JP3875297B2 - Handheld data collection terminal - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates generally to portable electronic devices, and more particularly to a handheld data collection terminal device having a barcode reader.
[0002]
[Prior art]
This application is related to US patent application Ser. No. 08 / 366,383, filed Dec. 29, 1994, and US Patent Application No. 08 / 079,761, filed Jun. 21, 1993.
Various configurations of handheld electronic devices are known, including handheld data collection terminal devices including bar code readers or scanners. Such a device maintains an inventory of currently available items, their location, price, etc., and is unique in that it is very easy and reliable to order an item before it is sold out. Such terminal devices are becoming more commonly used in retail stores and the like.
Scanners with various configurations are already known. Examples of such devices include U.S. Pat.No. 4,760,248 to Swartz et al. And the patents cited therein, i.e., U.S. Pat. To the extent necessary to provide details of the circuits, components, and apparatus incorporated in the scanner that can be found in US Pat. No. 4,460,120 and that are mentioned here but not described in detail, their disclosures are incorporated herein by reference.
[0003]
The presence of such a handheld terminal device has succeeded in saving power consumption not only in electronic or information processing circuits but also in the areas of lasers, display arrangements and other mechanical and electronic parts of electronic devices, and This is evidence that miniaturization and accompanying weight reduction have progressed in the area of power supply. Despite this progress, conventional terminal devices are still quite large. Later, it was recognized that the size of the terminal device was determined mainly by the display or input arrangement provided in the housing of the terminal device. There are technologies such as digital clocks, calculators, etc. that make this arrangement smaller, and it is not possible to make it small, but there is no minimum size with displayed characters and push parts such as buttons etc. Because it is difficult for the user to read the display for many hours and make the required input, it is impractical to make it smaller.
In view of this, U.S. Pat.No. 5,241,488 issued to Cadima et al. Proposed to provide a terminal device housing having a reduced cross-sectional area in the central region, the purpose of which means the terminal device being used by the user during use. Insist that it is easy and convenient to hold. However, experience has shown that this type of device is still very cumbersome. This is especially the case when aiming at the appropriate direction with the scanner, pushing the trigger button, reading the display, or handling the button, and writing the pressure-sensitive area with the above arrangement by hand, etc. However, because of the position and arrangement of the narrowed cross-sectional area, when using the terminal device, the user's hand holding the terminal device must take an unnatural and troublesome position. .
[0004]
[Problems to be solved by the invention]
Therefore, the general purpose of the present invention is to avoid the disadvantages of the prior art.
More particularly, the object of the present invention is to provide a handheld electronic device, in particular a data collection terminal device, which does not have the disadvantages of this type of conventional device.
Yet another object of the present invention is to develop an electronic device of the type described herein which is suitable for holding in any natural position in the user's hand when performing any operation with such a device. That is.
Yet another object of the present invention is to design the above-described device so as to eliminate or reduce the risk of slipping from the user's hand when the grip is weakened.
The accompanying object of the present invention is that the handheld device of the above-mentioned type, in particular a terminal device having a barcode scanner, is relatively simple in construction, inexpensive to manufacture, easy to use and reliable in operation. Is to configure.
[0005]
[Means for Solving the Problems]
To achieve the above and other objects which will become apparent later, in one aspect of the present invention, in use, a housing having a rear surface facing away from the front surface facing the user, information processing means in the housing, housing Hand-held electronic device comprising means for exchanging information with information processing means, arranged to be accessible on the front side of the computer, and means for forming a handgrip on the rear surface adapted to be received in the palm of the user It is in.
It is particularly advantageous if the handgrip construction means provides a substantially barrel-shaped construction in the central region of the rear face of the handgrip for stability. The handgrip component advantageously includes a diverging surface that extends in a direction toward the bottom of the housing closer to the user than the top of the housing when using the device. Conveniently, the hand-held electronic device further comprises sensing means that are at least partially housed in the housing and can be activated to collect information for use by the information processing means. Furthermore, in an advantageous aspect of the invention, means for operating the sensing means are provided. Such actuating means includes at least one trigger button located on the spreading surface of the handgrip forming means and makes an acute angle of a predetermined size with at least one central surface of the electronic device.
[0006]
These means have at least two advantages. For one, since the surface is widened, the risk of the device slipping from the user's hand is reduced when the user slightly loosens the handgrip on the handgrip. On the other hand, because the trigger button is on such a spread surface, it can be easily accessed and pressed with the user's index finger, and in the area where the actual index finger naturally presses, the trigger button is pushed in and the user's hand grip Retention is improved.
