BE495671A - - Google Patents

Description

       

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  IMPROVEMENTS AT BALANCES.



   This invention relates to scales and more particularly to scales in which separate luminous indications of price, weight and value, magnified by an optical system, are produced in places where they can be read by the seller and the buyer. .



   In these scales, use is made of a light source from which emanate the light beams necessary to produce the various light indications desired on the two opposite sides of the scale. It is essential that we not only be able to rely on the operation of the light source, but also make it occupy in the optical system the position exactly desired to form the various light beams. If the light source were to cease to function while the scale was in constant use, it would no longer be possible to continue to use the scale and immediate steps would have to be taken to put it back into service.

   One of the aims of the invention is to avoid this drawback and the interruption of the service by providing a main light source and a reserve light source, the reserve light source being automatically put into operation when switching on. failure of the main source in order to avoid any interruption in the service of the scale.



   Another object of the invention is to ensure that this reserve light source can be brought into the position occupied by the main source so that the optical system continues to operate with the reserve source in the same way. than with the main source.



   Even though the reserve light source may have a duration as long as the main source, it is desirable that the balance not operate too long on the reserve source, and another object of the invention is to provide. an indicator to show that the scale is operating on the reserve source and that the main source must be replaced as soon as possible, so as to prevent any further interruption in the service of the scale.

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   In various places, there are legal prescriptions requiring that the zero position of the balance, that is to say the position in which it is not loaded, can be read at all times. If the light source of the present balance were to remain constantly energized at full strength in order to satisfy this condition, it would need to be replaced at relatively frequent intervals.

   Another object of the invention is to meet this requirement by energizing the light source to its full intensity for the duration of each weighing, so that the values can be read easily, but reducing the power supply between weighings. to a value such that while still allowing the reading of the zero position, the useful service life of the light source is considerably increased.



   In addition to the production of luminous indications of weight and calculated value, the present invention also aims to provide luminous indications of the unit price to both the seller and the buyer and to create simple devices. and easy to operate by means of which the seller can show the price per kilogr. each time the balance is operated by operating a hand control and looking at the light indication rather than referring to the graduations or indications of the manual control itself.



   Still another object is to provide a fast-acting index or needle to enable the seller to display unit prices quickly and approximatively, without having to read the separate values, after which the control can be operated slowly and final position be determined exactly by examining the luminous indication of the desired price per kilog.



   Apart from the characteristics mentioned above, the balance according to the present invention still offers other improvements at the optical and mechanical points of view, in particular a mechanism for supporting the plug which carries the weight and the calculated value and for moving this plug. over a greater distance than the travel of the lever in order to obtain greater accuracy, and an important object of the invention is to provide a balance which, taken as a whole, is of simple and economical construction, has a very high degree of accuracy and is reliable in operation, which gives both seller and buyer full guidance on all the factors that go into the weighing,

   in a form which allows both parties to read and understand them easily.



   Other objects and advantages of the invention will become apparent from the description below, the accompanying drawings and the claims.



   In the drawings:
Fig. 1 is a somewhat schematic side view of the scale with the cover and parts of the frame torn away, generally in section through the middle and some parts removed for clarity.



   Fig. 2 is a fragmentary view of the posterior part, the casing of the balance being broken up to show the parts contained therein;
Fig. 3 is a fragmentary view perpendicular to FIG. 2 showing the mechanism which supports the weighing plug;
Fig. 4 is an approximately horizontal section taken along line 4-4 of FIG. 1 as well as in FIG. 2;
Fig. 5 is a fragmentary view showing the unit price sheet and the support cart and its adjustment mechanism, the view being taken approximately along line 5-5 of FIG. 14;

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Fig. 6 is a fragmentary elevational view showing the cart of the unit price sheet viewed from the left side in FIG. 5;

     
Fig. 7 is a perspective view showing the mechanism for adjusting the unit price sheet when it is removed from the scale;
Fig. 8 is a detail view showing one of the adjustable mounts for a mirror belonging to the optical system of the balance;
Fig. 9 is a detailed sectional view showing one of the projectors in the optical system;
Fig. 10 is a detail view showing the lamp stack viewed from the buyer's side of the scale with the casing thereof removed;
Fig. 11 is another view of the lamp chimney taken looking from right to left in FIG. 10;
Fig. 12 is a fragmentary sectional view taken along line 12-12 of FIG. 1 and showing the mechanism intended to weaken the light when the balance is at zero;
Fig. 13 is a circuit diagram;

   
Fig. 14 is a plan view of the upper platform in the card holder envelope showing the parts constituting the optical system of the balance;
Fig. 15 is a diagram of the spokes similar to FIG. 14 and showing the operation of the optical system;
Fig. 16 is a schematic view showing the sheet of unit prices and the sheet of weights and calculated values of the balance;
Fig. 17 is a broken view showing the screens and cover glasses on the seller's side of the scale during a weighing operation;
Fig. 18 is a view similar to FIG. 17 showing the screen and the cover glass on the buyer side of the scale during the same weighing operation;

   
Fig. 19 is a schematic view of the unit price sheet, showing unit prices by tens only
Fig. 20 is a schematic view showing the operation of the rapid detection mechanism for positioning the unit price card;
Figs 21 and 22 are schematic fragmentary views showing the operation of an adjustable baffle in two different positions to adjust the effective width of one of the light beams;
Fig. 23 is a fragmentary sectional view taken approximately along line 23-23 of FIG. 21, showing the baffle and its control mechanism, and
Fig. 24 is a detail view of the chicane in perspective.



   In the drawings, which show a preferred embodiment of the invention, the scale is shown having a base 30 made of a ribbed molded part which has a narrower portion 31 extending rearwardly and disposed at the rear. almost centrally. The molded part is provided with parts 32 in which are placed adjustable legs 33 allowing

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 ensure the horizontality of the base on its support. This pedestal and the weighing mechanism housed in the main part of the pedestal are shown as constructed approximately in the form of construction described in US patent application MEEKER and ALLEN, No. 675,142., Filed June 7, 1946.



   The weighing mechanism is shown somewhat fragmentarily in FIG. 1 as being of the double lever type., The two levers of which are interposed one inside the other o The internal lever 35 is articulated on floating connecting rods, not shown., Carried at intermediate points on the lever external, and its rear end is supported at the meeting point of a projection 36 which it is provided with a housing formed at the lower end of a pin 37 which has a similar housing at its upper end to receive a downward protrusion of a crossbar 38 suitably supported at opposite ends on portions of the molded base.

   The outer lever 40 is articulated on supports 41 which are fixed to the base 30 and they have rearwardly extending arms to which are fixed pivots 42 which form supports for the posterior end of the plate. At its rear end, the outer lever 40 has an arm 44 extending rearwardly and carrying the spout 45 at its outer end.



