CN215219588U - Interactive screen mainboard module and interactive screen - Google Patents

Abstract

This application embodiment belongs to mutual screen technical field, concretely relates to mutual screen mainboard module and mutual screen, include: the main board box is used for internally arranging an interactive screen main board, and a first installation part is arranged on the main board box; the bottom support is used for fixing the mainboard box in the interactive screen, and a second installation part matched with the first installation part is arranged on the bottom support; the main board box is movably embedded in the bottom support through the first installation part and the second installation part. According to the embodiment of the application, the mainboard box can be movably embedded in the collet through the first installation part and the second installation part, so that the dismounting operation can be realized by means of the movable connection relation between the mainboard box and the collet when the interactive screen mainboard is dismounted, and the flexibility and the convenience degree of the dismounting of the interactive screen mainboard are improved.

Description

Interactive screen mainboard module and interactive screen

Technical Field

The utility model belongs to the technical field of mutual screen, especially, relate to an mutual screen mainboard module and mutual screen.

Background

When using the mutual screen of intelligence, for satisfying each level customer user demand, generally adopt plug OPS on the market at present, and the mainboard of mutual screen is fixed mounting mostly in mutual screen, but in the in-service use process, the mainboard is fixed in mutual screen, when the user need change the mainboard, because still be provided with other devices or the circuit that link to each other with the mainboard in the mutual screen, the mainboard replacement operation of giving mutual screen brings very big inconvenience. It is thus clear that current mutual screen has the inconvenient problem of mainboard dismouting.

SUMMERY OF THE UTILITY MODEL

In view of this, this application embodiment provides an mutual screen mainboard module and mutual screen to solve the inconvenient problem of mutual screen mainboard dismouting that current mutual screen exists.

The first aspect of the embodiment of the application provides an interactive screen mainboard module, includes:

the main board box is used for internally arranging an interactive screen main board and is provided with a first installation part;

the bottom support is used for fixing the mainboard box in the interactive screen, and a second installation part matched with the first installation part is arranged on the bottom support;

the main board box is movably embedded in the bottom support through the first installation part and the second installation part.

In the above scheme, the main board box is provided with an OPS slot, and the OPS slot is used for setting an OPS unit connected with the main board.

In the above scheme, be equipped with the OPS jack in the OPS slot, the OPS jack is used for seeing through the OPS socket that sets up on the mutual screen mainboard, the OPS socket is used for connecting the OPS unit.

In the above scheme, still be equipped with two at least spacing separation blades in the OPS slot, the length direction of spacing separation blade with the trompil direction of OPS jack is parallel to each other.

In the above scheme, the main board box further includes a cover plate, and the cover plate is used for covering the OPS jack when the OPS unit is not plugged in the OPS jack.

In the above scheme, the first mounting part is a sliding chute, and the corresponding second mounting part is a sliding sheet; or the first installation part is a pulley and the corresponding second installation part is a slide rail.

In the scheme, a plurality of guide positioning holes are formed in the bottom of the main board box, which is in contact with the bottom support, and a plurality of guide positioning columns which are in one-to-one correspondence with the guide positioning holes are arranged on the inner wall of the bottom support;

when the main board box is embedded into the bottom support, the plurality of guide positioning holes and the plurality of guide positioning columns are matched to fix the main board box into the bottom support.

In the above scheme, still be equipped with the public head of mainboard box plug on the mainboard box, the collet still includes mainboard box plug daughter card, be equipped with the mother of mainboard box plug daughter card on the mainboard box plug daughter card, the public head of mainboard box plug will with the mother cooperation of mainboard box plug daughter card the mainboard box is plugged to on the mutual screen.

In the above scheme, an interface hole panel is disposed on a side of the motherboard box and used for penetrating through an I/O interface on the interactive screen motherboard, where the I/O interface includes one or more of an HDMI interface, a DVI interface, a VGA interface, a DP interface, a TRS interface, an RJ45 interface, and a USB interface.

On the other hand, this application embodiment still provides an mutual screen, mutual screen includes above-mentioned mutual screen mainboard module.