The predetermined size of the acute angle is approximately 45 ° when one central surface is a surface separating the front surface from the rear surface of the housing, and one central surface extends substantially perpendicular to the front surface and the rear surface from the top to the bottom of the housing. It has been found to be particularly advantageous to have approximately 30 ° when it is the symmetry plane of the housing. Conveniently, the spreading surface includes opposing side regions arranged in mirror symmetry with respect to the plane of symmetry of the housing, and the aforementioned trigger button is arranged in one of the side regions. Additional trigger buttons that are the same as one trigger button may be provided in the other side area substantially mirror-symmetric with respect to one trigger button.
According to another advantageous aspect of the invention, the handheld electronic device further extends along and spaced from the handgrip so that when the user holds the handheld electronic device between the handgrip and the handgrip It is equipped with a strap that can be operated by putting your hands. The strap has one end connected to a fixed position at the bottom of the housing and the other end attached to the rear surface of the housing at a distance beyond the expected width of the user's hand from the bottom. And the strap moves between the two ends so that it extends behind the hand at a distance with respect to the joint, no matter which hand the user uses to hold the electronic device with the handgrip This is particularly advantageous. The strap extends from one end of the strap to the other end at each end, along a course that extends from the symmetry plane at a predetermined acute angle.
[0007]
Further in the present invention, the handheld electronic device is further configured to move between a plurality of positions relative to it on the top of the housing that is further from the user than the bottom of the housing when using the device. Including the casing. The dome-shaped configuration of the casing provides particularly shock resistance to the electronic device. Its outer shape matches smoothly with the outer shape of the housing, and there are no corners or other weak parts that are easily damaged by inadvertent contact with the external structure or the casing easily separates from the housing.
The hand-held electronic device includes an optical scanning means including a laser diode that generates a light beam, an optical row that is at least partially housed in a casing and that adjusts the light beam, and a photodiode that detects light reflected by a bar code symbol in the field of view. It is particularly advantageous to incorporate a scanning component that scans the light beam or field of view. In that case, the dome-shaped casing includes a window through which the light beam and the reflected light pass. Next, when the electronic device is equipped with a telecommunications means including an antenna that communicates radio frequencies at a remote location, the antenna is attached to the casing behind the window so that it moves together with the casing, and at any time the field of view of the scanning means It is outside and does not interfere with its operation.
[0008]
Another aspect of the present invention is to provide means for enhancing the friction between at least selected portions of the user's hand and corresponding portions of the handgrip. Such augmenting means advantageously include a recess in the affected part of the handgrip. The augmenting means are advantageously located in at least one region of the two sides of the handgrip where the tip of the user's thumb is placed when using the device.
An additional aspect of the present invention is embodied in an arrangement in which a plate-type element having a front surface and a rear surface is attached to a support structure opening bounded by an inner peripheral surface. The arrangement includes means for supporting the open plate-type element, the support means having a substantially rigid inner frame that securely engages the inner peripheral surface and spaced apart to surround the plate-type element. Including. The arrangement also includes an overmold of elastically deformable material that includes a surrounding portion that extends around the inner frame, penetrates and closes the gap, and forms a shock absorbing barrier.
The support means further includes a substantially rigid backing plate adjacent to the inner frame, aligned with the rear surface of the plate-type element, and engaging an inner peripheral surface that supports it.
A substantially rigid outer frame surrounds the inner frame at a predetermined distance therefrom. The overmold further includes an extension portion that is integral with the surrounding portion and extends around the outer frame therefrom.
[0009]
Another novel aspect of the present invention is embodied in a multi-connector assembly that seals the device from moisture and dirt ingress. The assembly includes a computer connector for exchanging information between an external host computer and the device, a keyboard connector for exchanging information between the external keyboard and the device, and a power connector for supplying DC power to the device. Each connector has a shield integral with the plate for better sealing. An elastic gasket is molded into the plate to ensure a moisture and dirt resistant seal.
The novel features that are characteristic of the invention are set forth in the appended claims. However, the invention itself, as well as its structure and method of operation, together with its additional objects and advantages, may best be understood by reading the following description of specific embodiments with reference to the drawings.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Referring first to FIG. 1, the entire handheld electronic device of the present invention is indicated by reference numeral 10. As shown, the device 10 includes a housing 11 as one of the major components. The housing 11 houses an electronic circuit having a known configuration, but the electronic circuit itself does not form a part of the present invention, and therefore will not be described in detail here. To the extent relevant to the various configurations and other aspects of the invention described herein, reference will be made only to the functions performed by the various parts, but reference will be made to how they are configured to perform such functions. do not do.
The housing 11 has a main portion 12 of a generally parallelepiped configuration shown to include a data input display device 14 on the front face 13. In this regard, the indications used here with respect to direction or relative position are all related to the direction in which the electronic device 10 is normally used, ie “bottom” is close to the user or the ground and “front” faces the user.