   A frame 46 of a generally rectangular shape., To receive the plate, is supported by the pivots 42 as indicated at 47, and on similar pivots 48 carried by the front part of the internal lever 35. The plate 50 which has a vertical portion 51 along its rear edge is supported by uprights 52 which extend from bottom to top at the corners of the frame 46 through the casing plate 55 and which cooperates with the sides 56 of the frame. envelope to enclose the weighing mechanism
The upper envelope which contains the weight and price sheets and the optical system of the balance is generically indicated in 60; it comprises a lower section 61 and an upper section 62.

   The casing 60 is carried by a bracket 65 which consists of top to bottom extending portions 66 supported by spacers 67 and bolts 68 extending bottom to top of the rear portion of the plinth. main, these parts being enclosed in an additional envelope 69.



   Inside the casing 60 is a platform 70 which carries the optical system of the balance and is supported by the bracket 65 by means of the vertical bolts and spacers 71 and by a bracket 72 located on the side. proximity to the middle of the console 65. The console 65 also supports the lower part 61 of the casing 60 and the upper part 62 of the casing is carried by the consoles 75 (figo 14) mounted on the platform 70. It will also be noted that the windows in the front and rear of the casing are covered by a glass pane 80 on the seller's side and by a similar glass pane 81 on the buyer side.



   The balance spring 88 of the balance is supported at its upper end by means of a bracket 90 bolted to the platform 70. A rod 91 is hooked at its upper end to a pin 92 protruding towards the top. outside on the console 90, the lower end of this rod is hooked to the upper end of the spring 88. It will be noted that the rod 91 extends through a part of an opening 93 having the general shape of. an L (Figo 15) formed in the platform 70 and through an opening 94 formed in the console 65.

   The lower end of the spring 88 is fixed to the lever arm 44 by means of a hook or a rod 95, the lower end of which is connected to a C-shaped console 96 which supports the slider 97 of the spout or knife. 45. The particular form of construction of the weighing mechanism may vary if desired, that shown here being given for guidance only.



   The card 100 which bears the appropriate indications corresponding to the weight and the calculated value of the material being weighed on the balance, is mounted in a frame 99 of generally rectangular shape, supported so as to be able to move at a upward and downward movement in the opening 93 of the platform 70 following the movements of the levers 35 and 40 during the weighing operations.

   Frame 99 is bolted to a flat bar 101 (Figo2)

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 having a knife-shaped edge which penetrates the interior of a complementary shaped grooved roller 102 mounted on platform 70; the opposite edge of the bar 101 is flat and comes into contact with a smooth roller 103 also mounted on the platform 700
Attached to the frame 99 is a drop bar 104 which is fixed at its upper lower end with a flat rod 105 which extends from top to bottom at a point somewhat above the lever arm 44 and is bolted at its lower end in the middle of a plate 106 having the general shape of an H.

   Bolted to the outer sides of this plate 106 are a pair of guide bars 106 having knife-shaped edges engaging in complementary shaped grooves of rollers 111 carried by needle-point shafts 112 each mounted in the one of the pairs of consoles 115. These consoles 115 are in turn bolted in their front part to a guide bracket 116 bolted to the bracket 65 and extending from top to bottom. At the rear of the scale the consoles 115 each carry a corner console 117 and these latter consoles are connected by a rod 118 to positively and adjustably maintain the distance between the rollers 111.

   It will thus be seen that the rollers 111 and the guide bars 110 cooperate to prevent lateral displacement of the plate 106 in any direction while allowing it to move freely in a vertical plane.



   The rod 105 and through it the rod 100 are connected to the lever arm 44 by means of a pair of flexible tapes 120 which form a loop above a pair of rollers 121 and the ends of which are fixed at 122 to plate 106 and at 123 at the lower ends of the fixed guide bracket 116. The rollers 121 are carried by a shaft 125, the ends of which are journaled in bearings 126 carried by the vertical arms 127 of a yoke-shaped bracket. H 130, the central web 131 of which extends transversely immediately above the lever arm 44. A support pin 132 (Fig.



  1) is screwed into the core 131 and extends from top to bottom through an opening 133 made in the lever arm and the other end of this pin is provided with a housing for receiving a needle tip 134 at the rear end of a bi-metal strip 135 carried by a bracket 136 fixed to the lever arm 44. In order to prevent the needle point 134 from disengaging from the pin 132 each of the descending parts 140 of The caliper 130 carries a flexible retaining rod 141 which enters a housing in the side of the fork-shaped descending portion 142 of the lever 44 and is secured to the caliper arm 144 by a set screw 143.



   It will be seen that as the tapes 120 are fixed to the fixed frame at their ends 123, their free ends 122 support the plug 100 and its frame 99 by means of their connection to the plate 106, and when the rollers 121 rise or fall. are lowered, this displacement causes a displacement in the same direction of the free ends of the ribbons and consequently of the plug 100. As the rollers 121 are in turn supported by the lever arm 44 via its connection. with caliper 130, as the lever arm descends as a result of the downward movement of pan 50 during weighing, caliper 130 and rollers 121 descend in a similar fashion.

   During this movement of the stirrup, the weight of the plug 100 and its support device on the free ends of the ribbons causes the latter to descend under the action of gravity for a distance equal to twice the downward stroke of the yoke and rollers to cause a similar up and down movement of the plug 100 over a distance equal to twice the downward stroke of the lever arm 40. This movement is effected, so to speak, without bending by As a result of the construction of the guide device and rollers described above, and the weight of the plug and its supporting members on the lever arm can be easily compensated by the initial tuning of the balance. The bi-metal band 135 provides a compensating adjustment for the zero reading of the balance according to temperature variations.



   A sheet 150 (Fig. 5) shows the price per kilog. or other unit of weight of the material being weighed on the scale and it

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 is carried by a vertical part 151 of a carriage 152 mounted so as to be able to slide laterally on the pallet 70.

   The carriage has the general shape of a U in plan to be placed around the end part of the groove 93 (Fig. 15), and one of the branches 153 of this carriage is provided on its underside with 'a V-groove to receive a V-shaped guide piece 155 bolted at 156 to the platform, 70 (Figo 5). The other branch 157 of the carriage 152 is provided with a flat lower surface which circulates on the corresponding flat upper face of a guide rail 158 also bolted to the platform 700.
Fig. 7 shows in detail the mechanism which causes the lateral sliding movement forwards and backwards of the carriage 152 to fit the unit price card 150 in place and select the corresponding vertical columns from the card 100.

   A shaft 160 is journaled in pillow blocks 161 and 162 bolted to the undersurface of platform 70, and this shaft extends outward at both ends through casing 60 to receive the adjustment knob. 163. The rotation of the shaft 160 is limited to a desired number of degrees by means of a stop disk 165 freely mounted on the shaft 160 near the support block 161 and having a tongue 166 capable of coming into contact with it. taken with a pin 170 carried by the block 161 and a similar pin 171 carried by a collar 172 attached to the shaft 160.

