CN114572532B - Electric energy meter based on artificial intelligence adjustable interval and collection equipment packing box - Google Patents

Abstract

The invention provides an artificial intelligence interval-adjustable electric energy meter and acquisition equipment packing box, which comprises a box body and a box cover, wherein the inner wall of the box body is provided with a second mark, the electric energy meter and acquisition equipment packing box further comprises a direct sliding guide rail, a plurality of electric energy meters and acquisition equipment grids which are provided with a first mark and can be matched with the second mark, a fixing piece and a two-dimensional code, wherein the top of the direct sliding guide rail is provided with a plurality of fixing holes along the extending direction of the guide rail, and two ends of the direct sliding guide rail can be detachably connected to the inner wall of the box body respectively. The matching mode of the first and second identifications which are adopted by the specific multiple electric energy meters and the acquisition equipment grids is obtained through two-dimension code scanning, so that the grid intervals of the electric energy meters and the acquisition equipment are flexibly and dynamically adjusted, and the design cost and the material consumption are saved.

Description

Electric energy meter based on artificial intelligence adjustable interval and collection equipment packing box

Technical Field

The invention relates to an electric energy meter and acquisition equipment packaging box, in particular to an electric energy meter and acquisition equipment packaging box with adjustable intervals based on artificial intelligence, and belongs to the field of intelligent packaging.

Background

The existing electric energy meter and collection equipment packaging box adopts a multi-compartment lining formed by pressing a specific die and used for packaging a plurality of electric energy meters and collection equipment, and before the electric energy meters and the collection equipment leave the factory, the electric energy meters and the collection equipment can be finally packaged and leave the factory after the electric energy meters and the collection equipment need to be put on line to grasp the upper tester through a manipulator to detect whether the operation is qualified or not. However, although the electric energy meter and the housing of the collecting device can have uniform size standards, the interval between lining cells in the case of each region is not uniform, and the manipulator is often designed to be adapted to the respective specified size. When the user unit in different places needs to recheck, the lining interval is not matched with the grabbing position designed by the manipulator, so that the user unit cannot go on line smoothly for recheck. This requires redesigning the package and liner to meet the batch review, resulting in a cost of package resources. Even if the liners with different cell intervals are produced and distributed to corresponding areas according to the size requirement, the design of a plurality of molds for the pressing molds in the production and boxing links is considered, so that the complexity of manufacturing and management is increased, and the difficulty of quality control is improved.

The rocker arm mechanical arm is used, the accurate grabbing of the electric energy meter and the acquisition equipment is achieved by programming and adjusting the grabbing position, however, the cost of detection is increased linearly due to the fact that the rocker arm mechanical arm is very expensive. If a plurality of electric energy meters and acquisition equipment are considered to be simultaneously grabbed, a plurality of mechanical arms are needed, or a special gripper is utilized to grab a plurality of groups of electric energy meters and acquisition equipment corresponding to one mechanical arm, the gripper is still needed to be additionally designed on the basis of purchasing the mechanical arms, and the research and development cost of detection is obviously improved.

Therefore, how to design an electric energy meter, an acquisition equipment packing box and a lining which are cheap and can change the interval between lining grids adaptively is an urgent need to be solved based on the current situation of different manipulator specifications in each area, and the grasping link is kept unchanged.

Disclosure of Invention

In order to solve the problems, the invention provides an electric energy meter and acquisition equipment packing box based on an artificial intelligence adjustable interval, which comprises a box body and a box cover, and is characterized by further comprising a straight sliding guide rail, a plurality of equipment grids, a fixing piece and a two-dimension code, wherein the top of the straight sliding guide rail is provided with a plurality of fixing holes along the extending direction of the guide rail, two ends of the straight sliding guide rail can be detachably connected to the inner wall of the box body respectively,

Each electric energy meter and collection equipment grid comprises a top cover grid and an equipment grid, wherein the top cover grid and the equipment grid are respectively used for placing an electric energy meter and collection equipment top cover and an equipment host, the bottoms of the electric energy meter and collection equipment grids are provided with sliding blocks which can be detachably matched with the straight sliding guide rails, the side parts extend out of extension parts, the extension parts are provided with connecting holes which can be communicated with the fixing holes so as to enable the fixing parts to penetrate through and pass through the fixing holes, and therefore when each electric energy meter and collection equipment grid slides on the straight sliding guide rails to enable the connecting holes to be communicated with the fixing holes, each electric energy meter and collection equipment grid can be fixed at the tops of the straight sliding guide rails through the fixing parts.

