CN2607611Y - Casing structure - Google Patents

Abstract

The utility model relates to a case structure (B) used for a computer. Two floppy drivers (E1/E2) or a hard-disc driver (E1) or a CD driver (E3) are stored at a same position. The case structure (B) is composed of a body (1) and an adjusting component (2), wherein the adjusting component (2) is switchable between a first mode (1-1) and a second mode (11-11). When the adjusting component (2) is positioned at the first mode (1-1), two floppy drivers (E1/E2) can be disposed between the body (1) and the adjusting component (2). When the adjusting component (2) is positioned at the second mode (11-11), the CD driver (E3) can be disposed between the body (1) and the adjusting component (2).

Description

Shell structure

Technical field

The utility model relates to a kind of shell structure, particularly relates to one the shell structure of adjusting under the switching of assembly, can be on same position accommodating at two kinds of devices with different size.

Background technology

With regard to shell structure, its mode of adopting fixed space is mostly accommodated for equipment such as floppy drive, CD-ROM drive, hard disk drivers, particularly at present miniaturization main machine structure (only can dispose single floppy drive, single CD-ROM drive) all the more so with regard to general computing machine.If in the time of will additionally installing the equipment of other or identical (as two CD-ROM drives and deposit) additional, just externally become unique selection mode.Comparatively speaking, the shell structure in this fixed space is not have modular designing requirement.

Novel content

The purpose of this utility model is to provide a kind of shell structure of computing machine purposes, can change for two kinds of electronic installations with different size on same collecting position by a conversion of adjusting assembly.

Another purpose of the present utility model is to provide a kind of shell structure of exempting from screw and can locking for storage facilitiess such as floppy drive, CD-ROM drives, and the user can adjust the evolution of assembly and can position for floppy drive, CD-ROM drive easily via this.

The purpose of this utility model is achieved in that promptly provides a kind of shell structure, and in order to accommodate at least one first device, at least one second device, this shell structure comprises: a body; And one adjust assembly, can between one first state and one second state, be arranged within this body with switching, when this adjustment assembly this first device during at this first state is arranged between this body and this adjustment assembly, when this adjustment assembly this second device during in this second state is arranged between this body and this adjustment assembly.

The utility model also comprises a kind of shell structure, and in order to accommodate at least one first device, at least one second device, this shell structure comprises: a body has at least one first junction surface; And one adjust assembly, can between one first state and one second state, switching mode being arranged on this body, when this adjustment assembly this first device during at this first state is arranged between this first junction surface and this adjustment assembly, when this adjustment assembly this second device during in this second state is arranged between this first junction surface and this adjustment assembly.

In sum, the utility model provides a kind of shell structure that a body and is adjusted assembly that includes, under the switching by an adjustment assembly, this body can be accommodated at two kinds of one first device, one second devices with different size on same position.This adjustment assembly is can switching mode being arranged on this body between one first state and one second state, and when this adjustment assembly was positioned at this first state, this first device can be arranged between this first junction surface and this adjustment assembly; When this adjusted assembly in this second state, this second device can be arranged between this first junction surface and this adjustment assembly.

Description of drawings

Figure 1A is the external structure stereographic map of the shell structure B that preferred embodiment of the present utility model proposed;

Figure 1B is the external structure stereographic map of shell structure B under another assembled state among Figure 1A;

Fig. 1 C is the external structure stereographic map of this shell structure B under another assembled state among Figure 1A;

Fig. 2 A is the inner structure stereographic map of the shell structure B after the enclosing cover C among Figure 1A removes;

Fig. 2 B is the inner structure stereographic map of the shell structure B after the enclosing cover C among Figure 1B removes;

Fig. 2 C is the inner structure stereographic map of the shell structure B after the enclosing cover C among Fig. 1 C removes;

Fig. 3 A is the stereographic map of the adjustment assembly 2 among Fig. 2 A;

Fig. 3 B is the stereographic map of adjustment assembly 2 under another viewing angle among Fig. 3 A;

Fig. 4 A and Fig. 4 B are the stereographic map of adjustment assembly 2 after this body 1 separates among Fig. 2;

Fig. 5 A moves the stereographic map of separation for the device of first among Fig. 2 A (E1/E1);

Stereographic map after Fig. 5 B removes for second among Fig. 2 B installs (E2).