   The pin 171 is disposed radially inside the pin 170 so as to provide clearance and the tongue 166 consequently has a pair of tabs 173 near its outer end to engage with the pin 170 and a pair of tabs. similar tabs near the body of the stop 165 to engage the pin 1710
It will thus be seen that the rotation of the shaft 160 in one or the other direction will end when the pin 171 meets one of the tabs 174 formed on the tongue 66 and the tab 173 disposed on the opposite side of this tongue. is likely to encounter the fixed pin 170.

   Under these conditions, when the shaft is rotated in the opposite direction from this limit position, the collar 172 drives the spindle 171 around the cam until it engages with the other tab 174 of the tongue 166 and as this shaft continues to rotate it drives the cam until the opposing tab 173 strikes the fixed spindle 170. This arrangement allows the hand wheels 163 which can be manually adjusted by the seller during that he continues to examine the screen to perform just under two turns.



   To cause the carriage 152 to move as a result of the rotation of the shaft 160, a retaining plate 175 is connected by means of pins 176 to the underside of the carriage and the anterior portion of this plate extends through. the groove 177 between the lower surface of the slide 155 and the platform 70. The pins 176 are provided with springs 178 as shown in FIG. 5 to form a flexible connection between the leg 153 of the carriage and the plate 175 so as to prevent them from wedging on the slide 155. The plate 175 carries a pin 178 from which a cord 180 extends over a pulley 181 and a pulley 182 to get to a drum 183 mounted on the shaft 160, the pulleys 181 and 182 being mounted on platform 70 by means of brackets 184 (Fig. 5).

   A similar cord 185 is connected to pin 178 through a coil spring 186 and passes over pulleys 187 and 188 to be secured to the opposite side of drum 183 where cord 180 is located.



  Thus, when the shaft 160 is rotated in either direction, one of the cords 130 and 185 winds on the drum 183 while the other cord unwinds, which has the effect of to slide the plate 175 back and forth and cause the carriage 152. The spring 186 maintains the cords under pressure, preventing it from forming a sway.



   The lamp bulb 200 which constitutes the light source of the optical system and of the balance is enclosed in a chimney 202 (Figs. 10 and 11) bolted at 203 to the platform 70 and disposed on the buyer side of the enclosure. veloppe 60, and the fireplace 202 has an elongated window opening 204 facing the buyer to directly illuminate a sign on the glass 81 as indicated at 205 in FIG. 18. Bulb 200 is of the double filament type

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 and is mounted in a socket 206 articulated on a horizontal axis in the sides of the chimney 202 by means of pivots 207.

   The condensing lenses 209 and 210 are mounted in the facing faces of the chimney 202 and the pivoting mounting of the socket 206 enables one or the other of the filaments 211 or 212 of the lamp to be brought into the lamp. exact extension of the optical axes of these lenses or at the focal point thereof
A mechanism is provided to energize only one of the filaments 211 and 212, which is located in the extension of the lenses 209 and 210 and mentioned as being the main light source and to automatically energize the other filament mentioned as being the reserve light source and simultaneously pushing it back into the same alignment as the lenses when the main light source jumps or stops working for some other cause.

   Referring to the connection diagram in Fig. 13 it is seen that the current which feeds the bulb 200 is brought from the secondary of a transformer 215 which reduces the voltage to a lower value so that the bulb used can be suitably constituted by an ordinary dipped bulb. 'a car. Filament 211 serves as the primary light source and it will be seen that current is supplied to it by an energizing coil of a magnetic switch 216 so set that its contacts are open when the coil is energized. The other filament 212, which serves as a back-up light source, is energized through these contacts of switch 216, and thus, as long as filament 211 is energized the circuit through the wire. - lament 212 is open.

   A coil spring 220, connected to the socket 206 and to the chimney 202 tends to bring the socket into a position where the filament 211 is on the line which connects the foci and the lenses 209 and 210, and an electromagnet 222 whose exciter coil is in parallel with the filament 212 is mounted in a position such that when energized it exerts a traction on the sleeve against the action of the spring 220 to bring the sleeve in a position where the filament 212 is in the same alignment as the lenses.



   It will therefore be seen by examining FIG. 13 that when the filament 211 is under tension, the electromagnet 222 is defused, and thus the spring 220 maintains the socket 206 in the desired position so that the filament is in the same alignment as the lenses 209 and 210. If the filament 211 breaks, the circuit is broken through the coil of switch 216 and thus causes the closing of the contacts of this switch to close the excitation circuit passing through the reserve filament 212. At the same time the electro Magnet 222 will be energized so as to bring socket 206 to the position where it lies in alignment between filament 212 and lenses 209 and 210 so as to bring filament 212 to the focus.

   Further, a warning lamp 223 is placed in the circuit, so as to be energized at the same time as the electromagnet and the filament 212, and thus the lamp is placed near the glass 20 on the seller's side. of the casing 60 and immediately behind a warning indication on this glass, indicated at 225 in FIG.



  17. So when the main filament ceases to function and the reserve filament 212 kicks in the resulting tensioning of the lamp 223 illuminates the indication 225 so that the seller immediately knows that he must replace. the ampule 200 as soon as possible so that there is always a spare filament and that there is no need to fear a complete shutdown of the operation of the optical system.



   In order to facilitate the maintenance of the scale, a spare bulb 230 is mounted in the upper part of the chimney 212 in a suitable clip 231 attached to the chimney. It will also be noted that the chimney 202 is constructed so as to promote efficient ventilation of the bulb 200 in order to minimize the possibilities of overheating of the surrounding parts of the scale. As shown in Figs. 10 and 11, the chimney is provided. an opening 232 at its lower end as well as an opening 233 at its upper end, and louvers 234 are established in the casing 60 above and below these openings to provide a current of. continuous rising air through the chimney.

   In order to protect the envelope against

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 the entry of insects attracted by the light of the bulb 200 through the blinds 234, the chimney fits intimately on the envelope at the two ends and the openings 232 and 233 are covered with a metal mesh 235.



   Provisions are also made to reduce the voltage of the bulb 200 when the scale is at the zero of the reading in order to extend the life of the bulb. However, as certain legal prescriptions require that the zero of the balance be easily read at all times, the voltage is maintained at a value sufficient to meet this condition. Referring to Figs. 12 and 13 it is seen that a resistor 240 shunted by a switch 241 is mounted in series on the primary of the transformer 215, this switch and this resistor being mounted on the base 30 at the front of the scale nearby. a hand-operated articulated switch 242 which controls the lighting circuit.

   Switch switch 241 comprises an operating arm 245 which is articulated at 246 and is biased by gravity in the closed position. Spring 247 is a locating spring and cooperates with adjustment screws 248 to simplify adjustment of the operating tip of switch 241.



