Barcode scanner with tool free tower housing assembly

Abstract

A barcode scanner with a tool free tower housing assembly. The barcode scanner includes a base, a tower section coupled to the base, and a tower housing assembly over the tower section including a tower housing and a bezel that are installable and removable without hand tools.

Description

BACKGROUND

Dual-aperture scanners have a tower that extends above a checkstand. The tower includes elements that may periodically require servicing, such as buttons, speakers, and light emitting diodes. Additionally, this space may be used to contain other serviceable components, such as an electronic article surveillance antenna, a radio frequency identification antenna, and other electronics.

Tower housings must be sturdy enough to allow gripping during carrying, installation, and removal of scanners from checkstands. Typical tower housings are fastened with screws for structural support. However, fasteners make servicing of components with the tower housing more difficult.

It would be desirable to provide a tower housing assembly which does not require tools to install or remove so that technicians may more easily service components within the tower housing assembly.

SUMMARY

A barcode scanner with a tool free tower housing assembly is provided.

The barcode scanner includes a base, a tower section coupled to the base, and a tower housing assembly over the tower section including a tower housing and a bezel that are installable and removable without hand tools.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of an optical scanner with the tower housing assembly removed;

FIG. 2 is a cross-sectional view of the optical scanner of FIG. 1;

FIGS. 3 a and 3b are perspective views illustrating installation of a tower housing;

FIG. 4 is a perspective views illustrating installation of a bezel;

FIG. 5 is a cross-sectional view illustrating installation of the tower housing and a tower bezel;

FIG. 6 is a first detailed view illustrating attachment of the tower housing;

FIG. 7 is a second detailed view illustrating attachment of the tower housing and the bezel; and

FIG. 8 is a third detailed view illustrating attachment of the bezel.

DETAILED DESCRIPTION

With reference to FIGS. 1 and 2, optical scanner 10 includes base 12, which provides a foundation for other components of optical scanner 10. Base 12 may be made of metal. Front lip 28 serves to support scanner 10 in a checkout counter.

Optical scanner 10 includes a horizontal section 20, which includes mirror housing 22, scales 24, and debris guard 25.

Mirror housing 22 contains a first set of pattern mirrors for generating a first set of scan lines. Mirror housing 22 further includes window 26 through which the first set of scan lines pass for scanning an item from a first plurality of directions.

Scales 24 serve to weigh produce items. In a fully assembled state, optical scanner 10 further includes a frame that ties scales 24 together and provides support pins for a weigh plate with an aperture similar to window 26.

Debris guard 25 catches debris that falls from products.

Optical scanner 10 further includes a vertical or tower section 30, which includes mirror housing 32 and electronics 34.

Mirror housing 32 contains a second set of pattern mirrors for generating a second set of scan lines. Mirror housing 32 further includes window 36 through which the second set of scan lines pass for scanning the item from a second plurality of directions.

In order to support installation of tower housing 60 (FIG. 3), mirror housing 32 includes attachment points 40, 42, and 44. Attachment points 40 are located on top of mirror housing 32, behind window 36, and include attachment posts 38 with apertures 50. Attachment point 42 is located along the bottom rear edge of mirror housing 32 and includes a channel 52 formed in base 12. Attachment points 44 are located on front left and right sides of mirror housing 32 and include apertures 54 in the front wall 55 of tower section 30.

Mirror housing 32 further includes limit points 46 which provide a limit of forward movement of tower housing 60 during installation and support housing 60 after installation. Limit points 46 are illustrated as raised wall or post features on top of mirror housing 32.

Electronics 34 includes control circuitry for controlling operation of one or more lasers and motors and for decoding barcode information, scale electronics, and operator instrumentation and controls. Electronics 34 may also include peripherals combined into optical scanner 10, such as electronic article surveillance systems and radio frequency identification systems.

With reference to FIGS. 3a-b, installation of tower housing 60 is illustrated.

Tower housing 60 generally conforms to the shape of mirror housing 32 and includes handle grips 62 on its rear surface for carrying, installing, and removing scanner 10 from a checkout counter.

Tower housing 60 includes flanges 64 which engage attachment points 40 through apertures 50 during installation. Flanges 64 include detents 65 which retain flanges 64 within apertures 50. Tower housing 60 further includes lip 66 (FIG. 5) which engages attachment point 42 by seating in channel 52 during installation.