The embodiment of the application provides an interactive screen mainboard module, including mainboard box and collet, wherein, because the mainboard box is used for built-in mutual screen mainboard, the collet is used for fixing the mainboard box in mutual screen, so mutual screen mainboard can be fixed in mutual screen through mainboard box and collet cooperation, again because be equipped with first installation department on the mainboard box, and be equipped with on the collet with first installation department complex second installation department, consequently, the mainboard box can inlay in the collet through first installation department and second installation department activity, make can realize the dismouting operation with the help of the swing joint relation of mainboard box and collet when carrying out the dismouting to mutual screen mainboard, the flexibility and the degree of convenience of mutual screen mainboard dismouting have been improved.

Drawings

Fig. 1 is a schematic overall scheme diagram of an interactive screen motherboard module according to an embodiment of the present application;

fig. 2 is a schematic diagram of an OPS slot of an interactive screen motherboard module according to an embodiment of the present application;

fig. 3 is a schematic diagram of an OPS jack, an OPS socket, and a limiting block of the interactive screen main board module according to the embodiment of the present application;

fig. 4 is a schematic diagram of a cover plate of the interactive screen motherboard module according to the embodiment of the present application;

FIG. 5 is a schematic diagram of a cover plate jack of the interactive screen motherboard module according to the embodiment of the present application;

fig. 6 is a schematic diagram of the interactive screen main board module according to the embodiment of the present application after the main board box covers the upper cover plate;

fig. 7 is a schematic view of a guiding positioning column of the interactive screen motherboard module according to the embodiment of the present application;

fig. 8 is a schematic view of a guiding positioning hole and a male plug of a motherboard box of the interactive screen motherboard module according to the embodiment of the present application;

fig. 9 is a schematic diagram of a motherboard box pluggable daughter card of the interactive screen motherboard module according to the embodiment of the present application;

fig. 10 is a schematic view of an interface panel and a motherboard box pulling-out handle of the interactive screen motherboard module according to the embodiment of the present application.

The reference numerals in the specification are as follows:

1. a main board box; 1-1, a first mounting part; 1-2, an OPS slot; 1-21, OPS jack; 1-22, a limit baffle sheet; 1-23, cover plate jacks; 1-3, a cover plate; 1-31, a limit sheet is hidden in the cover plate; 1-4, guiding a positioning hole; 1-5, plugging and unplugging a male head of a mainboard box; 1-6, interface hole panel; 1-7, pulling out a handle from the main board box; 2. a bottom support; 2-1, a second mounting portion; 2-2, guiding the positioning column; 2-3, inserting and pulling a daughter card in the mainboard box; 2-31, inserting and pulling a daughter card mother head of the mainboard box; 3. an OPS unit; 4. an OPS socket.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Traditional mutual screen mainboard is usually for settling in mutual inside of shielding to mutual screen mainboard also need have more complicated connection between mutual screen inside and each other subassembly, consequently when carrying out the dismouting to traditional mutual screen mainboard, need at first unpack mutual screen shell apart, then remove the connection between mutual screen mainboard and each other subassembly again, just can realize the dismantlement of mutual screen mainboard. The installation of the interactive screen motherboard in the interactive screen also requires the above-described complicated process. In order to solve the inconvenient problem of the mutual screen mainboard dismouting of above-mentioned tradition, this application provides following specific embodiment.

Fig. 1 shows an overall schematic diagram of an interactive screen motherboard module according to an embodiment of the present application. As shown in fig. 1, the interactive screen motherboard module provided in this embodiment includes: the interactive screen display system comprises a main board box 1, a first display and a second display, wherein the main board box 1 is used for internally arranging an interactive screen main board, and a first installation part 1-1 is arranged on the main board box 1; the bottom support 2 is used for fixing the main board box 1 in the interactive screen, and a second mounting part 2-1 matched with the first mounting part 1-1 is arranged on the bottom support 2; the mainboard box 1 is movably embedded in the bottom support 2 through a first installation part 1-1 and a second installation part 2-1.