   The anterior part of the outer lever 40 of the weighing mechanism comprises an arm 250 (Figs. 1 and 12) which receives the adjustment screw 251 of the zero adjustment counterweight 252, and the arm 250 is provided with a bulge 254 provided with a descending pin 255 which contacts the switch arm 245 and is adjusted and disposed so as to allow the switch arm to open the switch 241 when the lever 40 moves. is in its normal position in which no weight is placed on the balance platform. Accordingly, when the scale is thus in the zero position, switch 241 is opened and the voltage of bulb 200 is reduced as a result of the passage of current through resistor 240.

   However, as soon as a weight is placed on the scale, movement of lever 40 has the effect of closing switch 241 as pin 255 moves away from arm 245, thereby shorting the resistor. 240 and applying the full voltage of the transformer to the light bulb 200 which then illuminates at its maximum intensity. At the end of the day, the seller opens switch 242 to completely isolate the scale.



   The optical system of the balance is set up to give indications to both seller and buyer of the selected unit price and the weight and calculated values of the weighed materials. With particular reference to Figs 14-16, the weight indications on the card 100 are arranged in a single vertical column adjacent to the left margin of the card as shown in Figs. 14 to 16, part of the weight indications being indicated on a larger scale by the reference numeral 290 in FIG. 16.

   The zero weight indication is at the bottom and the scale increases from bottom to top in such a way that when the plug moves up and down following an increase in weight on the pan, the indications of higher weights move into a position where an image is produced. The remainder of the surface of the card is covered by the indications of calculated values arranged in a series of vertical columns, each corresponding to a different unit price, the column of the lowest unit prices being on the right side of the plate and increased. - both to the left with respect to FIG. 16. Part of the indications of the values calculated on a larger scale are designated by the reference numeral 292 in FIG. 16.



   The light beam projecting the images of the desired weight indication which is represented by the long dashed line 300 in FIG. 15, emanates from the bulb 200 and first passes through the condensing lens 210, onto a mirror 301 which deflects it by 90 and causes it to travel in the proper direction to pass through the column of weights on sheet 100. The beam 300 is then deflected again by 90 by a prism 302 and passes through a projector 303, this prism and the projector both being carried by the same bracket 304 mounted in a fixed position on platform 70.

   The construction of the projector 303 is shown in

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 detail on Fig. 9 and this comprises a cylinder 305 within which are mounted a pair of lenses 306, a pair of spacer sleeves 307 and an annular stopper 308. It will also be noted that the central bore of cylinder 305 is eccentrically disposed so as to allow vertical and lateral adjustment of the projector inside clamp 310 of console 304, the cylinder having a hexagonal portion 311 to facilitate this adjustment.
After leaving the projector 303, the beam 300 hits a transparent mirror 315 which separates it into two beams, one of which 300a carries the image to the buyer and the other 300b carries the image to the seller.

   The transparent mirror 315 is carried by an adjustable mount 316 shown in detail in FIG. 8. The bracket of this mount is grooved and drilled horizontally so as to present an upper part 317 flexibly connected at 318 to the lower part 319 which is bolted to the platform 70.



  The upper part 317 of the console is provided with a mounting groove 320 which carries the mirror and an adjustment screw 321 allows the part 317 of the console to be moved relative to its connection 318 which connects it to the base of the console. the console, so as to tilt the mirror with a view to its adjustment in order to vary the angle of reflection of the beam 300 in a vertical plane.



   The beam 300a which is directed towards the buyer is reflected by the transparent mirror 315 towards a mirror 325 mounted in a fixed console 326, from where it is again reflected by a mirror 327 towards a frosted glass screen 330 mounted on the platform 70 on the buyer side of the casing 60, behind a clear surface of the glass 81 and provided with a guide line 333 (Fig. 18). The beam 300b which goes towards the seller passes through the mirror 315 and then strikes a plane mirror 335 carried by an adjustable mount 316. From this mirror the beam is reflected by another pair of mirrors 336 and 337 towards a screen frosted glass 340 mounted on platform 70 behind a clear surface at the left end of glass 80 and provided with a leader line 343 (Fig. 17).



  During this journey from the projector 303, the bright image of the weight indications 290 on the plug 100 are enlarged as indicated at 290a and 290b in FIG. 16 for the seller and the buyer respectively. It will be seen that the original indications on the card are suitably inverted, inverted and enlarged by passing through the projection lenses and mirrors to produce vertical images which can be read correctly on screens 330 and 340. in dimensions that can be easily read from a distance. It will also be noted that each part of the beam passes through multiple reflections and transformations in such a way that the images on the two screens appear straight and not inverted.

   An exact match of beam 300a with reference line 333 on screen 330 is obtained by setting adjustment screw 251 (Fig. 12) for the weight corresponding to zero 252, and the match of beam 300b with leader line 343 on screen 340 is then obtained by adjusting the mount 316 of mirror 335 as described.



   The unit price card 150 bears the price indications per kilogo extending laterally across the lower part of the card, part of these indications being shown on a larger scale at 345 on Fig 16. The optical system is capable of showing the image of one of these figures or numbers suitably selected next to the corresponding reference mark "cents per book" on screens 330 and 365. In addition, the file 150 carries a row of figures 346 along its upper part and a reproduction of one of these digits is projected in a similar manner on both screens opposite the mark "cents per graduation !! Part of these figures is shown on an enlarged scale at 346 in Fig. 16.

   The numbers 346 refer to the dimensions of the graduations on the section of the calculated values of form 100, each of these graduations being equal to one cent per unit price up to an arbitrarily chosen value such as 1 dollar per pound and equal to two cents per unit price over $ 1 per pound. These "cents per graduation" indications thus facilitate rapid reading for both the seller and the buyer of the figure of the calculated value indications.

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   The light beam for projecting the images of the desired indication of the unit prices is shown in Fig. 15 by line 350 in chain lines. This beam travels a path 'starting from the same bulb 200 as the beam 300 through the lens 309 and is then raised by means of a pair of mirrors 351 and 352 carried by a bracket 353 and each arranged at 45. relative to the platform 70, their vertical reflection planes being 90 relative to each other as shown in FIG. 5. It will also be noted in FIG. 5 that the lower mirror 351 is placed in a desired position to intercept the left half of the beam passing through lens 209.

   The mirrors 351 and 352 thus raise the beam 350 to the desired level to pass through the unit price sheet 150, and the beam passes from the mirror 352 through a condensing lens 355 mounted on the pallet 70 and then to through plug 150 to a projector 356 mounted in a bracket 357 bolted to platform 70. Projector 356 may be adjustable as described with reference to fig 9, or a stationary projector may be employed.



   The console 357 carries a right angle prism 360 capable of deflecting the beam 350 by an angle of 90, and the beam then goes towards a mirror 361 mounted on the platform 70 by means of a console 362 and this mirror it is reflected by mirrors 325 and 327 to a transparent mirror 363 carried by a frame 362. The beam 350a which is transmitted by the mirror 363 goes directly into the desired position on the screen 330 on the buyer side of the device. screen as indicated at 345a and 346a in FIG.



