CN211824695U - High-precision electronic analysis metering device - Google Patents

Abstract

The utility model discloses a high accuracy electronic analysis metering device relates to the electronic analysis field, box at the bottom of supporting, a side level of box at the bottom of supporting is fixed to be docked has the oblique box of operation, the bottom surface bolted connection of the oblique box of operation has the anti-skidding heelpiece, the side of box at the bottom of supporting has seted up the jack that charges, it has the power cord to support a side grafting of box at the jack of keeping away from charging at the bottom, the top surface of the oblique box of operation is inlayed and is had display screen, the top surface of the oblique box of operation is inlayed and is set up the button, the top surface of box at the bottom of supporting upwards has buckled the sealed cowling perpendicularly, the top surface level of box at the bottom of supporting is pegged graft and is had the supporting layer board, the top surface. The device of the utility model is simple in structure convenient operation, adopted multi-direction scanning effect to make more accurate to the measurement of material, adopted multiple mode to make the environment that is more fit for multiple to use simultaneously at power supply mode.

Description

High-precision electronic analysis metering device

Technical Field

The utility model relates to an electron analysis technical field specifically is a high accuracy electron analysis metering device.

Background

The electronic balance has the advantages of simple operation, accurate and reliable weighing and the like, and is rapidly and widely applied to the aspects of industrial production, scientific research, trade and the like. However, since the metering performance of the electronic balance may change after a certain period of use, the national regulations require regular verification of the performance.

When weighing the electronic balance, the traditional electronic balance is simply used for weighing, and does not have the functions of recording, analyzing and metering the weighed object, so that the later weighing or recording and searching are not carried out according to reference, the same object needs to be reweighed, and the work is repeated and has no high efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high accuracy electronic analysis metering device to the traditional electronic balance who proposes in solving above-mentioned background is the simple weight effect of weighing, does not have the object of weighing to take notes the analysis and carry out the function of measuring, has leaded to the later stage to weigh or does not refer to when the record is seeked and reference the basis, makes still need weigh again the same object, lets the work appear the repetition and do not have the problem of high efficiency.

In order to achieve the above object, the utility model provides a following technical scheme:

a high-precision electronic analysis metering device comprises a supporting bottom box, wherein an operation inclined box is horizontally and fixedly butted on one side edge of the supporting bottom box, an anti-slip bottom cushion is connected to the bottom surface of the operation inclined box through a bolt, a charging jack is arranged on the side edge of the supporting bottom box, a power line is inserted into one side edge of the supporting bottom box far away from the charging jack, a display screen is embedded on the top surface of the operation inclined box, a set button is embedded on the top surface of the operation inclined box, a sealing cover is vertically and upwards buckled on the top surface of the supporting bottom box, a supporting plate is horizontally inserted into the top surface of the supporting bottom box, a supporting vertical pipe is vertically and upwards fixedly inserted into the top surface of the supporting bottom box close to one side edge, a sliding cross rod is horizontally clamped on the outer side edge of the supporting vertical pipe, a clamping groove is horizontally arranged on the top surface, the utility model discloses a horizontal scanning device, including sealed cowling, bottom box, supporting support layer board, top box, bottom end bolted connection, infrared scanner, horizontal slide bar, bottom box, gravity induction block, main power supply, control mainboard, the inboard side bolted connection of operation oblique box, the inboard side of sealed cowling is close to the fixed grafting of top end level and has supported violently the pipe, the outside limit level that the horizontal slide bar was cup jointed to the support is violently managed, the inside bottom surface level that supports the bottom box and operate oblique box is provided with the main power supply, the bottom position bolted connection that the top surface of main power supply is close to the support layer board has the gravity-feed tank, the top surface bolted connection of main.

As a preferred embodiment of the present invention: the inside of the oblique box of operation keeps the expert with the inside of supporting the end box and connects, and the number of anti-skidding heelpiece is four, and four anti-skidding heelpieces are fixed the setting respectively and are close to the corner position in the bottom surface of supporting the end box and operating the oblique box, and the anti-skidding heelpiece adopts the preparation of stereoplasm rubber material.

As a preferred embodiment of the present invention: the jack that charges runs through the outside limit that supports end box and extends to inside, and extends to the inboard that interior end metal strip and main power supply keeps electric connection, and the one end of power cord runs through the outside limit that supports end box and extends to inside, and extends to interior end and control mainboard and keeps electric connection.

As a preferred embodiment of the present invention: display screen and the top surface that sets up the oblique box of operation that runs through of one side of button extend to inside, and extend to inside end and the inside that sets up the mainboard and keep electric connection, the sealed cowling adopts transparent inferior gram force board preparation, and the inboard edge of one side of sealed cowling is stained with and is pasted the barrier film, and the sealed cowling is provided with the opening at a side that is close to the oblique box of operation.