In this embodiment, mutual screen mainboard sets up inside mainboard box 1, and mode such as screw or draw-in groove can be installed in mutual screen to collet 2 detachably. As the main board box 1 is provided with the first installation part 1-1 and the bottom support 2 is provided with the second installation part 2-1 matched with the first installation part 1-1, the main board box 1 and the bottom support 2 can be movably connected through the first installation part 1-1 and the second installation part 2-1. Here, the main board case 1 is moved toward the bottom base 2 in the direction in which the second mounting part 2-1 extends by the first mounting part 1-1, and the first mounting part 1-1 and the second mounting part 2-1 can be completely separated. Based on the design, when the interactive screen mainboard needs to be installed in the interactive screen, the main board box 1 is pushed into the bottom support 2 only by aligning the first installation part 1-1 and the second installation part 2-1, and similarly, when the interactive screen mainboard needs to be detached from the interactive screen, the main board box 1 is pulled out from the bottom support 2 only, so that the first installation part 1-1 and the second installation part 2-1 are completely separated.

In practice, the first mounting portion 1-1 may be a structure extending along the edge of the motherboard box 1 for facilitating the flexible connection with the bottom support 2, and correspondingly, the second mounting portion 2-1 may be a structure extending along the portion of the bottom support 2 contacting the motherboard box 1. Alternatively, the first mounting portion 1-1 is a first movable structure additionally mounted on the main board box 1, and correspondingly, the second mounting portion 2-1 may be a second movable structure additionally mounted on the bottom support 2 to cooperate with the first movable structure. In the solution provided in this embodiment, because the interactive screen motherboard is disposed inside the motherboard box 1, and the motherboard box 1 can be movably embedded in the bottom support 2 through the first installation portion 1-1 and the second installation portion 2-1, during specific implementation, only the movable fit between the first installation portion 1-1 of the motherboard box 1 and the second installation portion 2-1 of the bottom support 2 needs to be considered.

It should be understood that, although the specific implementation or the specific structural design of the first mounting portion 1-1 and the second mounting portion 2-1 is related to how the main board box 1 is embedded in the bottom base 2, a person skilled in the art can adapt to and select a specific embodiment based on the movable fit between the first mounting portion 1-1 and the second mounting portion 2-1 and the specific structural design of the main board box 1 and the bottom base 2, so that the main board box 1 can be movably embedded in the bottom base 2 through the first mounting portion 1-1 and the second mounting portion 2-1, and therefore, the detailed description of the specific structure of the first mounting portion 1-1 and the second mounting portion 2-1 is omitted here.

In the above scheme, the interactive screen mainboard can be fixed in the interactive screen through the matching of the mainboard box 1 and the collet 2, and the mainboard box 1 is provided with the first installation part 1-1, and the collet 2 is provided with the second installation part 2-1 matched with the first installation part 1-1, so that the mainboard box 1 can be movably embedded in the collet 2 through the first installation part 1-1 and the second installation part 2-1, the dismounting operation can be realized by means of the movable connection relation between the mainboard box 1 and the collet 2 when the interactive screen mainboard is dismounted, and the flexibility and the convenience degree of the dismounting of the interactive screen mainboard are improved.

As an example of the present application, the first and second mounting portions 1-1 and 2-1 may be variously combined. For example, the first mounting portion 1-1 is a sliding slot, and the corresponding second mounting portion 2-1 is a sliding piece, the sliding slot is matched with the sliding piece, and the sliding slot can slide along the extending direction of the sliding piece.

For another example, the first mounting portion 1-1 is a pulley, and the corresponding second mounting portion 2-1 is a slide rail, the pulley and the slide rail are engaged, and the pulley can slide along the extending direction of the slide rail.

In this embodiment, when the first installation part 1-1 and the second installation part 2-1 adopt the combination of the sliding groove and the sliding piece, the sliding piece can be inserted into the sliding groove, and the main board box 1 realizes that the main board box 1 is inserted into the bottom support 2 or is pulled out from the bottom support 2 along the extending direction of the sliding piece through the cooperation of the sliding groove and the sliding piece. When the first installation part 1-1 and the second installation part 2-1 adopt the combination of the pulley and the slide rail, the pulley can be clamped in the slide rail and slide along the slide rail, and the main board box 1 realizes that the main board box 1 is inserted into the bottom support 2 or pulled out from the bottom support 2 along the extending direction of the slide rail through the cooperation of the pulley and the slide rail. The combination of the first mounting portion 1-1 and the second mounting portion 2-1 in this embodiment may be other combinations.