Embodiment

See also Figure 1A, Figure 1B, Fig. 1 C.

Figure 1A is the external structure stereographic map of this new hull structure B, and Figure 1B represents the external structure stereographic map of this shell structure B under another assembled state among Figure 1A, and Fig. 1 C represents the external structure stereographic map of this shell structure B under another assembled state among Figure 1A.

This shell structure B in the present embodiment is mainly used on main frame, server or other the similar product.

Shown in Figure 1A, this shell structure B with enclosing cover C coating (for example: floppy drive) mainly is equipped with two first device E1/E1; And the main difference between Figure 1B and Figure 1A is that this first device E1/E1 (for example: CD-ROM drive) is replaced into one second device E2; Fig. 1 C represents the first device E1/E1 of two among Figure 1A (for example: hard disk driver) is replaced into one the 3rd device E3.

See also Fig. 2 A, Fig. 2 B, Fig. 2 C.

Fig. 2 A, Fig. 2 B, Fig. 2 C represent the structural drawing of this shell structure B inside after the enclosing cover C among Figure 1A, Figure 1B, Fig. 1 C is removed respectively.Can be found out that by Fig. 2 A, Fig. 2 B, Fig. 2 C this shell structure B mainly includes a body 1 and and adjusts assembly 2, this adjustment assembly 2 is arranged on this body 1 in separable mode.

By Fig. 2 A as can be known, this body 1 is in order to as a pedestal, carry, locate for computer-related devices (for example: motherboard, power supply unit, storage facilities and adapter etc.) by this body 1, and on this body 1, have one first junction surface 11 and a plurality of second junction surface 12 (seeing also Fig. 4), this first junction surface 11 is arranged at a side of this body 1 in upright mode, and this second junction surface 12 is arranged at the bottom side of this body 1.

This adjustment assembly 2 is with can (mode of switching between the II-II (Fig. 2 B) so just can be on same position positions for two first device E1 (Fig. 2 A) or one second device E2 (Fig. 2 B) or one the 3rd device E3 (Fig. 2 C) in first state I-I (Fig. 2 A) and one second state.This first device E1 is different from this second device E2 ' dimensionally, and in the present embodiment this first device E1 is representative with 3.5 inches floppy drive, and this second device E2 is representative with 5.25 inches CD-ROM drive, and the 3rd device E3 is representative with 3.5 inches hard disk driver.

By Fig. 3 A, Fig. 3 B as can be known, the U type section member that constituted by a mainboard 21, wing plates on two sides 22,23 in fact of this adjustment assembly 2 with an opening 200.In the present embodiment.This mainboard 21 is arranged between two wing plates 22,23 in one-body molded mode, and this opening 200 is between the free end of two wing plates 22,23.On this mainboard 21, be formed with a plurality of elastic components 210, a plurality of first guide block 211 and a plurality of second guide block 212, wherein, protrude from this mainboard 21 in the opposite direction between a plurality of first guide blocks 211 and a plurality of second guide block 212, and on each wing plate 22,23, be formed with a plurality of pilot holes 220,230 in the equal intervals mode respectively.

See also Fig. 4 A and Fig. 4 B, Fig. 4 A and Fig. 4 B represent to adjust the stereographic map of assembly 2 after this body 1 removes.A plurality of second junction surfaces 12 are a coupler construction, arrange with linearity at each second junction surface 12 and the space mode is arranged at the bottom side of this body 1, and the position at each second junction surface 12 is respectively with respect to the position of a plurality of pilot holes 230 of a plurality of pilot holes 220 of this wing plate 22 and this wing plate 23.

See also Fig. 5 A, Fig. 5 B.

Fig. 5 A is for the stereographic map of two first among Fig. 2 A device E1/E1 after this body 1 removes, and Fig. 5 B represents with this second device E2 ' among Fig. 2 B the stereographic map after this body 1 removes certainly.