  18. Beam 350b reflected by mirror 363 is reflected by another mirror 364 to form images 345b and 346b on a screen 365 mounted on platform 70 behind a clear surface 366 of window 80, the remaining surfaces of the window. window 80 being opaque.



   The beam which forms the images of the calculated value of the material being weighed is shown in Fig. 15 by line 370 with short dashed lines, and it starts at the origin of the same bulb 200 to go from the right side of the lens 209 as shown in Fig. 5 to a mirror 371 mounted on a platform 70 and which reflects it at an angle of 90 The beam 370 is then sent to a mirror 372 also mounted on the platform, but extending along the branch 157 of the carriage 152 and capable of reflecting the beam in a direction parallel to the direction of movement of the carriage 152 towards a condensation lens 373 which is carried by a bracket 374 on the arm 157 of the carriage.

   The beam is then deflected at an angle of 90 by a right angle prism 375 mounted on a bulge 376 of the carriage arm 157 and provided with a concave correction lens 377 on its entry face.



   The resulting corrector beam then passes through the plug 100 to a projector 380 similar in construction to the projector 303 and carried by a clamp 381 of the opposite branch 153 of the carriage 1520 The branch 153 of the carriage also has a bulge 382 which carries a prism at right angle 383 capable of deflecting the beam 370 by an angle of 90 and of directing it parallel to the direction of its path between the mirror 373 and the lens 373 towards a transparent mirror 385 mounted on the platform 70.



  The beam 370a reflected by the mirror 385 is again reflected by the mirrors 325 and 327 in the desired position on the screen 330 to form the image 392a, and the transmitted beam 370b is reflected by another mirror 386 towards them. mirrors 336 and 337 and from there to the desired position on screen 340 to form image 392b.



   It will be seen that since the prism 375 and the projector 380 are both carried by the carriage 152, the carriage movement to select

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 the unit price following the sheet 150 causes a lateral sliding of the beam 370 relative to the sheet 100 to bring it into a position on the sheet corresponding to the unit price selected. As the vertical position of the plug 100 corresponds to the weight placed on the pan, it is evident that the light beam 370 will actually pass through this plug in a position to form an image of a calculated value corresponding to the product of this weight and the selected unit price.



  It will also be noted that since the sliding movement of the carriage 152 takes place parallel to the direction of the path of the beam 370 between the mirror 372 and the prism 375 and also between the prism 383 and the mirror 385, this movement does not alter the position of the image produced on screens 330 and 340 but simply drag the beam to match the particular vertical column of values digits calculated on record 100, which corresponds to the selected unit price.



   Arrangements are made by means of suitable baffles or screens to prevent possible interference from the light beams carrying the different images in the optical system.



  If we refer to Figs. 14 and 15, baffles 390,391 and 392 are mounted on the platform 70, and a baffle 393 carried by the frame 362 and the mirror 361. Another baffle 394 is shown as being mounted on the support bracket of the guide roller 102, and a chuck 395 is mounted on the bulge 382 which supports the prism 383 on the carriage 152. In a similar fashion, opaque covers 396 (Fig. 18) and 397 (Fig. 17) are provided on the screens 330. and 340 between the images of calculated values and weights for ease of reading.



   It is desirable to allow the vendor to quickly set the unit price sheet 150 to select the desired unit prices at the start of a weighing operation.



  However, if the knobs 163 are rotated quickly, the images of the card digits on the screens are reproduced too quickly to be read easily. In order to avoid having to turn these knobs slowly and thus to prolong the operation of the installation, a rapid detection device is provided for the seller in order to facilitate rapid selection of the desired unit prices.



   In Figs. 16,19 and 20 the unit price card 150 is shown as bearing markings representing prices between 10 cents and 1.50 dollars per pound, as shown schematically in FIG. 19 where prices are shown increasing in 10-cent intervals, intermediate values being omitted only for clarity of the drawing.



  For example a typical index card is graduated at one-cent intervals between 10 cents and one dollar, and with intermediate values selected between $ 1 and $ 1.50, such as $ 1.03, 1.05. dollar, 1.07 dollar, 1.13 dollar ,. $ 1.15, $ 1.17, $ 1.25.



   The rapid detection device has an index 400 (Figs. 17 and 20) formed of opaque graduated lines on the frosted glass screen 365.



  The index 400 coincides with the graduations of the card 150 and comprises ten graduations corresponding to the prices in tens up to one dollar and an additional larger graduation corresponding to the part of the card between 1 dollar and 1.50 dollars.

 <Desc / Clms Page number 12>

 



  A line 405 (Figs. 16 and 19) is disposed horizontally on the plug 150 between the two rows of digits 345 and 346, and this line is calibrated such that its image 405b on the screen 365 (Figs. 17 and 20 ) appears in a position relative to index 400 which corresponds to the particular position of the unit price command at that time.

   Thus, as shown in Fig. 17, when the unit price selected is "48", the image of 40512 appears just below the graduation corresponding to 50 cents on the index 400. FIG. 20 shows an example of another set-up where the numbers "73" appear on screen 365, and image 40512 between the graduations corresponding to 70 and 80 cents respectively on index 400.



   It will therefore be noted that when the seller places a card 150 by turning the knobs 163, the image of line 405 appears to rise or fall along the index 400 following the change in position of this card. The salesperson can thus observe the position of the image of that line without having to search for the images of these digits themselves, allowing him to control the buttons quickly until the line appears in approximately the desired position. on index 400; this initial adjustment of the plug is thus effected relatively quickly.

   Then, when the image 405b of the line 405 approaches the desired position on the index 400 which corresponds to the desired unit price of the material being weighed, the exact positioning of the card can be carried out at a slower speed until the image of that selected unit price indication appears on the screen.



  As this rapid detection device does not necessarily have to be shown to the purchaser, the part 406 of the screen 330 which corresponds to the index 400 is opaque as shown in FIG. 18, this opaque part also comprising an index and a legend 407 indicating the reference line 333 and extending vertically to form a mask between the images of the calculated value and the unit price, similar to the caches 396 and 397. The surface 408 of the glass 81 surrounding the screen 330 is also preferably opaque.



   When using this scale for typical weighing, the seller begins to adjust the unit price sheet as just described, until the image of the unit price indication is selected. born coincides with the "cent per pound" cue marks on screens 330 and 365, for example a price of 48 cents per pound as shown in Figs. 16 to 18. It will be understood that this focusing operation simultaneously performs a lateral sliding of the beam 370 which brings it into a position where it passes through the particular column of digits of the value calculated on the sheet 100 which corresponds at the selected unit price.



   Regardless of the setting of the unit prices, the movement of the plate 50 and the lever 44 under the weight of the material deposited on the plate causes a displacement of the card 100, which produces an image of the weight considered, and the value calculated correct will appear when the considered unit price has been selected, as shown in Figs. 16 to 18. The seller and the buyer can thus both read simultaneously on screens 340 and 365 and on screen 330, respectively, the images of the three values, namely, the weight, the unit price and the calculated value. which have great values and can be read and interpreted easily.