As shown in FIG. 1, the information exchanging means or device 14 is configured as a composite data input display device, in which at least one area is a display arrangement 15 such as a liquid crystal, at least another area is a push switch type arrangement 16, and at least another Is shown to include a recording arrangement 17 capable of receiving information in hand-written form. Since these arrangements 15, 16, and 17 are well-known configurations, it is not necessary to describe in detail how to incorporate them into the device 14, how to operate them, and how to cooperate with electronic circuits housed inside the housing 11.
[0011]
The display arrangement 15 operates to display data or other information supplied in the form of appropriate control signals by the display drive circuit, and the switch arrangement 16 operates to generate various command signals supplied to the control circuit. However, the recording arrangement 17 operates to detect the pressure on the various points or areas and generate an electrical signal that represents that information, which is the ultimate use and purpose of such information. Thus, it will be described that such information is supplied to an evaluation circuit that interprets, stores and forwards such information.
The housing 11 accommodates information processing means, that is, various circuits such as drive, control, and evaluation, and is not mutually independent as a whole while performing individually assigned tasks. Rather, they are part of a larger whole, i.e. they cooperate with each other towards a common purpose. Thus, information gathered by sensors associated with one circuit may be displayed under other controls, even if one or both of such circuits is responsive to a command signal applied to it. May be controlled by a third circuit so that the fourth circuit processes, stores and forwards the resulting signal derived from the operation of any or all of the circuits described above. It may be. As mentioned above, these are known and will not be further described.
[0012]
In order to allow hand-written information to be entered on the pressure-sensitive arrangement (recording arrangement) 17, the user of the electronic device 10 can easily access the writing tool 18 of the type suitable for this purpose and explore the pocket It is necessary that there is no need to look up the last place the tool 18 was used. For this purpose, as shown by the broken line in FIG. 1, the bottom portion of the housing 11 is provided with a recess 19 that is received when the writing tool 18 is not used. The writing tool 18 may be a passive element or a needle, but is held in the recess 19 by known means such as a protrusion that is elastically deformable and engages an individual pair of surfaces or recesses of the tool 18.
As can be seen by comparing FIGS. 1 and 7, the writing tool 18 is essentially flat, i.e., includes opposing generally flat major surfaces, one of which is indicated at 20 in FIG. To facilitate the insertion of the tool 18 into the recess 19, the bottom of the housing 11 is contoured as indicated by 21 in FIG. 1 in the region of the recess 19, and most of the individual flat surfaces are received when the writing tool 18 is received in the recess 19. In addition to exposing the tool 18, the tool 18 is also provided with a groove 22 through which a user can insert a fingernail to securely fix the tool 18 before and when it is inserted into the recess 19.
[0013]
The electronic device 10 shown in the figure is also a so-called bar code reader, or U.S. Pat.Nos. A mechanical, electrical, electromechanical, etc. arrangement or circuit may be provided for use as a scanner of the type illustrated in FIG. The contents of these patents are incorporated herein by reference. Here again, these arrangements or known, and therefore currently used as well as the arrangements or circuits described above, such as the PPT4100 portable pen terminal with integrated scanner sold by Symbol Technology, the assignee of the present application. The basic structure is the same as or similar to the above.
As is known, this type of scanner emits a relatively narrow low energy light beam, preferably a laser beam, in the area to be scanned when the trigger button is pressed. This beam scans the target or region of interest and automatically moves to reflect more or less from different zones in the region corresponding to the space between the corresponding light absorption bar and the reflection of the barcode. The bar code is a well known uniform product code (UPC) or the like provided on the product itself or on a shelf or other label on which many similar products are placed. The information carried by that part of the reflected light returning to the scanner is detected in the field of view by the photosensitive detection means located on the scanner, then processed and then determines what the products represented by these UPC codes are .
[0014]
In the embodiment of the electronic device 10 of the present invention shown in the drawing, there is an enlarged portion 23 in the central region of the upper portion of the housing 11. The enlarged portion 23 accommodates a lower portion of the dome-shaped casing 24 that can move within a limited range with respect to the housing 11. The casing 24 is generally spherical in configuration and includes a flat portion 25 incorporating a window 26 as shown in detail in FIG. The casing 24 contains at least some of the components of the optical train that form the forward path of the scanning laser beam emanating from the laser beam source and the return path of the reflected laser radiation ending with the photosensitive detection means.
As is known, the window 26 is a light transmissive, preferably highly wavelength selective filter, i.e., allows the radiation of the wavelength generated from the laser beam source to pass through without substantial attenuation as it travels forward or through the path, It substantially prevents other wavelengths of light, such as those contained in the ambient light encountered at the location of use of the electronic device 10, from entering the casing 24 or the interior of the housing 11. Otherwise, the operation of the photosensitive detection means may be adversely affected.