Fig. 2 shows an OPS slot schematic diagram of an interactive screen motherboard module according to an embodiment of the present application. As shown in fig. 2, in order to facilitate extending the function of the interactive screen motherboard in the motherboard box 1, as an embodiment of the present application, an OPS slot 1-2 is provided on the motherboard box 1, and the OPS slot 1-2 is used to provide an OPS unit 3 connected to the motherboard.

In this embodiment, the OPS unit 3 is a pluggable computing module, and can be used to extend functions for the interactive screen main board. The OPS slot is arranged on the mainboard box 1, so that the interactive screen mainboard in the mainboard box 1 can be expanded like a traditional interactive screen mainboard by plugging the OPS unit 3. The OPS slot 1-2 may be disposed at a position beside the interactive screen motherboard of the motherboard box 1, or at a position above or below the interactive screen motherboard of the motherboard box 1. The shape of the OPS slot 1-2 may be specifically set according to the shape of the OPS unit 3.

Fig. 3 shows a schematic diagram of an OPS jack, an OPS socket, and a limiting block of an interactive screen motherboard module according to an embodiment of the present application. As shown in fig. 2 and 3, in order to enable the OPS unit 3 to be conveniently connected with the interactive screen main board, as an embodiment of the present application, an OPS jack 1-21 is provided in the OPS slot 1-2, the OPS jack 1-21 is configured to penetrate through an OPS socket 4 provided on the main board, and the OPS socket 4 is configured to be connected with the OPS unit 3.

In this embodiment, through placing the mutual screen mainboard in mainboard box 1 in, mainboard box 1 can also continue to expand OPS unit 3 simultaneously, both can realize OPS independent plug when the customer uses, also can realize mainboard box 1 and OPS unit 3's whole plug, wherein mutual screen mainboard can adopt the same operating system with OPS unit 3 also can adopt different operating system, the user can carry out the independent combination according to concrete needs, it provides convenience when upgrading to the mainboard to change the needs for the user, make all kinds of customers have better use experience.

As an embodiment of the application, in order to enable the OPS unit 3 to be stably installed in the OPS slot 1-2, at least two limiting baffles 1-22 are further arranged in the OPS slot 1-2, and the length direction of the limiting baffles 1-22 is parallel to the opening direction of the OPS jack 1-21.

In this embodiment, when the OPS unit 3 is plugged into the OPS socket 4 through the OPS slot 1-2, the limiting block pieces 1-22 can be pressed on the upper surface of the OPS unit 3, so that the OPS unit 3 can be fixed in the OPS slot 1-2 without loosening or falling off easily. The number of the limiting barriers 1-22 is at least two to ensure that the OPS unit 3 can be pressed in the OPS slot 1-2.

Fig. 4 shows a schematic diagram of a cover plate of the interactive screen motherboard module according to the embodiment of the present application, fig. 5 shows a schematic diagram of a jack of a cover plate of the interactive screen motherboard module according to the embodiment of the present application, and fig. 6 shows a schematic diagram of a motherboard box of the interactive screen motherboard module according to the embodiment of the present application after the cover plate is covered. As shown in fig. 4-6, in order to protect the OPS jacks 1-21 from entering foreign objects when there is no OPS unit 3 in the OPS slot 1-2, the main board box 1 further includes a cover plate 1-3 as an embodiment of the present application, and the cover plate 1-3 is used for covering the OPS jacks 1-21 when there is no OPS unit 3 inserted in the OPS jacks 1-21.

In this embodiment, when the OPS unit 3 is not inserted into the OPS slot 1-2, the OPS jacks 1-21 and the OPS socket 4 are exposed, and the OPS jacks 1-21 and the OPS socket 4 are prone to adsorb more suspended matters in the air due to electrostatic effect, so that the cleanliness at the OPS jacks 1-21 and the OPS socket 4 is reduced, and the connection between the OPS unit 3 and the interactive screen main board is seriously affected, therefore, in this embodiment, the cover plate 1-3 is disposed on the OPS slot 1-2 to protect the OPS slot 1-2 and the OPS jacks 1-21 and the OPS socket 4 therein when the OPS unit is idle, and the specific shape of the cover plate 1-3 can be specifically set according to the opening shape of the OPS slot 1-2. In order to ensure the beauty of the main board box 1 after the cover board 1-3 is covered, one end of the cover board 1-3 is also provided with a cover board concealed limiting piece 1-31 which is turned downwards, the inner wall of the OPS slot 1-2 provided with an OPS jack 1-21 is also provided with a cover board jack 1-23 which is matched with the cover board concealed limiting piece 1-31, the cover board 1-3 can be installed on the OPS slot 1-2 by inserting the cover board concealed limiting piece 1-31 into the cover board jack 1-23, at the moment, the cover board 1-3 can completely cover the OPS slot 1-2 and is in seamless butt joint with the surface of the main board box 1, and the appearance is very strong.

