Technical Field

This invention relates to an apparatus including a mechanism housing and a protective cover therefor, and more particularly relates to a movable cover for a mechanism which can be opened to permit access to said mechanism and closed to substantially seal said mechanism against the introduction of pollutants.

Background Art

Difficulty has been encountered in operating electronic equipment in an environment containing airborne pollutants. More specifically, certain equipment such as a magnetic storage disk read/record unit, may encounter reliability and life problems in certain environments such as a manufacturing plant, for example, because of the necessity for providing an opening in the equipment housing for loading and removal or replacement of magnetic storage disks which may contain data base information, programs, etc. The problem is aggravated in some instances by the need to use equipment cooling fans to dissipate excessive heat generated by operation of the equipment. The air drawn into the equipment through the opening for the disk by the fan may contain pollutants which will cause damage to components such as the read/write head and the storage media.

Disclosure of the Invention

It is an object of the invention to provide a protective cover for a mechanism housing in which the above disadvantages are alleviated.

Thus, according to the invention, there is provided an apparatus including a mechanism housing; a

cover element movable between an open position and a closed position in which said cover element covers one portion of said housing; hinge means for hinging one edge of said cover element to said housing; and latch means for retaining said cover element in closed position, characterized by operating means mounted on said one portion of said housing and operable to operate a mechanism within said housing; and actuating means mounted on said cover element and engageable with said operating means when said cover element is in closed position; said latch means being coupled to said operating means, whereby when said cover element is closed, movement of said actuating means causes said operating means to operate said mechanism within said housing and also causes said latch means to retain said cover element in closed position.

Brief Description of the Drawings

One embodiment of the invention will now be described, by way of example, with reference to the accompanying drawings in which:

Fig. 1 is a perspective view of a typical prior-art magnetic disk read-record unit.

Fig. 2 is a partial perspective view showing a protective cover operatively associated with a magnetic disk read-record unit.

Fig. 3 is an end view of the protective cover in a closed position.

Fig. 4 is an end view of the protective cover in an open position.

Fig. 5A, taken along line 5-5 of Fig. 2, is a fragmentary sectional view of the electronic apparatus associated with the protective cover with operating mechanism thereof in a first position.

Fig. 5B is a view similar to Fig. 4A, showing operating mechanism of the electronic apparatus in a second position.

Fig. 6 is a fragmentary sectional view showing the protective cover in a closed position and the actuator thereon engaged with a mating element of the electronic apparatus.

Fig. 7 is a fragmentary sectional view taken on line 7-7 of Fig. 6.

Fig. 8 is a fragmentary sectional view taken on line 8-8 of Fig. 2.

Best Mode For Carrying Out The Invention

Referring now to Fig. 1 of the drawings, shown there is a partial view of prior art apparatus 10, which may be, for example, a magnetic disk read- record unit. Such unit includes an external housing 12, together with internal mechanism and electronic circuitry. One end 14 of the housing includes a wide slot 16 through which a magnetic disk (not shown) may be introduced into the unit and retrieved therefrom. An indicator 18 is illuminated when power is applied to the unit 10. Cutaway portions 20 and 22 of the end 14 are provided to facilitate grasping of the disk. A handle 24 is provided to initiate operation of the unit 10. The unit 10 shown in Fig. 1 is compact and easy to use, but suffers from the disadvantage that airborne impurities can readily find their way to the interior of the unit through the slot 16 and can thereby adversely affect the life and reliability of components within th ^' e unit.

Shown in Fig. 2 is a partial perspective view of an apparatus such as a magnetic disk read-record unit 30 which embodies the present invention. This unit includes an external housing 32, together with internal mechanism and electronic circuitry. The end 14 of the housing of the prior art unit 10 is replaced with a multi-element protective cover shown generally as 34 which includes an end plate 36 attached to the unit 30 and a lid or cover 38 attached to the end

plate 36 by hinges 40. Springs 47 urge the cover 38 to an open position. An indicator 37 in the plate 36 is illuminated when power is applied to the unit 30. The end plate 36 contains a wide slot 42 similar to the slot 16 of Fig. 1 through which a magnetic disk 28 (Fig. 4) may be introduced into the unit 30 and withdrawn therefrom. Cutaway portions 39 and 41 are provided to facilitate grasping of the disk 28. As best shown in Figs. 5A, 5B and 8, the internal mechanism includes cooperating turntable elements 44 and 46 for receiving and rotating the disk 28, and read-record heads 48 for reading and recording information from and on the disk 28. The heads 48 are mounted on a carriage 43 for radial movement with respect to the disk 28 to enable said heads to interact with all areas of the disk. The upper head 48 is mounted on an arm 50, and is urged by a spring 52 into operative position with respect to the disk 28. The upper turntable element 46 is mounted on an arm 54, which may be raised to permit insertion and removal of the magnetic disk 28 within the unit 30. When the arm 54 is raised, an extension 53 thereon engages a bar 55 on an arm 57 which is pivotally mounted on the frame 64 and urged downwardly by a spring 59. The bar 55 engages a projection on the arm 50, to hold the upper read-write head 48 out of operative relation with the recording surface of said disk 28.