As can be seen in FIGS. 1 and 2, the electronic device 10 also includes an external antenna 27 so that the radio frequency transmission / reception circuitry housed within the portable electronic device 10 is a stationary base station / main computer / Data or other information can be exchanged with a combination of host processors when needed or desired. The antenna 27 is also attached behind the window 26 of the dome-shaped casing 24 so as to move integrally with the casing 24. As a result, regardless of position, the casing 24 is relative to the housing 11, so that the antenna 27 is always "invisible" from the inside of the casing 24 through the window 26, thus preventing any forward or return beam or radiation propagation. It is within the range of movement located so that there is no. The electronic device 10 may include an internal antenna housed in the casing 24 or the housing 11 instead of an external antenna.
[0015]
As seen in FIG. 2, the main portion 12 of the housing 11 of the electronic device 10 is provided with a basil protrusion 29 on the rear surface 28 thereof. It is advantageous that the projection 29 is constituted by at least a so-called projecting portion of a battery pack. As is well known, a battery pack is basically a cartridge that includes a replaceable or rechargeable battery and is detachably attached to the main portion 12 of the housing 11 in a known manner, with the housing in the mounted state of the cartridge. 11 includes electrical contacts that engage one of the pairs provided on or in the main portion 12 and provide power to one or all of the electrical or electronic circuits of the electronic device 10 through the one contact of the pair. Supply. The basil protrusion 29 of the present invention is provided with a rib-type component 30, and its purpose and function will be described later.
As can be seen by comparing FIGS. 2 to 4, the rear surface 28 of the main portion 12 of the housing 11 is in contact with the two side surfaces 31a and 31b provided with friction enhancing means 32a and 32b, respectively. Looking at the user's hand or finger shown in the drawing with a chain line, the friction enhancing means 32a or 32b are located in the individual side regions and when the user holds the device 10, the right-handed or left-handed user's thumb of the device 10 is located. It helps to ensure the engagement of the individual surfaces 31a or 31b with the individual user's thumb. The friction enhancing means 32a and 32b are advantageously composed of a plurality of indentations that increase the desired friction but are not detrimental to the user and are not damaged.
[0016]
Two concave or dish-shaped trigger buttons 33a and 33b are located next to the friction increasing means 32a and 32b on the rear surface 28 of the housing 11, respectively. Each trigger button 33a and 33b is inclined by approximately 45 ° with respect to a plane extending from the front surface and the rear surfaces 13 and 28 of the main portion 12 of the housing 11 as shown in FIG. 3, and as shown in FIG. Are inclined by approximately 30 ° with respect to the symmetrical plane of the main part 12 arranged between 31 and 31b. Due to its position and the aforementioned tilt, the individual trigger buttons 33a and 33b are ideally adapted to be actuated with a right-handed or left-handed user's index finger, for example as shown by the dashed line in FIG. The apparatus 10 can be held free with the right hand and the left hand can be written to the recording device 17. However, the user can use the thumb instead to press each other trigger button 33b or 33a by moving the thumb from the friction enhancing means to the trigger button 33b or 33a. However, since the user is not firmly held by such movement, it is not necessary to operate the thumb at all. However, it is preferable to operate mainly with the index finger as described above.
Another advantage of index finger actuation is that it actually increases the grip of the device 10 by the user, while the thumb presses the individual friction enhancing means 32a or 32b, so that it only corresponds to the force applied to the trigger button 33a or 33b by the index finger. The force increases and the individual trigger button 33a or 33b is pressed.
[0017]
As seen in particular in FIG. 4, the rear surface 28 has a generally barrel or hourglass handgrip region 34 extending from the bottom of the main portion 11 of the housing 12 over the trigger buttons 33a and 33b. Because of this configuration, the handgrip area 34 fits perfectly in the user's palm and thus, more importantly, not only does the user feel comfortable when holding the device 10 for a relatively long time. The device 10 is not inadvertently slipped from the hand even if the grip is loose for some reason.
For one thing, if the region 34 is enlarged in the direction in which the device 10 moves from the user's hand as a result of such a loose grip, such a grip can be performed again without any action by the user. it can. Secondly, if the device 10 often starts to slip from the user's hand, it will recognize such a wide handgrip portion and immediately warn of loose grip and allow the user to reinforce the grip as a normal reflective action. Of course, if the entire handgrip portion 34 has the same cross-sectional area, this will not happen, and the device 10 will slip from the user's hand before taking measures to prevent this from happening.
The handgrip region 34 is shown as being provided with its own friction enhancing means 35. Advantageously, the friction enhancing means 35 is of the same type as the friction enhancing means 32a and 32b described above, i.e. comprised of a plurality of strategically arranged indentations. In use, these indentations are juxtaposed in corresponding areas of the four fingers other than the user's palm and thumb of the device 10.