As a preferred embodiment of the present invention: the bottom of support plate runs through the top surface that supports end box and extends to inside, and extend to interior end and peg graft in the inboard side position of gravity response piece, the top surface central point that support plate level set up at the end box of supporting puts, the number of supporting the riser is two, and two mutual parallel arrangement of supporting the riser are in the top surface position of supporting end box, the bottom of two supporting the riser runs through the top surface that supports end box and extends inside and keep leading to with inside and connect, the top vertical fixation of two supporting the riser is pegged graft and is close to a side position at the top surface of sealed cowling.

As a preferred embodiment of the present invention: the top surface of slip horizontal pole and support end box keeps parallel arrangement, and both ends cup joint the outside limit at two spinal branch stay pipes, the number in scanning hole is a plurality of, and a plurality of scanning holes are a style of calligraphy level and offer at the slip horizontal pole and be close to the barrier film side of sealed cowling, the number of supporting violently the pipe be two and with two spinal branch stay pipes between mutually perpendicular set up, horizontal sliding rod's inside keeps unanimous with the inside of slip horizontal pole, a side butt joint of drive block is in the outside limit position of supporting the riser and supporting violently the pipe, and the drive block, infrared scanner, the setting mainboard, the control mainboard, the scanning receiving block, gravity response piece and main power supply are through electric connection each other.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the small and exquisite transport and the removal of being convenient for of structure through the design, make stably to place under the effect of the anti-skidding heelpiece of bottom surface and can not take place the removal effect, the power supply mode has adopted the diversification, make and use in can satisfying multiple environment, make when the material extrudees the supporting plate to carry out the inside that the gravity numerical value entered into the control mainboard of weighing out under the response of the gravity response piece of bottom, make to enter into the inside that sets up the mainboard after data processing and show in the inside of display screen.

2. Infrared scanner runs through the material to the intermediate position from scanning the hole and scans the effect, the slip horizontal pole at the side scans the height of material, and horizontal sliding bar scans the width of material, data transmission after the scanning receives the inside of piece to the scanning, make data transmission show the inside at display screen after controlling mainboard internal processing, carry out record effect to the material under the effect that sets up the mainboard, device simple structure convenient operation, it makes more accurate to the measurement of material to have adopted multi-direction scanning effect, multiple mode has been adopted at the power supply mode simultaneously and has made the environment that is more fit for multiple to use.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic perspective view of a high-precision electronic analysis and measurement device;

FIG. 2 is a schematic structural view of a sectional detail of a supporting bottom case of the high-precision electronic analysis and measurement device;

FIG. 3 is a schematic structural diagram of a cross-section connection detail of a sliding cross-bar of a high-precision electronic analysis and measurement device;

FIG. 4 is a schematic structural diagram of a cross-sectional detail of a sealing cover of a high-precision electronic analysis metering device.

In the figure: 1-supporting a bottom case; 2-operating the inclined box; 3-anti-slip bottom mat; 4-a charging jack; 5-a power line; 6-display screen; 7-setting a key; 8-sealing cover; 9-supporting the supporting plate; 10-supporting a riser; 11-a sliding rail; 12-a clamping groove; 13-scanning the hole; 14-horizontal supporting tubes; 15-horizontal sliding bar; 16-a main power supply; 17-a gravity sensing block; 18-scan the receive block; 19-control the main board; 20-setting a main board; 21-an infrared scanner; 22-drive block.