   Furthermore, these images are all formed by the light beams coming '' - from the same single light source, and a mechanism is provided to automatically activate a reserve light source immediately.

 <Desc / Clms Page number 13>

   That: 1-the- main light source -ceases to function and to give simul-
 EMI13.1
 immediately a visual indication sig., 3ant, ¯ce ï.s, squ; re, pri, e.Pa3 ,; ze, '¯c¯ tioned more, which: ensures a continuous and infallible operation of the .¯-
 EMI13.2
 balance T, ès''isb alFà.2âp éétènt: vle functioning of? uftè! h c.a: ne'Jàjus: t.a.1:>: le "d is to adjust the effective width of one of the light beams.

   Although
 EMI13.3
 an areâ.e. hie can be employed, ée "'for:. a pu dR, s.5ifligçQ ux,' it has been found to be particularly desirable with regard to the beam which carries the image of calculated values, because of the that when the carriage 152 is pushed back so as to select the different settings for the unit price sheet 150, this displacement has the effect of varying the distance traveled by the beam 370 from the sheet 100 and the projector 380 to the screens 330 and 340. This in turn gives rise to a corresponding variation in the effective widths of the beams 370a and 370b.

   Such a variation in width is not inconvenient on screen 340, as only two images are projected onto the latter and these images are spaced apart by a relatively large amount and can therefore be provided. a cover 397 of corresponding width on the screen to hide the overhanging parts. On the other hand,. screen 330 on the buyer's side of the scale receives the three images in relatively close positions, with the image of the calculated value disposed between the other two images and with covers 396 and 406 of much less width than the cover 397 of the screen 340.

   In order to prevent, therefore, unwanted interference with the image 290a as a consequence of the variation in width of the beam which carries the image 292a, the adjustable screen is arranged so as to adjust in operation. of the device for pushing back the carriage 152 so. adjusting the effective width of beam 370a and maintaining the area on screen 330 which receives light from that beam in a substantially uniform manner for all of the focuses. the unit price sheet.



   As seen in Figs. 21 and 23 an adjustable baffle device 415 is mounted on the platform 70, between the transparent mirror 385 and the mirror 325. This baffle device has a base 420 which is mounted so as to be able to rotate on a vertical axis by means of of a pin 422 fitted in the platform 70. Two screens 423 and 424 extend from bottom to top on opposite sides of the plate 420 parallel to each other but slightly laterally offset from each other. to the other and the baffle device is disposed in the path of the beam 370a such that these screens form a vertical slot 425 between their cooperating edges 426 and 427. It will thus be noted that the rotation of the baffle device 415

  on spindle 422 will cause the effective width of slot 425 to vary relative to bundle 370a and devices are provided to rotate this ram device as a result of movement of carriage 152 to adjust the speed. width of the slot according to the development of the unit price sheet.



   As shown in Figs. 21 and 22 the movement of the carriage 152 has the effect of varying the distance between the transparent mirror 385 and the prism 383, which is carried by the branch 153 of the carriage 152. In order to be able to rotate the baffle device 415 when the carriage moves, a worm 430 is attached to the shaft 160 below the baffle device.

   An L-shaped wire 431 is attached at one end to the underside of the platform 70 by means of a bolt 432 and a spacer 433, and this metal wire extends transversely to the worm 430 by engaging the screw thread The free end of the wire 431 is bent from bottom to top at approximately a right angle and extends through an opening 434 of the platform 70 and in a groove 435 of the base 420 of the baffle device 4150 A guard bar 436 for the wire 431 is also mounted on the bolt 432 to hold the wire in engagement with the worm 430, and it will thus be noted that the rotation of the worm has the effect of causing a displacement,

  side of the wire which in turn causes a rotational movement of the baffle device as a sequence of gripping the end of the wire in the groove 435.

 <Desc / Clms Page number 14>

 



   Figo 21 shows the relative positions of these members for a focus of the unit price sheet near the end corresponding to the high prices of the sheet 150, the prism 383 being in its position closest to the mirror 385 for this focus. The ram device 415 is accordingly adjusted to reduce the effective width of the slit 425, and it will be found that the beam 370a transmitted through this slit is composed of a relatively small part of the entire beam reflected by the mirror. 385, the external rays of this beam which are represented by the dashed lines 440 being intercepted by the screens 423 and 424.



   Fig. 22 shows the relative positions of these elements, when the carriage 152 is moved for a focus corresponding to the unit price lower than that of Figo 21, and in this focus the prism 383 is at a significantly greater distance from the mirror 385 and the distance traveled by the beam 370 is correspondingly increased. As a result, the baffle device 415 has been adjusted as a result of the movement of the carriage by the rotational movement indicated by the arrow in FIG. 22 to be brought into a position which substantially increases the effective width of the slot 425 and the actual width of the beam 370a at the slot.

   However, since the divergence of the rays forming the beam 370a is less for this focusing than in the case shown in FIG. 21, the effective beam width at screen 330 will be approximately the same as in the case shown in FIG. 21. Thus movement of carriage 152 causes corresponding rotation of the baffle device to adjust the effective width of slot 425 and maintain a substantially uniform width of the beam at screen 330.



   Although the embodiments of the apparatus described above constitute the preferred embodiments of the invention, it should be understood that the latter is not limited to these forms of construction. of the apparatus, and that modifications can be made thereto without departing from the invention.



    'CLAIMS.



   1.- Optical system balance with weighing mechanism, characterized in that it comprises in combination a plug, a screen., A main light source cooperating with this plug to project an image thereof on the screen , a reserve light source, and a device operating when the main light source ceases to function, to replace it with the reserve light source.

** ATTENTION ** end of DESC field can contain start of CLMS **.


    

Claims (1)