[0018]
As shown in FIG. 4, a strap 36 is also provided that can move between two end portions that are inclined with respect to the plane of symmetry. Advantageously, such an angle of inclination is less than 30 °, which is the angle at which the individual trigger buttons 33a or 33b extend with respect to the same plane of symmetry, and at most approximately equal. The strap 36 not only prevents the electronic device 10 from slipping from the user's hand, but also makes the user feel the hand in a desired tilted holding position relative to the main part 12 of the housing 11, i.e. holding it naturally. Although it is placed in a position, it is not necessarily held in this position without such a strap 36.
In this regard, when holding the device 10 with the right hand, the end point of the strap 36 shown in solid lines in FIG. 4 is used, but when the right-handed user holds the device 10 with the left hand, the other end point of the broken line is used. Is called. When the strap 36 is at a suitable end point for the hand holding the device 10, it extends behind the hand rather than the user's knuckles, joints or other raised areas, especially when the device 10 is used for a long time Avoid discomfort and pain.
Returning to the aforementioned rib-type structure 30, it can be seen in particular from FIGS. 3 and 4 that it consists of two parts 30a and 30b arranged on different sides of the aforementioned symmetry plane. These portions 30a and 30b constitute feet that are arranged at a considerable distance on different sides of the symmetry plane as much as possible. It can be seen from FIG. 4 that the handgrip portion 34 further includes a third foot 37 in its bottom region. It can be seen that when the device 10 is placed on a horizontal support surface with the rear surface 28 facing this surface, it rests on the three legs 30a, 30b, 37 and not in other areas of the housing 11. Since the effective areas of the feet 30a, 30b, 37, which are areas in contact with the support surface, are relatively wide apart, the device 10 is highly stable in its rest position.
[0019]
FIG. 5 shows that the casing 24 can be stopped at a plurality of positions relative to the enlarged portion 23 of the main part 12 of the housing 11. In the example apparatus 10 illustrated, the only movement that the casing 24 can make with respect to the main portion 12 is to turn about a central axis perpendicular to the drawing of FIG. In order to provide a stopping action, the casing 24 is provided with a series of circumferentially spaced stop recesses 38 in the outer periphery, and the enlarged portion 23 of the housing is connected by a slot 40 from the enlarged portion 23 of the housing. It includes a latch pawl 39 that is spaced apart. The latch pawl 39 is provided with a nose 41 that, when combined, can be received in a generally conformity with a selected one of the stop recesses 38. To securely hold the casing 24 in the selected stop position, the pawl 39 is elastically bent or flexible to a predetermined degree, and is adapted to enter the individual recesses 38 on the outer peripheral surface of the casing 24, to the user's intention. It stops there until it is put out by typical action.
As shown, the recesses 38 (only one is shown for simplicity) are equidistant from each other by an angle of 30 °, and the casing 24 is neutral so that the scanning laser beam is directed in the opposite direction directly facing the user. It can be turned from position (0 °) to the right or left, preferably only at 30 °, 60 °, 90 °. This means that at the stop position, the laser beam is either away from the user or is completely on the right or on the left or in the middle and not on the user. As a result, no matter where they are, i.e. where they are facing, turning the casing 24 to the appropriate stop position allows the user to use the devices 15, 16, 17 at the same time for scanning without sacrificing the possibility of using the device at the same time. Can scan labels.
As described above, the strap 36 can move between the two ends. For this purpose, the rear face 28 of the housing 11 is provided with a closed arcuate groove 42 which receives the shuttle 43 for movement between the two ends. The strap 36 is sewn or otherwise joined with the shuttle 43 so as to move between the ends together. Further, as shown in FIG. 6, the shuttle 43 can be stopped at either end so that the strap 36 can be stopped at one of the ends.
[0020]
To achieve this stop, engagement pawls 44 are provided at both ends of the groove 42. The engagement pawl 44 is separated from the rest of the housing 11 by a groove 45 and is elastically pushed into the groove. This means that when the shuttle 43 is at the individual end, eg, on the left side as shown in FIG. 6, the engagement pawl 44 engages behind the shuttle 43 and there is sufficient force to disengage this engagement. It means keeping the place until it is put on. The engagement pawl 44 and the shuttle 43 have a round shape with a flexible outer shape to provide safe engagement and release without problems when desired.
FIG. 7 shows how the writing tool 18 is received in a recess 19 provided in the bottom region of the housing 11. Comparing FIG. 7 to FIG. 1, it can be seen that the writing tool 18 is relatively flat, ie its thickness is a fraction of the height.
FIG. 7 also shows the multi-connector assembly 72 securely attached to the bottom region of the housing. As will be described in detail below in connection with FIGS. 13 and 14, assembly 72 is a new power and communication interface.