It will be appreciated that at least it is possible to implement that all of the slides can be slid out of the rail from the straight slide rail next to the mating sleeve slide rail and then back to the slide rail next to the slide rail after the straight slide rail is removed from the inner wall of the housing (e.g., using a dovetail design).

The two-dimensional code is used for displaying the guide information of the positions of the fixing holes where the electric energy meter and the acquisition equipment are to be fixed on the scanning terminal after being scanned, so that a worker can slide each electric energy meter and the acquisition equipment according to the guide information to adjust the positions of the electric energy meter and the acquisition equipment, and the connecting holes are aligned to the corresponding fixing holes according to the guidance of the guide information, and the fixing piece is used for penetrating through the electric energy meter and the acquisition equipment to achieve fixing.

It will be appreciated that the fixing is only required to enable positioning, and does not require a strong immobility of the ammeter, the collection device cell, which is created by the fixing. In fact, the fixing member has a certain fixing property by penetrating through the two holes. Only an interference fit, for example, is required, the fastener is not easily disengaged from the hole, and there is typically no external force to easily effect such disengagement. In addition, the gravity of electric energy meter, collection equipment host computer and top cap also can be with electric energy meter, collection equipment division is towards direct sliding guide rail top pushes down and be difficult for producing and remove.

Preferably, the plurality of fixing holes have the same pitch or at least two pitches different from each other.

Preferably, the inner wall of the box body detachably connected with the straight sliding guide rail is a double-layer hollow wall, the two inner walls of the innermost layer are provided with insertion holes, and two ends of the straight sliding guide rail are provided with foldable insertion tongues which are used for enabling the sliding block to be sleeved in and slide out when being stretched or folded to be consistent or opposite to the extending direction of the straight sliding guide rail, and can be inserted into the insertion holes to be detachably connected with the inner wall of the box body.

Preferably, each electric energy meter and collection equipment division has a first mark, the inner wall adjacent to the inner wall of the box body is detachably connected with the straight sliding guide rail is provided with a second mark, when each electric energy meter and collection equipment division bottom sliding block moves on the straight sliding guide rail, the first mark can be matched with the corresponding second mark according to the indication of the guiding information, and after the matching is completed, the connecting hole can be communicated with the corresponding target fixing hole, and the connecting hole and the corresponding target fixing hole are fixed by penetrating through the fixing piece, so that the division interval requirement of the area where the box body is located is met. The following definition of matching with respect to identity is the same.

More preferably, the first mark is a first geometric figure arranged at one end of each power meter and collecting equipment cell, and most preferably, the first geometric figure is a first arrow. The second marks are provided with a plurality of groups which are the same as the electric energy meter in number, and each group of the second marks is provided with a plurality of second geometric figures which are arranged along the direction of the straight sliding guide rail.

Preferably, the second geometry in each of the plurality of groups is distinguished using a different color, text, graphic, or combination thereof, more preferably the second geometry is a second arrow, the first geometry and the second geometry being capable of completing the matching, or when the first arrow and the second arrow are pointed to one another to complete the matching.

Most preferably, the second arrow is distinguished using a different color, textual identification, graphic, or combination thereof.

Preferably, the fixing member is stored by a packing bag and is disposed outside the case by a first arrangement. And when the packaging bag is required to be used, the packaging bag is taken down from the box body, and then the fixing piece is taken out.

Preferably, the fixing member comprises a flat head bolt, the flat head bolt comprises a bolt rod and a bolt head arranged at one end of the bolt rod, so that the flat head bolt can be conveniently inserted and pulled out from the connecting hole and the fixing hole.

More preferably, the number of the fixing members is not less than the number of the connecting holes. To prevent loss and use of redundant spare fasteners instead.

Preferably, the two-dimensional code is disposed outside the case by a second arrangement.

Preferably, the first arrangement is an adhesive arrangement and/or a binding arrangement, and the second arrangement is a code spraying or a paste.