2.- Balance with optical system with weighing mechanism, characterized in that it comprises in combination a plug, a screen, a main light source in a predetermined position cooperating with this plug to project an image thereof on the screen, a reserve light source, a device operating when the main light source ceases to operate, to switch on the reserve light source and a device for simultaneously sliding this reserve light source into a position predetermined previously occupied by the main light source o 3.- Optical system balance with weighing mechanism, characterized in that it comprises in combination a plug, a screen, a main light source cooperating with this plug to project an image thereof on the screen, a device for supporting this main light source in a predetermined position corresponding to a focal point, with respect to this plug, a reserve light source, a device acting when the main light source ceases to operate, to switch on the light source reserve, and a device actuated simultaneously with the energization of the light source to move the latter into a predetermined position corresponding to a focus. <Desc / Clms Page number 15> 4.- Optical system balance with weighing mechanism, characterized in that it comprises in combination, a plug, a device for moving this plug relative to the weighing mechanism, a screen, a main light source, cooperating with this plug to project an image thereof on the screen, a reserve light source, a device acting when the main light source stops working, to replace the latter with the reserve light source, and a device producing an indication visible on the outside of the scale to indicate that the reserve light source is in service. 5.- Optical system balance with weighing mechanism, characterized in that it comprises in combination, a plug movable in relation to this weighing mechanism, a screen, a light bulb with double filament, one of which filaments constitute a main light source, a device receiving the light from this light source and cooperating with the plug to project an image thereof on the screen, and a device operating when one of these filaments ceases to operate to replace it with the other filament. 60- Balance with optical system with weighing mechanism, characterized in that it comprises in combination, a plug capable of being moved with respect to the weighing mechanism, a screen, a light bulb with double filament, one of which filaments constitutes a main light source, a device receiving the light from this light source and cooperating with this file to project an image of the latter on the screen, a device operating when one of the filaments stops working to replace it with the other filament, and a device for simultaneously sliding the light bulb so as to bring the other filament into the position previously occupied by the first of these filaments. 7.- Balance optical system with weighing mechanism, characterized in that it comprises in combination, a plug capable of being moved relative to this weighing mechanism, a screen, a light source cooperating with this plug to project a image thereof on the screen, a device for energizing this light source at a high relative voltage when a weighing operation is being performed, so as to form a bright image on this screen, and a device for switching on this light source at a reduced intensity when the weighing mechanism is not loaded, so as to form an image which can still be read on this screen. 80- Balance with optical system with weighing mechanism, characterized in that it comprises in combination a plug capable of being moved with respect to the weighing mechanism, a screen, a light source cooperating with this plug to project a image thereof on the screen, a device for switching on this light source at a predetermined intensity, during a weighing operation, to form a brilliant image on this screen, and a device acting when the weighing mechanism is brought back to the non-charging position to reduce the intensity of this light source. 9.- Balance with optical system with weighing mechanism, characterized in that it comprises in combination, a plug, a screen, a socket capable of receiving an electric bulb provided with two filaments under tension separately, a device supporting this socket so as to be able to slide it, a device comprising a lens near this socket for directing the light of a filament under tension so as to project a light beam through this plug to form an image on this screen, a device tending to bring this socket into a position where one of the filaments of the bulb is brought to the focus of this lens, an electric circuit for selectively energizing this filament of the bulb and for maintaining the other non-powered filament, a device operating when the first filament ceases to operate to energize the other filament, and a device actuated at the same time as the preceding device operates to move the socket against the device which urges it, so as to bring it <Desc / Clms Page number 16> in a position where the other filament is brought to the focus of the lens. 10.- Balance with optical system with weighing mechanism, characterized in that it comprises in combination, a plug, a screen, a socket capable of receiving an electric bulb provided with two separately energized filaments, a device supporting this socket so as to be able to slide it, a device comprising a lens near this socket for directing the light of a filament under tension so as to project a light beam through this plug in order to form an image on this screen, a device tending to bring the socket into a position where a first filament of this bulb is brought to the focus of the lens, an electric circuit for selectively energizing this first filament of 1- ' bulb and to keep the other filament deactivated, a device acting when the first one stops working to energize the other filament, a device acting at the same time as the preceding device, to move this socket against the action of the device which requests that here to bring it to a position where this other fila- ment is concentrated at the focal point of the lens, and a device energized concurrently with the other filament to indicate that the latter is in operation. 11.- Calculating balance with optical system with weighing mechanism, characterized in that it comprises a device of cards provided with indications of weight, unit prices and calculated values, optical elements for directing light beams through this device of cards, a device for selecting unit prices, a device for coordinating the action of the weighing mechanism and this unit price selection mechanism with the optical elements and this device of cards to ensure the projection of light beams through this device of cards, according to the price unit selected and the particular weight and calculated value thereof, a screen capable of receiving the enlarged readable images of each of these light beams, showing the weight, the unit price and the calculated value, and a single light source to produce all these beams-- of light. 12.- Calculating balance with optical system with weighing mechanism, characterized in that it comprises a device of cards, provided with indications of weight, unit prices and calculated values, optical elements to direct these light beams through this device of cards, a device for coordinating the action of the weighing mechanism and of the unit price selection mechanism with these optical elements and this device of cards for ensuring the projection of light beams through this device sheets according to the unit prices selected and the particular weight as well as the calculated value, a screen capable of receiving enlarged readable images of each of these beams showing the weight, the unit price and the calculated value, a single main source mounted in a predetermined position with respect to these optical elements to produce all these light beams, a reserve light source, and a device acting when the main light source ceases to operate to switch on the light source of reserve and to simultaneously slide this reserve light source into the predetermined position previously occupied by the main light source. se 13.- Calculating balance with optical system with weighing mechanism, characterized in that it comprises a device of cards provided with indications of weight, unit prices and calculated values, optical elements for directing the beams luminous through this device of cards, devices for selecting the unit prices, a device for coordinating the action of this weighing mechanism and of this mechanism for selecting the unit prices with these optical elements and this device of cards for ensure the projection of light beams through this device of cards according to the unit price selected and the particular weight and the corresponding value, a screen both on the buyer's side on the seller's side of the scale, capable of receiving enlarged readable images of each of these beams, showing the <Desc / Clms Page number 17> weight, unit price, and calculated value, and a single light source to produce all of these light beams. 14.- Calculating scale with an optical system with weighing mechanism, characterized in that it comprises in combination a sheet bearing unit price indications, a screen, a light source for projecting an image of this sheet on this screen, a device for manually adjusting this sheet relative to the light source and bringing it into a predetermined position corresponding to a selected unit price, an indicating device combined with this screen and a line on this sheet producing a continuous readable image on this screen, cooperating with the indicating device to continuously indicate the position of this adjustment device. 15.- Calculating balance with optical system with weighing mechanism, characterized in that it comprises in combination a card bearing the indications of unit prices, a screen, a light source for projecting an image of this card on the screen , a device for manually adjusting this plug relative to the light source and bringing it to a predetermined position corresponding to a selected unit price, an indicating device combined with this screen and a device on this card, producing an image on the screen cooperating with the indicating device to indicate the position of this adjustment device during its movement. 