FIGS. 8 to 10 show other devices 47 (optical scanning device as shown) and housing 11 that can be used with such tools in a manner that is not entirely consistent with the tools described above, and that are housed within the casing 24. FIG. 6 shows an arrangement that can be used with a tool for joining a device 46 contained therein.
[0021]
The coupling arrangement includes an elongated flexible element 48 that can transmit a signal transmitted between devices 46 and 47, either an electrical signal or an optical signal. The individual ends of element 48 couple to devices 46 and 47 in a known manner that allows transmission and reception by individual devices 46 and 47. As can be seen from FIGS. 8 and 9, the partially spherical casing 24 is mounted in the enlarged housing portion 23 so that a considerable amount of space is obtained between them. A portion of the flexible element 48 extends through this space rather along a tortuous path. The length of this portion of the flexible element 48 is selected so that the location of the casing 24 relative to the housing 11 is such that this portion is not taut. For this reason, no matter how the casing 24 is handled, the flexible element 48 is not tensioned.
FIGS. 8 to 10 also show that the flexible element 48 has two, preferably molded, holding structures 49 and 50 secured thereon. These holding components 49 and 50 are received in respective chambers 51 and 52 provided in the housing 11 and the casing 24. Due to the presence of such a construction, the stress generated or applied to a part of the flexible element 48 arranged between the holding structures 49 and 50 exceeds that of the holding structures 49 and 50. There is no transmission. Otherwise, the ends of the flexible element 48 may be torn off from the individual devices 46 and 47 during all intended handling of the casing 24 and until the handling is complete.
[0022]
FIGS. 11 and 12 show a new configuration of the display of a similar device 60. As shown, device 60 includes a back plate 61, a liquid crystal display (LCD) plate (plate type element) 62, and an arrangement 63 for mounting plates 61 and 62 on a support plate. Device 60 can be used in the disclosed form in place of device 14. Alternatively, the mounting arrangement 63 of the device 60 can be used to mount the devices 15, 16, 17 and others that make up the device 14 of FIG.
The mounting arrangement 63 then includes an inner frame 64, an outer frame 65, and an overmold 66. Before describing the construction and working details of the various parts 61 to 66 of the device 60, for clarity, the device 60 is in the position and orientation such that it is mounted on the overhead support plate in FIGS. The component (back plate 61) is on the top, the outermost component (overmold 66) is on the bottom, and the support plate to which the device 60 is attached is omitted. Such a support plate includes a peripheral portion, such as a rib structure, having an inner surface that borders a recess in the periphery that receives a portion of the device 60, and once the device 60 is mounted on the support plate, it is rubbed or at least backed. The plate plate 61 and the inner frame 64 are held in place by interference engagement between the substantially triangular projections or teeth 68 and 69 provided on the inner frame 64.
[0023]
In this connection, the back plate 61 and the inner frame 64 are made of a relatively hard material, generally a metal and a hard synthetic plastic material, and perform the above-described holding operation when inserted into the above-described recess by interference fitting. . In fact, this holding action is so reliable that it is not necessary to use screws or similar securing elements to couple the device 60 to the support plate. Further, as shown, the overmold 66 made of synthetic plastic such as rubber softer than the inner frame 64 is provided with its own projections or teeth 70. However, since this material has a soft property, the engagement of the teeth 70 with the support plate is strong due to the properties of friction and seal fitting.
In particular, as shown in FIG. 12, the rear surface of the LCD plate 62 is completely covered by the back plate 61, and the periphery is completely surrounded by the inner frame 64. However, unlike the back plate 61, the inner frame 64 is not in direct contact with the LCD plate 62, and a part of the overmold 66 is inserted between the inner frame 64 and the LCD plate. As described above, the overmold 66 is a relatively soft material such as rubber and can be further elastically deformed. This is because the LCD plate 62 is held to be impact resistant and the deformable material of the overmold 66 absorbs the impact that the support plate is supported on or prevents propagation from the support plate to the LCD plate 62. Means. The overmold 66 also seals and engages the LCD plate 62 so as to be moisture resistant and dirt resistant. The housing or outer frame 65 is located outside and around the rib-type structure of the support plate described above.
[0024]
In the context of the present invention, the overmold 66 also has other parts that are integral with the first mentioned part and extend beyond the outer frame 65 with approximately the same extent as its outer peripheral surface. The mutual cooperation of these two parts of the overmold 66 and the cooperation of the underlying structure, together with the flexible nature of the material of the overmold, causes the impact to be transmitted to the underlying structure and through which the LCD plate 62 is fragile. Further reduce the risk of transmission to For the same reason, the overmold material is flexible, so if a user inadvertently strikes a relatively hard underlying structure or touches its relatively hard edge, it feels painful or injured To prevent that.
The overmold 66 further includes an additional portion that enters the space between the inner frame 64 and the outer frame 65. This portion further improves the impact resistance of the arrangement 63 because it weakens or substantially reduces the transmission of force similar to the shock wave from the outer frame 65 to the inner frame 64.