Detailed Description

Referring to fig. 1, in an embodiment of the present invention, a high-precision electronic analysis and measurement apparatus includes a supporting bottom case 1, an operation slant case 2 is horizontally and fixedly butted on one side of the supporting bottom case 1, an anti-slip bottom pad 3 is bolted on the bottom surface of the operation slant case 2, the inside of the operation slant case 2 is communicated with the inside of the supporting bottom case 1, the number of the anti-slip bottom pads 3 is four, and the four anti-slip bottom pads 3 are respectively and fixedly disposed on the bottom surfaces of the supporting bottom case 1 and the operation slant case 2 near the corners, the anti-slip bottom pad 3 is made of hard rubber, the side of the supporting bottom case 1 is provided with a charging jack 4, the supporting bottom case 1 is inserted with a power line 5 on the side far from the charging jack 4, the charging jack 4 extends to the inside through the outer side of the supporting bottom case 1, and extends to the inner side of the main power source 16 and electrically connects to the inner side of the inner end metal strip, one end of the power line 5, the top surface of the operation inclined box 2 is embedded with a display screen 6, the top surface of the operation inclined box 2 is embedded with a set key 7, the top surface of the support bottom box 1 is vertically and upwards buckled with a sealing cover 8, the display screen 6 and one side edge of the set key 7 penetrate through the top surface of the operation inclined box 2 to extend into the interior, and the display screen and the one side edge of the set key 7 extend into the interior, the top surface of the support bottom box 1 is horizontally inserted with a support supporting plate 9, the top surface of the support bottom box 1 is vertically and upwards fixed with a support vertical pipe 10 close to one side edge, the bottom end of the support supporting plate 9 penetrates through the top surface of the support bottom box 1 to extend into the interior, and the inner end extends to the position of the inner side edge of a gravity sensing block 17, the supporting support plate 9 is horizontally arranged at the center of the top surface of the supporting bottom box 1, the number of the supporting vertical pipes 10 is two, the two supporting vertical pipes 10 are arranged at the top surface of the supporting bottom box 1 in parallel, the bottom ends of the two supporting vertical pipes 10 penetrate through the top surface of the supporting bottom box 1 to extend into the supporting bottom box and are communicated with the inside of the supporting bottom box, the top ends of the two supporting vertical pipes 10 are vertically and fixedly inserted at the top surface of the sealing cover 8 and are close to one side edge, the outer side edge of the supporting vertical pipe 10 is horizontally clamped with a sliding cross rod 11, the sliding cross rod 11 is arranged in parallel with the top surface of the supporting bottom box 1, the two ends of the sliding cross rod are sleeved at the outer side edges of the two supporting vertical pipes 10, the top surface of the sliding cross rod 11 is horizontally provided with a clamping groove 12, one side edge of the sliding cross rod 11 is uniformly provided, the scanning holes 13 are horizontally arranged on one side edge of the sliding cross rod 11 close to the isolating membrane of the sealing cover 8 in a straight line shape, the number of the supporting transverse pipes 14 is two, the supporting transverse pipes are perpendicular to the two supporting vertical pipes 10, the outer side edge of each supporting transverse pipe 14 is horizontally sleeved with a horizontal sliding rod 15, and the interior of each horizontal sliding rod 15 is consistent with that of the sliding cross rod 11;

referring to fig. 2, in an embodiment of the present invention, a high-precision electronic analysis and metering device, wherein a main power source 16 is horizontally disposed on the bottom surfaces of a supporting bottom box 1 and an operating inclined box 2, a gravity sensing block 17 is bolted to the bottom end of the main power source 16 near a supporting pallet 9, a scanning receiving block 18 is bolted to the top surface of the main power source 16, a control main board 19 is bolted to the top surface of the main power source 16, and a setting main board 20 is bolted to the inner side edge of the operating inclined box 2;

referring to fig. 3-4, in an embodiment of the present invention, a high-precision electronic analysis and measurement apparatus, wherein the inner sides of the sliding horizontal rod 11 and the horizontal sliding rod 15 are fixedly clamped with an infrared scanner 21, the two ends of the sliding horizontal rod 11 and the horizontal sliding rod 15 are fixedly clamped with driving blocks 22, one side of the driving block 22 is butted at the outer sides of the supporting vertical tube 10 and the supporting horizontal tube 14, and the driving block 22, the infrared scanner 21, the setting main board 20, the control main board 19, the scanning receiving block 18, the gravity sensing block 17 and the main power supply 16 are electrically connected to each other.

The components are standard parts in general or known to those skilled in the art, and their structure and principle are known to those skilled in the art through technical manuals or through routine experimentation.

The utility model discloses a theory of operation is:

the supporting bottom box 1 and the operation inclined box 2 are placed on a desktop together, the materials are stably placed without moving under the action of an anti-skidding bottom pad 3 on the bottom surface, the materials extend to the inside from the open end of a sealing cover 8 and are placed on the top surface of a supporting plate 9 on the top surface of the supporting bottom box 1 when a power cord 5 is electrified or the power is supplied by a main power supply 16, the gravity numerical values are weighed under the induction of a gravity induction block 17 at the bottom end when the materials extrude the supporting plate 9 and enter the inside of a control main board 19, the gravity numerical values enter the inside of the setting main board 20 after data processing and are displayed in the inside of a display screen 6, and meanwhile, under the control of the control main board 19 under the setting of a key 7, a driving block 22 rotates to drive a sliding cross rod 11 and a horizontal sliding rod 15 to move on the outer sides of a corresponding supporting vertical pipe 10 and a corresponding supporting transverse pipe 14, make and drive inside infrared scanner 21 and run through the material to the intermediate position from scanning hole 13 and scan the effect, the slip horizontal pole 11 at the side scans the height of material, and horizontal sliding rod 15 scans the width of material, data transmission after the scanning receives the inside of piece 18 to the scanning for data transmission shows the inside at display screen 6 after 19 internal processing of control mainboard, carry out record action to the material under the effect that sets up mainboard 20.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A high-precision electronic analysis metering device comprises a supporting bottom box (1) and is characterized in that an operation inclined box (2) is horizontally and fixedly butted on one side edge of the supporting bottom box (1), an anti-skidding bottom pad (3) is connected to the bottom surface of the operation inclined box (2) through a bolt, a charging jack (4) is arranged on the side edge of the supporting bottom box (1), a power line (5) is inserted into one side edge of the supporting bottom box (1) far away from the charging jack (4), a display screen (6) is embedded into the top surface of the operation inclined box (2), a set key (7) is embedded into the top surface of the operation inclined box (2), a sealing cover (8) is vertically and upwardly buckled on the top surface of the supporting bottom box (1), a supporting plate (9) is horizontally inserted into the top surface of the supporting bottom box (1), a supporting vertical pipe (10) is vertically and upwardly fixed near one side edge of the supporting bottom box (1, the device is characterized in that a sliding cross rod (11) is horizontally clamped at the outer side edge of the supporting vertical pipe (10), a clamping groove (12) is horizontally formed in the top surface of the sliding cross rod (11), a scanning hole (13) is uniformly formed in one side edge of the sliding cross rod (11), a supporting transverse pipe (14) is horizontally and fixedly inserted at the inner side edge of the sealing cover (8) close to the top end, a horizontal sliding rod (15) is horizontally sleeved at the outer side edge of the supporting transverse pipe (14), a main power source (16) is horizontally arranged on the inner bottom surfaces of the supporting bottom box (1) and the operation inclined box (2), a gravity sensing block (17) is bolted at the bottom end position of the top surface of the main power source (16) close to the supporting plate (9), a scanning receiving block (18) is bolted at the top surface of the main power source (16), a control mainboard (19) is bolted at the top surface of the main, the infrared scanner is characterized in that the inner side edges of the sliding cross rod (11) and the horizontal sliding rod (15) are fixedly clamped with infrared scanners (21), and the two ends of the sliding cross rod (11) and the horizontal sliding rod (15) are fixedly clamped with driving blocks (22).

2. A high accuracy electronic analysis metering device according to claim 1, characterized in that the inside of the operation inclined box (2) is connected with the inside of the supporting bottom box (1), the number of the anti-skid bottom pads (3) is four, and the four anti-skid bottom pads (3) are respectively fixed on the bottom surfaces of the supporting bottom box (1) and the operation inclined box (2) near the corner position, and the anti-skid bottom pads (3) are made of hard rubber material.

3. A high accuracy electronic analysis meter according to claim 1, characterized in that the charging jack (4) extends through the outer side of the supporting base case (1) to the inside, and extends to the inner end of the metal strip to electrically connect with the inner side of the main power supply (16), and one end of the power line (5) extends through the outer side of the supporting base case (1) to the inside, and extends to the inner end to electrically connect with the control mainboard (19).

4. The high-precision electronic analysis metering device of claim 1, characterized in that the display screen (6) and one side edge provided with the keys (7) extend to the inside through the top surface of the operation tilting box (2) and extend to the inner end to be electrically connected with the inside provided with the main board (20), the sealing cover (8) is made of a transparent acrylic plate, the inner side edge of one side edge of the sealing cover (8) is pasted with a separation film, and the sealing cover (8) is provided with an opening at one side edge close to the operation tilting box (2).

5. A high accuracy electronic analysis and metering device as claimed in claim 1, wherein the bottom end of the supporting plate (9) extends through the top surface of the supporting bottom case (1) to the inside and extends to the inner side position where the inner end is inserted into the gravity sensing block (17), the supporting plate (9) is horizontally disposed at the center position of the top surface of the supporting bottom case (1), the number of the supporting vertical pipes (10) is two, the two supporting vertical pipes (10) are disposed in parallel with each other at the top surface position of the supporting bottom case (1), the bottom ends of the two supporting vertical pipes (10) extend through the top surface of the supporting bottom case (1) to the inside and are connected with the inside, and the top ends of the two supporting vertical pipes (10) are vertically fixed and inserted into the top surface of the sealing cover (8) near to one side edge position.

6. The high-precision electronic analysis metering device according to claim 1, wherein the sliding cross bar (11) and the top surface of the supporting bottom box (1) are arranged in parallel, two ends of the sliding cross bar are sleeved on the outer side edges of the two supporting vertical pipes (10), the number of the scanning holes (13) is several, the scanning holes (13) are horizontally arranged in a straight line shape on one side of the sliding cross bar (11) close to the isolating membrane of the sealing cover (8), the number of the supporting horizontal pipes (14) is two and is arranged perpendicular to each other between the two supporting vertical pipes (10), the inside of the horizontal sliding rod (15) is consistent with the inside of the sliding cross bar (11), one side of the driving block (22) is butted at the outer side positions of the supporting vertical pipes (10) and the supporting horizontal pipes (14), and the driving block (22), the infrared scanner (21), the setting main board (20), the control main board (19), The scanning receiving block (18), the gravity sensing block (17) and the main power supply (16) are electrically connected with each other.

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