CN116748843A - Shell splicing equipment of Wi-Fi7 router and application method of shell splicing equipment - Google Patents

Abstract

The invention belongs to the field of router assembly, and discloses shell splicing equipment of a Wi-Fi7 router and a using method thereof, wherein the equipment comprises a belt conveyor, baffle strips are fixed on two sides of the belt conveyor along the conveying direction of the belt conveyor, supporting plates are fixed on the baffle strips, a plurality of groups of uniformly distributed pressing assemblies are arranged on the supporting plates, the pressing assemblies on the supporting plates on two sides are in one-to-one correspondence and are in opposite placement states, each pressing assembly comprises a gear column, and the gear columns are vertically upwards placed; according to the invention, the belt conveyor, the baffle strips, the supporting plates, the gear columns, the first straight racks, the clamping columns, the pressing plates, the first sliding grooves, the second sliding grooves, the sliding shafts, the first racks, the connecting rods, the telescopic pipes, the springs and the pushing plates are matched, so that the pressing clamping connection of the fixing components on the router shell can be realized, the simultaneous clamping connection and installation of the fixing components on the two sides of the router shell can be simultaneously completed, the automation degree of the clamping connection and splicing of the router shell is improved, the labor intensity is reduced, and the working efficiency is improved.

Description

Shell splicing equipment of Wi-Fi7 router and application method of shell splicing equipment

Technical Field

The disclosure belongs to the field of router assembly, and particularly relates to a shell splicing device of a Wi-Fi7 router and a use method thereof.

Background

The router is a hardware device for connecting two or more networks, and in the manufacturing process of the router, a large number of operations are required to finish the manufacturing of one router, so that the assembly of a router shell is indispensable;

a router housing structure as described in "a router housing structure" (patent number: CN 219227628U): "including lower casing, its characterized in that: the inner part of the lower shell is provided with an upper shell, limit strips are symmetrically arranged on the left side surface and the right side surface of the upper shell in front-back direction, limit grooves are symmetrically arranged on the left side surface and the right side surface of the inner part of the lower shell, first connecting grooves are symmetrically arranged on the left side surface and the right side surface of the lower shell, second connecting grooves are symmetrically arranged on the left side surface and the right side surface of the upper shell, and fixing components are correspondingly arranged on the left side surface and the right side surface of the lower shell and the first connecting grooves; the fixing assembly comprises a fixing frame, a first pressing block is arranged at the front end of the fixing frame in a sliding mode, a second pressing block is arranged at the rear end of the fixing frame in a sliding mode, limiting plates are arranged at the outer ends of the first pressing block and the second pressing block, clamping blocks are arranged at the inner ends of the first pressing block and the second pressing block, a fixing spring is arranged between the two clamping blocks, and through grooves are formed in the inner side face of the fixing frame and correspond to the clamping blocks; when the shells are spliced, the upper shell and the lower shell are clamped and then are subjected to limit fixation by installing the fixing assembly, the first pressing block and the second pressing block are required to be pressed simultaneously, then the clamping blocks respectively penetrate through the first connecting groove and the second connecting groove, then the first pressing block and the second pressing block are loosened, the clamping blocks are unfolded towards two sides under the acting force of the fixing springs, and therefore the upper shell and the lower shell can be limited, and the upper shell and the lower shell can be installed.

Most of the clamping installation of the fixing component is operated manually in the splicing process of the router shell, because people need to repeatedly press the first pressing block and the second pressing block by hands, then the fixing component is blocked at the first connecting groove and the second connecting groove, the time is long, the subsequent working efficiency is affected by the pain of the hands of people, and the clamping splicing can be carried out only by pressing one fixing component manually at a time, so that the problems of low automation degree, high labor intensity and low working efficiency are solved.

Disclosure of Invention

Aiming at the defects of the prior art, the purpose of the present disclosure is to provide a shell splicing device of a Wi-Fi7 router and a use method thereof, which solves the problems of low automation degree, high labor intensity and low working efficiency existing in the router shell splicing process in the prior art.

The purpose of the disclosure can be achieved by the following technical scheme:

a shell splicing device of a Wi-Fi7 router and a use method thereof comprise a belt conveyor, wherein baffle strips are fixed on two sides of the belt conveyor along the conveying direction of the belt conveyor, supporting plates are fixed on the baffle strips, a plurality of groups of pressing assemblies which are uniformly distributed are arranged on the supporting plates, and the pressing assemblies on the supporting plates on two sides are in one-to-one correspondence and in opposite placement states.