This portion of the overmold 66 is provided with a groove 67 having a substantially triangular cross section. In addition to the effect of reducing or reducing shock transmission, the groove 67 is weakened in the region affected by the presence of the groove 67, thus creating a structure called a living hinge. This living hinge allows the outer part of the overmold 66 to be handled almost independently of the inner part, and after the inner overmold part is positioned on and around the inner frame 64, such an outer part can be easily moved to the outer frame 65. The device 60 is easily guided to a predetermined location, so that the device 60 can be easily assembled.
[0025]
13 and 14, the multi-connector assembly 72 includes a generally rectangular support plate 74 having an outer surface into which a generally rectangular elastic seal or gasket 76 is integrally formed. The RS232 type first multi-terminal connector 80 includes a metal shield 78 and a plurality of sockets 82 in the metal shield 78. The socket passes through plate 74 to establish a two-way communication port with the host computer and communicates with the electronics in the data collection device. A second multi-pin connector 84 of type RS232 has a metal shield 86 and a plurality of pins 88 in the shield 86 through the plate 74 and for example for a keyboard that communicates with electronic circuitry in the data collection device. Establish a communication port. Each connector 80, 84 has its own pair of threaded standoffs 90 that lock the matching connector in place through the use of a corresponding screw jack. A power connector 92 is disposed between the connectors 80, 84 and has a shield extending through the plate 74 to provide DC power for current actuation or for rechargeable batteries in the instrument for future operation. To supply. Plate 74 can be made of conductive plastic or non-conductive plastic, with a metal shield electrically connected to the ground pin / socket of connector 80,84,92 and the shield of connector 80,84,92. Molded. All pin and socket interfaces are sealed by insert molding. Currently, plate 74 is preferably made of die cast metal such as aluminum or zinc, in which case there is no shield in the plate.
[0026]
As shown in FIG. 13, a gasket 76 is held in a sealing relationship within the device housing to prevent ingress of moisture and dirt. A threaded boss 94 receives a screw that seals the assembly to the housing.
15-18, the casing 24 can be stopped at any of a plurality of positions relative to the enlarged portion 23 of the main portion 12 of the housing 11, as recalled from the above description with respect to FIG. The embodiment of FIGS. 15-18 is currently preferred over the embodiment of FIG. 5 and, as best shown in FIG. 15, a series of circumferentially spaced ridges 96 on the underside of the casing 24, preferably Are provided with a pair of end limit stop members 98a, 98b spaced apart in the angular direction by an obtuse angle slightly greater than 180 °.
The enlarged portion 23 has an inner wall reinforced by an integrally formed rib 102 and a base wall 100 provided with a series of circumferentially spaced stop recesses 104. The number of the recessed portions 104 is the same as the number of the raised portions 96. The abutting portion 106 is formed integrally with the base wall and engages with the stop members 98a and 98b at the end limit position of the casing 24 relative to the housing, as will be described later.
The bottom portion of the casing 24 extends through the mounting hole 108 in the base wall, and in the assembly position of FIG. 17, the back plate 110 disposed behind the base wall is urged by the wave spring 112 and the casing 24 is enlarged. Hold elastically so as not to fall from 23. An O-ring seal 114 between the casing 24 and the base wall 100 prevents moisture and dirt.
[0027]
In operation, the casing 24 can rotate in either circumferential direction relative to the axis X. The ridge 96 rides along, advances along and exits the facing recess until the casing 24 is more specifically oriented in the desired direction in which the flat portion 25 is secured to the recess 96 by the recess. The casing 24 cannot move past any end limit position where the stop members 98a, 98b engage the abutment 106.
Two-way electrical communication between the electronics in the casing and the housing is obtained in a preferred embodiment through a flexible ribbon cable 116 instead of the flexible element 48 previously described in FIGS.
It will be appreciated that combinations of one or more of the elements of the individual elements described above have useful applications that differ from the types described above.
Although the present invention has been described as an example of a specific configuration of the data collection terminal device, various modifications and structural changes can be made without departing from the spirit of the present invention, and the present invention is not limited to this specific configuration.
From the foregoing, the subject matter of the present invention is clear and will be readily apparent to those of ordinary skill in the art from the standpoint of the prior art and applied to various applications that constitute the essential characteristics of the general or specific aspects of the present invention. be able to. Therefore, such applications are within the scope of the claims and their equivalents.
[Brief description of the drawings]
FIG. 1 is a partially exploded front elevational view of a barcode scanning device of the present invention.
FIG. 2 is a side elevational view of the scanning device of FIG.
FIG. 3 is a top plan view of the apparatus of FIG.
4 is a rear elevation view of the apparatus of FIG. 1. FIG.