Shown in Fig. 5 A, when this adjustment assembly 2 is sticked in each second junction surface 12 respectively by a plurality of pilot holes 220 on its wing plate 22, this adjustment assembly 2 just firmly is positioned on this body 1 in the mode of this first state I-I, promptly, a plurality of first guide blocks 211 on this mainboard 21 of this adjustment assembly 2 regard to this first junction surface 11, or should adjust the opening 200 of assembly 2 back on this first junction surface 11.

Thus, when for two first device E1/E1 with in regular turn, when independence or the method for synchronization are provided with, each first device E1 can enter its suitable interval via the guiding of a plurality of first guide blocks 211, and firmly is being arranged between this first junction surface 11 and this adjustment assembly 2 under the compressing of a plurality of elastic components 210 and under the snap action of a plurality of positioning components 3.

Shown in Fig. 5 B, when this adjustment assembly 2 is sticked in each second junction surface 12 respectively by a plurality of pilot holes 230 on its wing plate 23, this adjustment assembly 2 just firmly is positioned on this body 1 in the mode of this second state I I-II, promptly, a plurality of second guide blocks 212 on this mainboard 21 of this adjustment assembly 2 regard to this first junction surface 11, or should adjust the opening 200 of assembly 2 toward this first junction surface 11.

Thus, when carrying out this second device being provided with of E2, this second device E2 can be under the guide function of a plurality of second guide blocks 212 and enter between this two wing plate 22,23, and firmly is being arranged between this first junction surface 11 and this adjustment assembly 2 under the compressing of a plurality of elastic components 210 and under the snap action of a plurality of positioning components 3.

Claims (18)

1. a shell structure in order to accommodate at least one first device, at least one second device, is characterized in that this shell structure comprises: a body; And one adjust assembly, can between one first state and one second state, be arranged within this body with switching, when this adjustment assembly this first device during at this first state is arranged between this body and this adjustment assembly, when this adjustment assembly this second device during in this second state is arranged between this body and this adjustment assembly.

2. shell structure as claimed in claim 1 is characterized in that, this adjustment assembly is a U type section member.

3. shell structure as claimed in claim 1 is characterized in that, this body also includes at least one first junction surface, when this adjustment assembly this first device during at this first state is arranged between this first junction surface and this adjustment assembly.

4. shell structure as claimed in claim 1 is characterized in that, this body also includes at least one first junction surface, when this adjustment assembly this second device during in this second state is arranged between this first junction surface and this adjustment assembly.

5. shell structure as claimed in claim 1 is characterized in that, this body also includes at least one second junction surface, and this adjustment assembly is arranged on this second junction surface in separable mode.

6. shell structure as claimed in claim 1 is characterized in that, this first the device dimensionally less than or greater than this second the device

7. shell structure as claimed in claim 1 is characterized in that, this first device is a floppy drive.

8. shell structure as claimed in claim 1 is characterized in that, this second device is a CD-ROM drive.

9. shell structure as claimed in claim 1 is characterized in that, also is provided with one the 3rd device, when three device of this adjustment assembly during at this first state is arranged between this body and this adjustment assembly.

10. shell structure as claimed in claim 9 is characterized in that, this three device is a hard disk driver.

11. a shell structure, in order to accommodate at least one first device, at least one second device, it is characterized in that this shell structure comprises: a body has at least one first junction surface; And one adjust assembly, can between one first state and one second state, switching mode being arranged on this body, when this adjustment assembly this first device during at this first state is arranged between this first junction surface and this adjustment assembly, when this adjustment assembly this second device during in this second state is arranged between this first junction surface and this adjustment assembly.

12. shell structure as claimed in claim 11 is characterized in that, this adjustment assembly is a U type section member.

13. shell structure as claimed in claim 11 is characterized in that, this body also includes at least one second junction surface, and this adjustment assembly is arranged on this second junction surface in separable mode.

14. shell structure as claimed in claim 11 is characterized in that, this first be installed on the size less than or this second device of size

15. shell structure as claimed in claim 11 is characterized in that, this first device is a floppy drive.

16. shell structure as claimed in claim 11 is characterized in that, this second device is a CD-ROM drive.

17. shell structure as claimed in claim 11 is characterized in that, also is provided with one the 3rd device, when three device of this adjustment assembly during at this first state is arranged between this body and this adjustment assembly.

18. shell structure as claimed in claim 17 is characterized in that, this three device is a hard disk driver.

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