More preferably, a protective cover with an opening connected with the case is provided around the first-provided package to protect the package. Therefore, the probability of losing the fastener caused by unexpected damage of the packaging bag due to falling-off and losing of the packaging bag caused by various external force factors can be reduced. The worker can take the package from the case through the opening.

Preferably, the two-dimensional code and the packaging bag are arranged on the same side face of the box body.

Preferably, the electric energy meter and collection equipment packaging box further comprises a pair of gaskets which can be inserted into the middle hollow part of the double-layer hollow wall and are used for tightly pressing the inserting tongue on the outer side surface of the inner wall of the innermost layer, so that the straight sliding guide rail is firmly connected to the double-layer hollow wall.

More preferably, the pair of pads are provided with a grip for facilitating removal of the pads from the hollow portion.

Most preferably, the pad is made of a porous elastic material.

Preferably, the materials of the box body, the box cover and the straight sliding guide rail, the electric energy meters and the collecting equipment grids are the same, or the materials of the box body, the box cover and the straight sliding guide rail, the electric energy meters and the collecting equipment grids are the same, and the fixing pieces are plastic pieces.

In one embodiment, the process of obtaining the guiding information includes the following steps:

(1) Scanning the two-dimensional code by using the scanning terminal, and identifying by an application program app installed on the scanning terminal;

(2) And the scanning terminal displays the guide information on the scanning terminal according to the identification result.

The guidance information comprises information for guiding the first identifier and the second identifier to be matched, and data information of the interval between the electric energy meter and the acquisition equipment grids.

For example, when the first identifier and the second identifier are respectively a first arrow and a second arrow, the information that the first identifier and the second identifier match is information that, on the scanning terminal, the first arrow should be matched with the second arrow that is distinguished by a color, a text identifier, a graphic or a combination thereof, the information that the first arrow matches is displayed on the scanning terminal.

Preferably, the two-dimensional code is a plurality of exclusive two-dimensional codes specially designed for different regions, the corresponding exclusive two-dimensional code is arranged on the box according to the region where the box is to be sent to, and after the exclusive two-dimensional code is scanned, an artificial intelligent model is adopted in the app to identify the region where the scanned two-dimensional code is located, so that the guiding information is obtained.

Preferably, the artificial intelligence model comprises a convolutional neural network, a depth residual network and a support vector machine.

Preferably, the scanning terminal is a smart phone.

It can be appreciated that the invention does not print the instruction information directly in the box body, but adopts the online artificial intelligence recognition scheme of the participation of the Internet, and can be suitable for dynamic real-time instruction in future interval change.

Advantageous effects

1. The direct sliding guide rail is led into the inside of the packing box, the interval between each division is adjustable through the sliding fit of the division, and the problem that the division intervals of the packing box in each region are different is solved.

2. The two-dimensional code is adopted to scan and identify the areas of the packaging box, so that guidance of intervals of the cells is given, and products sent to each area can be adjusted in a targeted manner.

3. The direct sliding guide rail and the division grid are detachably arranged, and the compression fixed guide rail of the gasket can realize the replacement of the direct sliding guide rail and the division grid, and the division grid with different electric energy meters and the collection equipment shell shapes is convenient to replace.

4. The online artificial intelligence recognition scheme with participation of the Internet can be suitable for dynamic real-time guidance of future interval changes.

5. The detection and boxing can be managed in a unified and intelligent manner through app development.

Drawings

Fig. 1 is a right-side view schematic diagram of a packaging box for an electric energy meter and a collection device according to embodiment 1 of the present invention, wherein B is a view of a protective cover in rear view, the leftmost part of the figure shows a structure of a fixing member,

Fig. 2 is a schematic front sectional view according to the direction A-A' in fig. 1, in which the direction r of mounting the straight slide rail is shown, only left and right end portions of the schematic front sectional view are shown in an interrupted manner,

FIG. 3 is a top view of FIG. 1 with the cover removed, again showing portions of the power meter, the collection device compartment in an interrupted fashion, with an enlarged exemplary portion of the power meter and the collection device package rear wall upper ring C, showing four second arrows differentiated by the letters abcd; below is an enlarged part of the circle D,