To begin the installation, tower housing 60 is aligned on base 12 behind mirror housing 32. Tower housing 60 is then slid horizontally towards mirror housing 32 until flanges 64 engage attachment posts 38 and lip 66 seats in channel 52. Flanges 64 are depressed slightly away from a normal bias position in order to allow detents 65 to pass through apertures 50. Limit points 46 engage tower housing 60 to provide opposing snap force on flanges 64.

Together, attachment points 40 and 42 retain tower housing 60 in place, even during lifting of scanner 10, without requiring separate fasteners, such as screws.

Removal of tower housing 60 begins with depressing of flanges 64 to unseat detents 65 from attachment posts 38. Tower housing 60 is then slid horizontally rearward until lip 66 is clear of channel 52.

With reference to FIG. 4-8, attachment points 40, 42, and 44 are shown in more detail, as well as installation of bezel 70.

Bezel 70 includes aperture 71 which is about the size of window 36. Bezel 70 further includes upper flanges 72 and lower flanges 74. (FIG. 5) Upper flange 72 seats within a recess 76 formed between attachment post 38 and tower housing 60. Limit points 46 help maintain recess 76.

Lower flanges 74 seat within apertures 54 of attachment points 44. Lower flanges 74 include detents 75 which retain flanges 74 within apertures 54.

Installation of bezel 72 includes first positioning bezel 70 in front of window 36 and then lowering bezel 70 to engage flanges 72 within recesses 76. After flanges 72 are located within recesses 76, pressure is applied to the lower left and right sides of bezel 70 to seat flanges 74 within apertures 54. Flanges 74 bend slightly away from a normal bias position in order to allow detents 75 to pass through apertures 54.

Removal proceeds in opposite fashion by first pulling bezel 70 away from tower housing 60 to using pull features 73 to release flanges 74 from attachment points 44, and then raising bezel 70 to remove flanges 72 from recesses 76.

Although particular reference has been made to certain embodiments, variations and modifications are also envisioned within the spirit and scope of the following claims.

Claims

1. A dual-aperture barcode scanner comprising: a base section containing a substantially horizontal aperture for scanning an item from a first set of directions;a tower section coupled to the base section containing a substantially vertical aperture for scanning an item from a second set of directions, and including a top attachment post above the substantially vertical window containing a top attachment post aperture; anda tower housing assembly over the tower section including a tower housing and a bezel that are installable and removable without hand tools, wherein the tower housing includes a flange which engages the top attachment post through the top attachment post aperture.

2. The scanner of claim 1, wherein the tower section is offset from the top attachment post by a recess, and wherein the bezel includes an upper flange which seats within the recess.

3. The scanner of claim 2, wherein the tower section includes limit points which establish the offset.

4. The scanner of claim 1, wherein the tower section includes a front attachment wall containing a front attachment wall aperture, and wherein the bezel includes a lower flange which engages the attachment wall through the front attachment wall aperture.

5. A dual-aperture barcode scanner comprising: a base section containing a substantially horizontal aperture for scanning an item from a first set of directions, and including a channel;a tower section coupled to the base section containing a substantially vertical aperture for scanning an item from a second set of directions; anda tower housing assembly over the tower section including a tower housing and a bezel that are installable and removable without hand tools, wherein the tower housing includes a lip which engages the channel.

6. The scanner of claim 5, wherein the lip flange and the channel secure the tower housing for lifting of the scanner from the tower housing.

7. A dual-aperture barcode scanner comprising: a base section containing a substantially horizontal aperture for scanning an item from a first set of directions, and including a channel;a tower section coupled to the base section containing a substantially vertical aperture for scanning an item from a second set of directions, and including a top attachment post above the substantially vertical window containing a top attachment post aperture, and a front attachment wall containing a front attachment wall aperture; anda tower housing assembly over the tower section including a tower housing and a bezel that are installable and removable without hand tools;wherein the tower housing includes a lip which slidably engages the channel to secure the tower housing for lifting and a flange which engages the top attachment post through the top attachment post aperture, and wherein the tower section is offset from the top attachment post by a recess; andwherein the bezel includes a lower flange which rotatably engages the front attachment wall through the front attachment wall aperture, and an upper flange which seats within the recess.