Fig. 7 shows a schematic view of a guiding positioning column of the interactive screen mainboard module according to the embodiment of the present application, and fig. 8 shows a schematic view of a guiding positioning hole and a mainboard box plug male head of the interactive screen mainboard module according to the embodiment of the present application. As shown in fig. 7 and 8, in order to ensure that the main board box 1 can be accurately and firmly installed in the bottom support 2, as an embodiment of the present application, a plurality of guiding positioning holes 1-4 are provided at the bottom of the main board box 1 contacting the bottom support 2, and a plurality of guiding positioning columns 2-2 corresponding to the guiding positioning holes 1-4 one by one are provided on the inner wall of the bottom support 2; when the main board box 1 is embedded into the bottom support 2, the main board box 1 is fixed in the bottom support 2 by matching the plurality of guiding positioning holes 1-4 and the plurality of guiding positioning columns 2-2.

In this embodiment, a plurality of guiding reference columns 2-2 and a plurality of guiding positioning holes 1-4 correspond one-to-one, only when a plurality of guiding reference columns 2-2 are inserted into a plurality of guiding positioning holes 1-4 completely, the main board box 1 can be inserted into the bottom support 2 completely, a certain friction force exists between the guiding reference columns 2-2 and the guiding positioning holes 1-4, when the main board box 1 is inserted into the bottom support 2, the guiding reference columns 2-2 and the guiding positioning holes 1-4 are matched with each other, not only can the guiding and positioning functions be achieved, but also a certain fixing function can be achieved for the main board box 1 inserted into the bottom support 2, and the main board box is not prone to loosening and falling.

Fig. 9 shows a schematic diagram of a mother board box pluggable daughter card of the interactive screen mother board module according to the embodiment of the present application. As shown in fig. 8 and 9, as an embodiment of the present application, a main board box plug male head 1-5 is further disposed on the main board box 1, the base 2 further includes a main board box plug sub-card 2-3, a main board box plug sub-card female head 2-31 is disposed on the main board box plug sub-card 2-3, and the main board box plug male head 1-5 and the main board box plug sub-card female head 2-31 cooperate to plug the main board box 1 onto the interactive screen.

In this embodiment, in the actual use of the interactive screen module in this embodiment of the application, collet 2 is fixed in the interactive screen back or imbeds the inside of interactive screen, in order to make main board box 1 insert completely in collet 2 and to realize the mutual screen mainboard and the mutual connection between the screen, set up main board box plug daughter card 2-3 on collet 2, its effect is connected system mainboard and mutual screen, when main board box 1 inserts collet 2 completely, the public head of main board box plug 1-5 just can insert in main board box plug daughter card female head 2-31, thereby realized the installation and the circuit connection of mutual screen mainboard and interactive screen.

Fig. 10 shows a schematic view of an interface panel and a motherboard box pulling-out handle of an interactive screen motherboard module according to an embodiment of the present application. As shown in fig. 10, in order to meet the use requirements of different audio, video and data input/output, as an embodiment of the present application, an interface hole panel 1-6 is disposed on a side of the motherboard box 1 for passing through an I/O interface on the interactive screen motherboard, where the I/O interface includes one or more of an HDMI interface, a DVI interface, a VGA interface, a DP interface, a TRS interface, an RJ45 interface and a USB interface.

In this embodiment, the types and the number of the interface holes of the interface hole panels 1 to 6 depend on the types and the number of the I/O interfaces of the interactive screen motherboard, and the I/O interfaces of the interactive screen motherboard in this embodiment are not limited to the above interface types, and with the development of data transmission technology, the I/O interfaces of the interactive screen motherboard in this embodiment also include I/O interfaces suitable for new data transmission standards.