5 is a partial enlarged sectional view taken along line 5-5 of FIG. 4 of the scanning device of FIG. 1;
6 is a further enlarged rear elevational view of the scanning device of FIG. 1 along the 6-6 direction of FIG.
7 is a bottom plan view of the scanning device of FIG. 1. FIG.
8 is a schematic cross-sectional view of the scanning device of FIG. 1, showing an elongated flexible connector between the interior of the housing and the partially spherical casing at one position relative to the housing of the casing.
9 is a view similar to FIG. 8, wherein the casing and the flexible connector are in different positions relative to the housing.
FIG. 10 is a front elevational view with only the flexible connector used in FIGS. 8 and 9 extended.
FIG. 11 is an exploded view showing a display arrangement with a frame of a type that can be used in the scanning device of the present invention.
12 is a cross-sectional view of a part of the display arrangement with the frame of FIG. 11;
13 is a partial cross-sectional view taken along line 13-13 of FIG.
14 is an enlarged elevational view of the multi-connector of FIG.
15 is a partially enlarged perspective view of the upper portion of the housing of the device of FIG. 1, shown with the lower portion removed from the device.
16 is a rear elevation view of a portion of the casing of FIG. 15 attached to the device.
FIG. 17 is a partial cross-sectional view taken along line 17-17 in FIG.
18 is a top plan view taken along line 18-18 of FIG.
[Explanation of symbols]
10 Equipment
11 Housing
12 Main part
13 Front
14 Input display device
18 Writing tools
19 Recess
23 Enlarged part
24 Dome-shaped casing
25 Plane section
27 Antenna
28 rear
29 Protrusions
30 rib components
31 Side
32 Friction enhancing means
33 Trigger button
34 Hand grip
36 Strap
63 Mounting arrangement

Claims (9)

A housing (11) having a front surface (13) facing the user when in use and a rear surface (28) facing away from the user;
Information processing means (46) in the housing (11 ) ;
Said housing (11) is disposed above the front surface (13) accessible to the means for exchanging information between said information processing means (46),
In a handheld electronic device (10) comprising:
a) a dome-shaped casing (24) having a window (26) attached to an upper portion of the housing (11) so as to be movable at a plurality of positions relative to the housing (11);
b) an optical scanner (47) mounted in the casing (11) and scanning at least one light beam across a field of view through the window (26);
c ) a handgrip (34) provided on the rear surface (28), shaped like a barrel so as to be received almost in conformity with the palm of the user and having a pair of symmetrical side regions (31a, 31b ); ,
d) at least one operable trigger button (33a, 33b) provided in one of the side regions (31a, 31b) and actuating the optical scanner (47) by a user operation;
A device comprising: The hand-held electronic device according to claim 1 , wherein the at least one trigger button (33a or 33b) has a dish-shaped outer shape. The hand-held electronic device according to claim 1 or 2 , wherein the electronic device is further similar to the one trigger button (33a or 33b) and substantially mirror-symmetric with the one trigger button in the other side region. Device comprising an additional trigger button (33b or 33a) arranged. A handheld electronic device according to any one of claims 1 to 3, further comprising the hand grip (34) strap Ru extending at intervals along the (36), the user is the An apparatus configured to allow a user's hand to be placed between a strap and the hand grip when holding an electronic device. 5. The hand-held electronic device according to claim 4 , wherein the strap (36) has one end connected to a fixed position on the bottom of the housing (11) , and the other end, and the other end. A portion is movably mounted between the two positions on the rear surface of the housing (11) , with a distance exceeding the expected width of the user's hand from the bottom, and the hand grip (34 ) also using hand users either to hold the electronic device in the in each of the two positions in relation the strap (36) is spaced with respect to all joints, behind the hand A device characterized in that it extends across . 6. The hand-held electronic device according to claim 1 , further comprising means for restraining the casing at a plurality of positions having different angles from each other , the restraining means comprising a plurality of ridges. part (96) and該隆stop recess (104) which engages the raised portion (96) Tona apparatus according to claim Rukoto. A handheld electronic device according to any one of claims 1 to 6, attached to Oite the casing (24) behind said window, so outside the constant field and the light beam Including a radio frequency antenna (27) that moves integrally with the casing. A handheld electronic device according to any one of claims 1 to 7, have a bulge projecting (29) serving as a partition boundary receiving the battery to the rear surface (28), the projection ( 29) and the rear surface (28) comprising a foot arrangement (30a, 30b, 37) for supporting the device on a substantially horizontal support surface . The hand-held electronic device according to any one of claims 1 to 8, wherein one end is connected to the scanner (47) in the casing (24). An elongated connector (48) having the other end connected to the information processing means (46) in the housing (11) is provided, and the connector (48) is bent during the movement of the casing (24). A device characterized by.

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