Movement of the arm 54 is manually controlled from outside of the unit 30 by a human operator through movement of a han. ^"" .e 58, as will subsequently be described in greater detail. A lever 60 (Figs. 5A and 5B) which is pivotally mounted adjacent one end thereof at 62 on the frame 64 of the unit 30 has fixed to the other end thereof a stud 66, which is retained between two extensions 68 and 70 on one side of the arm 54. A "peanut" shaped opening 72 is contained in

the central portion of the lever 60, and receives a rod 74, which is in turn secured to one end of an arm 76, the other end of which is fixed to one end of a shaft 78 journalled in the frame 64 of the unit 30. The other end of the shaft 78 extends through the end plate 36. An over-center spring 80 is positioned to maintain the rod 74 adjacent one or the other of the two ends of the "peanut" shaped opening 72, thus holding the upper turntable element 46 in the selected one of its two extreme upper or lower positions.

The end of the shaft 78 which extends through the plate 36 has secured thereto a splined male element 90, of generally conical configuration, to which is fixed an elongated latch 92. A complementary female element 94 is rotatably mounted in the cover 38 in a location to engage the male element 90 when the cover 38 is in closed position. Slots 96 in the element 94 receive splines 98 on the element 90 to cause the element 90 to be rotated by the element 94. As best shown in Fig. 7, a spring 100 is anchored in the element 94 and has an end engaging an inner surface of the cover 38 to cause the element 94 to be rotationally positioned so that the slots 96 are in alignment with the splines 98 during closing movement of the cover 38.

The handle 58 is formed integrally with the external portion of the element 94 and may be grasped by a human operator for rotation of the elements 90, 94 and the shaft 78.

A hook member 104 is positioned on the inside surface of th- cover 38, so that rotation of the coupled male and female elements 90, 94 causes the latch 92 to engage the hook member 104 to retain the cover 38 in closed position.

Complementary sealing surfaces 106 and 108 on the plate 36 and cover 38, respectively, coact to substantially seal said plate and cover together when

the cover is closed and latched, thereby halting or severely limiting the flow of air from the slot 42 through the unit 30, and thus minimizing damage to the unit through air-borne pollutants. The complementary surfaces 106 and 108 may be molded integrally with the plate 36 and cover 38, which may, for example, be of a suitable plastic material.

In operation, it will be seen that with the cover 38 open, a disk 28 may be inserted into, or removed from, the unit 30 through the slot 42. At this time, the turntable elements 44 and 46 are separated to permit introduction of the disk 28, and the read-record head 48 is held out of engagement with disk 28 by engagement of the projection with the arm 54. When the disk 28 is in position on the turntable comprising the elements 44 and 46, the cover 38 is closed/ bringing the element 94 into engagement with the element 90. Operation of the handle 58 causes the element 94 to rotate the element 90 and the shaft 78, causing the latch 92 to engage the hook member 104 to retain the cover 38 in closed position, and also causing the shaft 78 to act through the arm 76, the rod 74, the lever 60, the stud 66 and the arm 54 to cause the upper turntable element 46 to engage the disk 28. Lowering of the arm 54 also permits the upper read-record head 48 to move into operative position with respect to the disk 28.

A reading or recording operation of the disk 28 can then take place. When the operation is completed, the handle 58 is rotated in the opposite direction to release the latch 92 from the ho6k member 104 and thus to permit the cover 38 to be opened. At the same time, the turntable elements 44, 46 are caused to be separated, and the upper read-record head 48 is caused to be moved out of operative relation to the disk 28. The disk 28 can then be removed from the unit 30 through the slot 42. If desired, the cover

may then be closed and latched until the unit 30 is used again.

It may be noted that to the extent that air flow is required through the unit 30 for cooling, this air may be brought in from outside by a fan or other means through a suitable opening (not shown) in the housing 32. Such an opening can be readily provided with a suitable filter to eliminate or substantially reduce polluting or contaminating air-borne elements.