As an embodiment of the present application, as shown in fig. 10, the main board box 1 further includes main board box pulling handles 1 to 7 to facilitate the insertion and removal of the main board box 1.

In this embodiment, the user of the interactive screen can easily push the main board box 1 into the bottom support 2 or pull the main board box 1 out of the bottom support 2 by pulling the main board box to pull out the handles 1-7.

In another embodiment of this application, still provide an interactive screen, interactive screen includes above-mentioned but plug interactive screen mainboard module.

It should be understood that, since the content of the interactive screen provided in this embodiment and related to this application has been described in detail in the previous embodiment, it is not described herein again.

In this embodiment, collet 2 in the mutual screen mainboard module is fixed in the mutual screen, and concrete fixed mode can be through the mode of screw thread fastening also can be through the joint fixed, can be fixed in the surface or the inside of mutual screen, and collet 2's mainboard box plug daughter card 2-3 and mutual screen circuit connection. Main board box 1 in the mutual screen mainboard module can move about and inlay in collet 2, when needs demolish or change mutual screen mainboard, only need with mainboard box 1 from collet 2 in extract can, need not to dismantle the shell of mutual screen again, the operation is very simple and convenient. The embodiment of the utility model provides an in the interactive screen of saying can be the simple interactive screen of liquid crystal as display device, also can be as the interactive screen of touch control of smart machine, do not do the restriction here.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it. Although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: modifications of the technical solutions described in the embodiments or equivalent replacements of some technical features may still be made. Such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an mutual screen mainboard module which characterized in that includes:

the main board box is used for internally arranging an interactive screen main board and is provided with a first installation part;

the bottom support is used for fixing the mainboard box in the interactive screen, and a second installation part matched with the first installation part is arranged on the bottom support;

the main board box is movably embedded in the bottom support through the first installation part and the second installation part.

2. The interactive screen motherboard module as recited in claim 1 wherein said motherboard box is provided with an OPS slot for providing an OPS unit connected to said motherboard.

3. The interactive screen motherboard module as recited in claim 2, wherein an OPS jack is disposed in the OPS slot, the OPS jack is configured to pass through an OPS socket disposed on the interactive screen motherboard, and the OPS socket is configured to connect to an OPS unit.

4. The interactive screen mainboard module of claim 3, wherein at least two limiting baffles are further arranged in the OPS slot, and the length direction of the limiting baffles is parallel to the opening direction of the OPS jack.

5. The interactive screen motherboard module as recited in claim 3 wherein said motherboard box further comprises a cover plate for covering said OPS receptacle when said OPS unit is not plugged into said OPS receptacle.

6. The interactive screen motherboard module as recited in claim 1, wherein the first mounting portion is a runner, and the corresponding second mounting portion is a slider; or the first installation part is a pulley and the corresponding second installation part is a slide rail.

7. The interactive screen mainboard module of claim 1, wherein a plurality of guiding positioning holes are formed at the bottom of the mainboard box contacting the bottom support, and a plurality of guiding positioning columns corresponding to the guiding positioning holes one by one are arranged on the inner wall of the bottom support;

when the main board box is embedded into the bottom support, the plurality of guide positioning holes and the plurality of guide positioning columns are matched to fix the main board box into the bottom support.

8. The interactive screen mainboard module of claim 7, wherein a mainboard box plug male head is further arranged on the mainboard box, the base further comprises a mainboard box plug sub-card, a mainboard box plug sub-card female head is arranged on the mainboard box plug sub-card, and the mainboard box plug male head and the mainboard box plug sub-card female head cooperate to plug the mainboard box onto the interactive screen.

9. The interactive screen motherboard module as recited in claim 7, wherein an interface hole panel is disposed on a side of said motherboard box for passing through an I/O interface on said interactive screen motherboard, said I/O interface comprising one or more of an HDMI interface, a DVI interface, a VGA interface, a DP interface, a TRS interface, an RJ45 interface, and a USB interface.

10. An interactive screen, characterized in that the interactive screen comprises the interactive screen motherboard module set forth in claims 1-9.

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