding elements 222 to hold the spacers. Actuator 221 is a motor.

  Please refer to FIG. Fig. 2 represents a block diagram of a system of spacer movement modules. The spacer moving module 200 further includes a control unit 230. The control unit 230 is connected to the input interface 101, the driving device 211, and the operating device 221, and the user controls the control unit 230 by the input interface 101. The control unit 230 controls the operation of the driving device 211 and the actuating device 221. Please refer to Figure 2. The spacer moving module 200 further includes a sensor 241 and a sensor 242. The sensor 241 and the sensor 242 are installed in the chamber and connected to the control unit 230 to detect the position of the holding unit 220. Prevent abnormal collisions. In the embodiment of the present invention, the sensors 241 and 242 are limit switches.

  Please refer to Fig.4. The detailed structure of the spacer 120 and the retaining device 130 is shown. Each spacer 120 includes a plurality of wedge units 140, and the wedge units 140 are installed on the edges of the spacers 120, and the spacers 120 are installed on the retaining device 130 in a manner that can be disassembled by the wedge units 140. Is done. The spacer 120 further includes a stretching plate 121 and can slide on the surface of the spacer 120. Each retaining device 130 includes a plurality of fixed notches 131, and the fixed notches 131 and the wedge unit 140 are engaged with each other to fix the position of the spacer 120.

  See Figures 5a and 5b. The separation state of the wedge unit 140 and the retaining device 130 is shown. See Figure 5c. FIG. 5B is an enlarged view of portion A in FIG. 5B, and the holding element 222 presses the wedge unit 140. The wedge unit 140 includes a lever element 141 and an elastic element 142. The lever element 141 includes a wedge portion 144 and a holding portion 143. At this time, the holding element 222 can move the spacer 120 freely by pressing the holding part 143, positioning the lever element 141 in the first direction, and separating the wedge part 144 and the holding device 130.

  See Figures 6a and 6b. The wedge unit 140 represents the situation where it is connected to the retaining device 130. See Figure 6c. FIG. 6B is an enlarged view of a portion B in FIG. 6B. At this time, the holding element 222 is not in contact with the holding portion 143, and the elastic element 142 pushes out the holding portion 143 to position the lever element 141 in the second direction. The wedge portion 144 enters the fixing notch of the retaining device 130 and is fixed on the retaining device 130.

  In the above-described embodiment, the elastic element 142 is a spring, and the retaining device 130 can be disassembled in a manner in which the spacer 120 can be disassembled by rotating the lever element 140 between the first direction and the second direction. Can connect. By the spacer moving module 200, the spacer 120 can be moved and fixed, and the size of the accommodation space can be automatically adjusted.

  Please refer to FIG. This represents a situation where the holding element presses the stretching plate 121. When the drawing plate 121 can slide on the surface of the spacer 120 and the user takes out the article from the spacer 120, the control unit can adjust the position of the holding unit 220, and the height of the holding unit 220 corresponds to the drawing plate 121. Is done. At this time, the actuating device 221 ′ behind the stretching plate 121 drives the operation of the holding element 222 ′, pushes the stretching plate 121 forward (in the direction of the opening of the chamber), and the user moves the spacer 120 (stretching plate). 121) The above items are conveniently removed. After taking out the article, the user pushes the stretching plate 121 back into the chamber.

  According to the present invention, since the spacer is moved in an automated manner and the size of the accommodation space is adjusted, it is possible to prevent a problem that it is difficult to remove the conventional fixture. At the same time, since the spacer is moved in an automated manner, the user automatically operates the control unit by using the input interface in the usable space in the accommodation device, so that the control unit automatically increases the size of the accommodation space. It can be adjusted to save user time and increase convenience.

  The preferred embodiments of the present invention have been described above, but this does not limit the present invention, and a few changes and modifications that can be made by those skilled in the art without departing from the spirit and scope of the present invention. It is possible to add. Accordingly, the scope of the protection claimed by the present invention is based on the scope of the claims.

Fig. 2 shows a storage device of the present invention. Fig. 4 shows a detailed structure of a spacer moving module. Fig. 2 represents a block diagram of a system of spacer movement modules. It shows the detailed structure of the spacer and retaining device. The separation state of the wedge unit and the holding device is shown. The separation state of the wedge unit and the holding device is shown. Fig. 5b shows an enlarged view of part A of Fig. 5b. This shows the connection status between the wedge unit and the retaining device. This shows the connection status between the wedge unit and the retaining device. Fig. 6b shows an enlarged view of part B of Fig. 6b. This represents a situation where the holding element presses the stretching plate 121.

Explanation of symbols

100 receiving device 101 input interface 110 chamber 111 receiving space 120 spacer 121 stretching plate 130 holding device 131 fixing notch 140 wedge unit 141 lever element 142 elastic element 143 holding unit 144 wedge unit 200 spacer moving module 210 moving unit 211 driving unit 212 rod 213 Rod 220 Holding unit 221, 221 ′ Actuator 222, 222 ′ Holding element 230 Control unit 241 Sensor 242 Sensor

Claims (10)

Chamber,
A plurality of spacers installed in the chamber and defining a plurality of accommodation spaces in the chamber;
A plurality of retaining devices installed in the chamber and mounted on the spacer in a dismantleable manner; and installed in the chamber, which adjusts and moves the spacer at a coupling position on the retaining device. Accordingly, a storage device including a spacer moving module that adjusts the size of the storage space.   The accommodation apparatus according to claim 1, wherein the spacer moving module includes a moving unit and a holding unit, the holding unit holds the spacer, and the moving unit moves the holding unit.   The accommodation device according to claim 2, wherein the moving unit includes a driving device and a rod, and the driving device moves the holding unit on the rod.   The storage device according to claim 2, wherein the holding unit includes at least one operating device and a plurality of holding elements, and the operating device drives the holding element to hold the spacer.   The spacer moving module further includes a control unit, the control unit is connected to the moving unit and the holding unit, and the control unit controls operations of the moving unit and the holding unit. The storage device according to any one of the above.   Each spacer includes a plurality of wedge units, wherein the wedge unit is installed on an edge of the spacer, and the spacer is installed on the holding device in a manner that can be disassembled by the wedge unit. Item 6. The storage device according to any one of Items 1 to 5.   Each wedge unit includes a lever element and an elastic element, the lever element includes a wedge part and a holding part, the lever element rotates between a first direction and the second direction, and the lever element When in the first direction, the spacer moving module presses the holding element to separate the wedge portion and the retaining device, and when the lever element is in the second direction, the elastic element presses the holding element. The housing device according to claim 6, wherein the wedge portion and the retaining device are coupled to each other.   The holding device according to claim 7, wherein each holding device includes a plurality of fixed notches, and the wedge portion enters the fixed notch and is coupled to the holding device.   9. The accommodation device according to claim 1, wherein each spacer includes a stretch plate, and the stretch plate can be installed on the spacer in a slidable manner.   The accommodation device according to claim 9, wherein the spacer moving module is in contact with the stretching plate and pushes the stretching plate out of the chamber.

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