Fig. 4 is a schematic view of the slider and dovetail rail of fig. 3, showing the tongue being foldable in the direction of the double arrow,

Fig. 5 is a schematic view showing a process in which a gasket on the right side is inserted into the hollow portion of the double hollow wall by a downward arrow after the cover is removed in fig. 2, wherein the left side is before insertion, the right side is after insertion,

Fig. 6 is a schematic view of a scenario before and after the smart phone scans the proprietary two-dimensional code of the city W in fig. 1, wherein the left diagram is a scenario when scanning, the right diagram is that guiding information is exemplarily displayed on the smart phone after scanning,

The electric energy meter and collecting equipment packing box comprises the following components of a reference numeral 1, a box body, a box cover 3, a box cover 4, a straight sliding guide rail 5, an electric energy meter and collecting equipment grid, 6, a two-dimensional code or a special two-dimensional code, 7, a fixing hole, 8, an inserting tongue 9, an inserting hole 10, a double-layer hollow wall 11, a packing bag 12, a protection cover 13, a grabbing hole 14, a top cover grid 15, an electric energy meter and collecting equipment grid 16, an extension part 17, a connecting hole 18, a first arrow, 19, a sliding block 20, a dovetail groove and a liner 21.

Detailed Description

Example 1

As shown in fig. 1-5, the electric energy meter and collection device packaging box 1 based on the artificial intelligence adjustable interval provided by the embodiment comprises a box body 2 and a box cover 3, and is characterized in that the electric energy meter and collection device packaging box 1 further comprises a straight sliding guide rail 4, more than 4 electric energy meters and collection device partitions 5 (interruption and omission in the figure), fixing pieces with bolt heads and bolt rods, and two-dimensional code 6 adhesive paper adhered to the right side wall of the box body 2, wherein a plurality of fixing holes 7 are formed in the top of the straight sliding guide rail 4 along the extending direction of the guide rail, and inserting tongues 8 are arranged at two ends of the straight sliding guide rail.

The two sides of the box body 2 are double-layer hollow walls 10, wherein the innermost layer is provided with a jack 9 for inserting the inserting tongue 8, one inserting tongue can be firstly inserted into one jack, and the guide rail is lowered in the schematic rotation direction of an arrow r, so that the other inserting tongue can be inserted into the other jack. Fig. 2 shows the installation mode of the guide rail when the electric energy meter and the collecting equipment grid 5 are not installed, and the installation mode can be also used when the electric energy meter and the collecting equipment grid 5 are installed.

The packaging bag 11 of 5 fixing pieces is adhered to the right side wall of the double-layer hollow wall of the box body 1 through double-sided adhesive, a foldable protective cover 12 capable of being recovered and placed in the direction of double arrows shown in a diagram B in fig. 1 is arranged on the right side wall, the protective cover 12 is lowered into an opening, and the packaging bag 11 can be removed through the opening so as to be opened and taken out of 5 fixing pieces. For convenient manual carrying, the right side wall is also provided with a pair of grabbing holes 13

Referring to fig. 3, each of the power meter and collection device compartments 5 includes a top cover compartment 14 and a power meter and collection device compartment 15 for placing a power meter, a collection device top cover and a device host (not shown), respectively. The left side of each power meter, collecting device compartment 5 has an extension 16 with a connecting hole 17 which can be connected to the fixing hole 7 (enlarged part shown in the lower circle D of fig. 3).

The upper left corner of the electric energy meter and acquisition equipment division 5 is provided with a first arrow 18, and the schematic part of the rear side face of the box body 2 adjacent to the double-layer hollow inner wall 10, which is shown by a circle C, is provided with four second arrows and is distinguished in sequence by adopting subtitles abcd.

As shown in fig. 4, the straight sliding guide rail 4 is a dovetail sliding rail, and a slide 19 is mounted at the bottom of each of the power meter and the collecting device grids 5 (not shown), and the slide 19 is provided with a dovetail groove 20 matched with the dovetail

As shown in fig. 4, the tongue 8 can be folded back in the direction of the double arrow shown. The tongue may be first unfolded, the slider 19 is moved according to the direction of the single arrow, the tongue 8 is passed through the dovetail groove 20 of the slider 19, and then the movement is continued so that the dovetail groove 20 is engaged with the dovetail rail, and in this way each of the electric energy meters and the collecting device cells 5 is sleeved into the straight sliding rail 4 (or may be slid out in the opposite direction), and then the straight sliding rail 4 may be installed according to the installation method of fig. 2.