16.- Calculating balance with optical system with weighing mechanism, comprising a lever, characterized in that it comprises in combination, a screen, a card provided with indications of calculated values, a device for projecting a light beam at through this sheet so as to form an image of these indications on the screen on the screen, a device for sliding this light beam relative to the sheet in a direction of movement according to a selected unit price, an additional device for slide this light beam with respect to this sheet in a direction perpendicular to the first direction according to the weight of the material, comprising a device connected to this lever and a device acting between this connection device and the additional sliding device to move the latter by an amount proportional to but greater than the stroke of the lever. 17.- Balance of the type described, characterized in that it comprises a frame and a weighing mechanism, a lever capable of moving by following the movement of this weighing mechanism, a plug, a device guiding this during of its movement, a support for this sheet, a roller, a pivot for this roller carried by this lever, and a flexible member wound on this roller and fixed at one end to this frame and at its other end to the support to cause the movement of the latter and of the plug following the movement of the lever and over a distance proportionally greater than the stroke of this lever. 18.- Balance of the type described comprising a frame and a weighing mechanism, characterized in that it comprises in combination a lever arm capable of moving as a result of the movement of the weighing mechanism during the weighing operation, a sheet of movable weight, a support for this plug, a pair of rollers, a caliper straddling this lever arm, a device supporting this caliper on the lever arm, a pivot carried by this caliper for EMI17.1 sUPPcrrEerc-cès-'r.01: reaux '"de-'Jpart -." et' other dè'-de-v> bras1.de; isier ,; a pai1ftead;?;. or- gan 8.l. f1exib1.es:cenrou1és âhunrsür: Un '..qe' .c'.es -r: .Ó: t: r1eaillP: ret sétë.d.teei- en: bas'1rle.npmt> eh d, ', other? .ce.t ci,; ¯c unf .âpasitiLf ant.Nurx.e:, éIBitê .; 11 = de.-¯chacurF: -cecç¯gs:, drgan, ebéf, au, hâssi.-t3,1 '.,: Te. end. at. SS \ 1) P; t '\. Tspt # :: ¯pr.G1loue: cEte; 0dépJacèJf1ent ::' de ,, ('. Té,: iU: t! Pt .-- and. 4th <x4tto> .fiiçhe . to there 's7üitè' due '-. displacement' of - this'. brazier 'and over'a' distance proportionally 'sâpé4e- rieuretà "" xa: course of we' brazed 7.ev, ier -. - .. '' --.'-''- # 1. ¯ ¯ vzw 19.- Calculating balance with optical system with weighing mechanism, characterized in that it comprises in combination a screen, a single light source, a first sheet provided with indications of the calculated values, a <Desc / Clms Page number 18> device controlled by the weighing mechanism to move this sheet in a single block in its plane, a second sheet provided with indications of the unit prices, a cart for this second sheet, capable of moving in a direction parallel to the plane of the first file, a device for directing a first light beam from this light source through this first plug in order to project an image of one of the indications of calculated values on this screen, this device for directing the light beam comprising an optical element fixed to cause this beam to travel a path parallel to the direction of movement of the carriage and a pair of optical elements supported by this carriage on either side of this first plug to direct this light beam from the optical element fixed through this first plug, and then make this beam travel parallel to this direction of movement of the carriage, fixed devices for directing a second beam of this light source through this second plug in order to project an image of one of these unit price indications on this screen, and a device for causing the movement of this carriage in order to slide ser this second card relative to the second bundle according to the selection of the unit price and to slide this first bundle relative to the first card according to the selected unit price. 20.- Calculating balance with optical system, with weighing mechanism, characterized in that it comprises in combination, a first sheet provided with indications of weight and calculated values, a second sheet provided with indications of unit prices, a screen, a single light source, a device for directing a first light beam from this source to the first plug to produce an image of this weight indication on the screen, a device for directing a second light beam from this light source towards this first card in order to project an image of this indication of the value calculated on this screen, a device for directing a third light beam from this source towards the second card in order to project an image of this unit price indication on this screen, a device controlled by the weighing mechanism to adjust the first plug relative to the first beam so as to produce this image of the indication of the weight corresponding to the weight of the material on the scale, a device for selectively adjusting this second plug relative to the third beam according to a selected unit price and a device controlled by this adjustment device to slide this second beam relative to the first sheet so as to produce this image of the indication of the calculated value corresponding to the unit price selected and the weight of the material. 21.- Calculating balance with optical system with weighing mechanism, characterized in that it comprises in combination, a first sheet provided with indications of the weight and calculated values, a second sheet provided with indications of unit prices, a screen on both the buying side and the selling side of the scale, a single light source, a device for directing a first light beam from this source to the first sheet so as to produce images of these weight indications on the two screens , a device for directing a second light beam from this light source towards this first sheet so as to project images of these indications of the calculated value on these two screens, a device for directing a third light beam from this source to the second plug so as to project images of these unit price indications * on these two screens, a device controlled by this weighing mechanism to adjust the first plug by - port to the first beam so as to produce these images of the indication of the weight of the material deposited on the balance, a device for selectively adjusting this second sheet with respect to the third light beam according to a selected unit price, and a device controlled by the adjustment device for sliding this second beam with respect to the first sheet so as to produce the images of the indication of the calculated value corresponding to the selected unit price and to the weight of the material. 22.- Calculating balance with optical system, with weighing mechanism, characterized in that it comprises a screen, a plug device on <Desc / Clms Page number 19> which are indicated several series of data, a device forming a series of light beams to project images of these series of indications or data on this screen in relatively close positions, a device for sliding one of these beams relative to the pin device and thus vary the distance of the path of this beam from the pin device to the screen, an adjustable baffle device located in the path of this beam from the pin device to the screen for adjusting the width of the portion of this beam reaching this screen and a device operating in response to the operation of the slider to adjust this device. baffle tif in order to maintain the surface on this screen which receives the light from the light beam in a substantially uniform manner for all the focusing of this sliding device. 23.- Calculating balance with optical system with weighing mechanism, characterized in that it comprises a screen, a card device carrying several series of indications, a device forming a series of light beams to protect the images from series of indications on this screen in relatively close positions, a device for sliding one of these beams relative to the pin device according to one of these selected indications and thus varying the length of the path of this beam from the device to sheets to this screen., a baffle comprising a pair of suitably spaced screens forming between them a slot for the passage of this beam, a device allowing the baffle to be mounted so as to make it rotate in the path of one of the harnesses from this plug-in device to this screen, to vary the effective width of this slit with respect to the beam and a device acting in response to the operation of the sliding device to cause the rotation of the baffle so as to maintain on this screen the surface receiving the light of this beam d 'in a substantially uniform manner, for all the tunings of. this sliding device. 24.- Calculating balance with optical system with. weighing mechanism, characterized in that it comprises a screen, a card device carrying a series of rows of indications, a device forming a series of light beams for projecting images of these rows of indications on the screen in relatively close positions, a device comprising a rotating shaft for sliding one of these beams relative to the pin device and thereby varying the distance or the length of the path of this beam from the pin device to the screen, an adjustable baffle device, located in the path of this beam from the pin device to the screen and forming a slit to limit the part of this beam reaching the screen ,, a device for adjusting this baffle device so as to vary the effective width of this slit, depending on this length of the path of the beam, and a device establishing a positive connection between this shaft and this variation device to adjust the baffle following the positioning of the sliding device so as to maintain on this screen the surface receiving the light of the beam in a substantially uniform manner for all the adjustments of the device ensuring the sliding. 25.- The new characteristics in substance as they are described and represented.