Thereafter, when each of the electric energy meter and the collecting device cell 5 slides on the straight sliding guide rail 4 so that the connecting hole 17 is communicated with the fixing hole 7, each of the electric energy meter and the collecting device cell 5 can be fixed on the top of the straight sliding guide rail 4 by penetrating the fixing pieces shown in fig. 1.

Next, as shown in fig. 5, the electric energy meter and collection device packing case 1 further includes a pair of pads 21 (only one pad on the right side of the case 2 is shown in the drawing by way of example) made of porous elastic material provided with a gripping portion, which can be inserted into the middle hollow portion of the double-layered hollow wall 10 according to the downward arrow in the left drawing of fig. 5, and after being inserted into place as shown in the drawing (right drawing of fig. 5), the pads 21 fill the whole hollow portion and press the tongue 8 against the outer side surface of the inner wall of the innermost layer, so that the straight sliding rail is firmly connected to the double-layered hollow wall.

Example 2

The embodiment provides a method for adjusting the interval of an electric energy meter and a packaging box of collection equipment in a city W. As shown in the left diagram of fig. 6, the smart phone is used as a scanning terminal to scan the exclusive two-dimensional code of the city W on the right side wall of the box, and the app in the smart phone inputs the obtained exclusive two-dimensional code into the convolutional neural network so as to obtain the exclusive two-dimensional code, wherein the city is W. And the database is called to feed back to the smart phone to display the installation guide information, as shown in the right diagram of fig. 6. The guiding information is exemplarily displayed on the smart phone, including a city W, an installation location of b-position, i.e. a location marked b by a third distinction from the left in fig. 3, and an interval parameter with an interval size of 3 cm.

After the workers install all the sliders 19 according to the installation mode illustrated in fig. 4 in the embodiment 1 and install the straight sliding guide rail 4 according to fig. 2, moving each electric energy meter and collecting device cell 5 one by one to align the tips of the first arrows 18 with the tips of the second arrows of the number b, penetrating the connecting holes 17 and the fixing holes 7, unfolding the protective cover 12 at this time, taking down the packaging bag 11, opening the packaging bag 11 to take out the fixing piece as in fig. 1, and fixing each electric energy meter and collecting device cell 5 on the straight sliding guide rail 4 through the connecting holes 17 and the fixing holes 7. Finally, a pad 21 of porous elastic material is inserted into the hollow portion of the double-layer hollow inner wall 10 in the manner of fig. 5, and the tongue 8 is pressed against the outer side surface of the inner wall of the innermost layer.

The cover 3 can be covered if necessary to temporarily protect the device and to enable stacking and transport of the electric energy meter and collection device package 1.

Claims (9)

1. The electric energy meter and acquisition equipment packing box based on the artificial intelligence adjustable interval comprises a box body and a box cover, and is characterized in that the electric energy meter and acquisition equipment packing box further comprises a direct sliding guide rail, a plurality of electric energy meters, acquisition equipment grids, fixing pieces and two-dimension codes, wherein a plurality of fixing holes are formed in the top of the direct sliding guide rail along the extending direction of the guide rail, and two ends of the direct sliding guide rail are detachably connected to the inner wall of the box body respectively; wherein,

Each electric energy meter and collection equipment grid comprises a top cover grid and an electric energy meter and collection equipment grids which are respectively used for placing an electric energy meter and collection equipment top cover and an equipment host, a sliding block which can be detachably matched with the straight sliding guide rail is arranged at the bottom of each electric energy meter and collection equipment grid, an extension part extends out of the side part of each electric energy meter and collection equipment grid, and a connecting hole which can be communicated with the fixing hole is formed in the extension part so that the fixing piece penetrates through and passes through the fixing hole, and therefore when each electric energy meter grid slides on the straight sliding guide rail to enable the connecting hole to penetrate through the fixing hole, each electric energy meter and collection equipment grid can be fixed at the top of the straight sliding guide rail through the fixing piece penetrating through the connecting hole and the fixing hole;

The two-dimensional code is used for displaying the guide information of the position of the fixing hole where the electric energy meter and the acquisition equipment grid are to be fixed on the scanning terminal after being scanned, so that the position of each electric energy meter and the acquisition equipment grid can be adjusted according to the guide information, the connecting hole is aligned to the corresponding fixing hole according to the guidance of the guide information, and the fixing piece is used for penetrating through the two fixing holes to realize fixation;

The inner walls of the box body detachably connected with the straight sliding guide rail are double-layer hollow walls, the two inner walls of the innermost layer are provided with insertion holes, two ends of the straight sliding guide rail are provided with foldable insertion tongues, and the foldable insertion tongues are used for enabling the sliding blocks to be sleeved in and slide out when being stretched or folded to be consistent or opposite to the extending direction of the straight sliding guide rail, and can be inserted into the insertion holes to be detachably connected with the inner walls of the box body.

2. The packaging box for electric energy meters and collection equipment according to claim 1, wherein the intervals between the plurality of fixing holes are the same or at least two intervals are different from each other.

3. The package of claim 1, further comprising a pair of pads insertable into the central hollow portion of the double-walled hollow wall for pressing the tongue against the outer surface of the inner wall of the innermost layer to secure the straight sliding rail to the double-walled hollow wall;

The pair of pads are provided with gripping portions for facilitating removal of the pads from the hollow portion; the pad is made of a porous elastic material.

4. The electric energy meter and collection equipment packing box according to claim 1, wherein each electric energy meter and collection equipment compartment is provided with a first mark, the inner wall adjacent to the inner wall of the direct sliding guide rail detachably connected with the box body is provided with a second mark, when the bottom sliding block of each electric energy meter and collection equipment compartment moves on the direct sliding guide rail, the first mark can be matched with the corresponding second mark according to the indication of the guiding information, and after the matching is completed, the connecting hole and the corresponding target fixing hole can be communicated, and the connecting hole and the corresponding target fixing hole are fixed by penetrating through the fixing piece so as to meet the compartment interval requirement of the area where the box body is located.

5. The packaging box for electric energy meters and collection equipment according to claim 4, wherein the first mark is a first geometric figure arranged at one end of each of the electric energy meters and collection equipment grids; the second marks are provided with a plurality of groups with the same number of divisions as the electric energy meter and the acquisition equipment, each group of the second marks is provided with a plurality of second geometric figures which are arranged along the direction of the straight sliding guide rail, and the first geometric figures and the second geometric figures can be matched.

6. The packaging box for electric energy meters and collection equipment according to claim 4, wherein the fixing pieces are stored through packaging bags and arranged outside the box body through first arrangement, and the two-dimensional codes are arranged outside the box body through second arrangement;

And a protective cover with an opening, which is connected with the box body, is arranged around the packaging bag arranged at the first position.

7. The packaging box for electric energy meters and collection equipment according to any one of claims 4 to 6, wherein the process of obtaining the instruction information comprises the following steps:

(1) Scanning the two-dimensional code by using the scanning terminal, and identifying by an application program app installed on the scanning terminal;

(2) And the scanning terminal displays the guide information on the scanning terminal according to the identification result.

8. The packaging box for electric energy meters and collection equipment according to claim 7, wherein the guiding information comprises information for guiding the first identification and the second identification to be matched, and data information of intervals among the electric energy meters and the collection equipment cells;

the information of the first mark and the second mark matched is information of voice, text, animation or a combination thereof, wherein the voice, text, animation or the combination thereof is displayed on the scanning terminal, and the first mark is matched with a second arrow which is distinguished from one color, one text mark, one graph or a combination thereof.

9. The packaging box for electric energy meters and collection equipment according to claim 8, wherein the two-dimensional codes are a plurality of proprietary two-dimensional codes designed for different areas, corresponding proprietary two-dimensional codes are arranged on the box according to the areas where the box is to be sent to, and after the proprietary two-dimensional codes are scanned, an artificial intelligent model is adopted in the app to identify the areas where the scanned two-dimensional codes are located, so that the guiding information is obtained.