The pressing component comprises a gear column which is vertically upwards placed, the gear column is rotationally connected on a supporting plate, a pair of first straight racks which are placed in a central symmetry mode with respect to the gear column are in meshing connection, the first straight racks are placed in a coaxial direction with the conveying direction of the belt conveyor, a first sliding groove is formed in the supporting plate, the first sliding groove is placed in a coaxial direction with the first straight racks, the first straight racks can be in sliding clamping connection along the axial direction of the first sliding groove, clamping columns are fixedly arranged on the first straight racks, pressing plates are connected on the clamping columns, the pressing plates are vertical to the first straight racks and are placed towards the belt conveyor, second sliding grooves which are placed in the same axial direction are formed in the lower end faces of the pressing plates, the upper ends of the clamping columns are in sliding clamping connection with the second sliding grooves, be equipped with the slide shaft that the system was placed between two clamp plates of same pressing component, the slide shaft is close to the first rack that coaxial line was placed on the one end lateral wall of band conveyer, first rack all is connected with gear post upper end perisporium meshing, be fixed with the connecting rod between the two clamp plates of same pressing component, the connecting rod all is coaxial line with first rack and places, the connecting rod is established to the flexible pipe that can stretch out and draw back along its axis direction, the slide shaft is all fixed with the connecting lateral wall, the one end that the slide shaft is close to band conveyer all is fixed with the flexible pipe that the coaxial line was placed, the flexible pipe is close to band conveyer end all is fixed with the push pedal, all the cover is equipped with the spring that the coaxial line was placed on the flexible pipe, spring one end all is fixed with the push pedal, the spring other end all is fixed with the slide shaft, when the extension state is accomplished to the flexible pipe, the push pedal stretches out position department between the two clamp plates.

The first fixed plate is fixedly installed on the baffle plate, the second fixed plate which is vertically upwards placed is fixedly installed on the first fixed plate far away from the end of the belt conveyor, a plurality of sleeves which are uniformly distributed are fixedly installed on the second fixed plate, the number of the sleeves is equal to that of the sliding shafts and corresponds to that of the sliding shafts one by one, the sleeves are coaxially placed with the corresponding sliding shafts, the sliding shafts are slidably connected with the inner walls of the sleeves, sliding rail shafts are fixedly installed on the second fixed plate, the sliding rail shafts are coaxially placed with the first straight racks, first threaded rods which are coaxially placed are rotatably connected in the sliding rail shafts, a plurality of sliding blocks which are uniformly distributed are arranged in the sliding rail shafts, the sliding blocks and the sleeves correspond one by one, and the first threaded rods penetrate through the sliding blocks and are in threaded engagement connection with the sliding blocks.

The sleeve below all is equipped with the backup pad, the backup pad all is equipped with the first pivot of rotation connection in the backup pad all with second fixed plate fixed connection, first pivot all is coaxial with the gear post and places, first pivot upper end fixed cover is equipped with the first gear that the coaxial line was placed, the breach groove has all been seted up on the sleeve lateral wall, first gear all passes the breach groove and is connected with second rack meshing, the second gear that first pivot lower extreme all fixed cover was equipped with the coaxial line and places, all be fixed with the second rack on the slider, the second rack is coaxial with first threaded rod and places, second rack and second gear one-to-one and be connected with its meshing.

The slide rail axle one end all is fixed with first rotation motor, and first rotation motor output all is equipped with the second pivot, and the second pivot all is placed with first threaded rod coaxial line, and the second pivot passes the slide rail axle and rotates with the slide rail axle to be connected, and second pivot one end all is fixed with first threaded rod.

One side that the baffle strip is close to the second fixed plate all is equipped with a plurality of storage tubes that are evenly distributed, and the storage tube all is perpendicular upwards to place the state, and storage tube and pressing component one-to-one, the feed chute has been seted up to storage tube near second fixed plate side, and the storage tube lower extreme is the opening form, and storage tube lower extreme flushes with the clamp plate up end, is equipped with the connecting plate directly over the band conveyer, and storage tube upper end all is fixed with the connecting plate lower extreme, and the connecting plate is through a plurality of support column steady supports with baffle strip fixed connection.

The storage pipe is internally provided with pushing blocks which are connected in a sliding and clamping manner, connecting bars are fixed between the pushing blocks on the same baffle strip side, a pair of second threaded rods which are vertically and downwards placed are rotationally connected on the connecting plates, and the second threaded rods penetrate through the connecting bars and are in threaded engagement with the connecting bars.

The lower end face of the connecting plate is fixedly provided with a second rotating motor, the output end of the second rotating motor is provided with a third rotating shaft, the third rotating shaft penetrates through the connecting plate and is rotationally connected with the connecting plate, a third gear which is coaxially placed is fixedly sleeved on the third rotating shaft, a fourth gear which is coaxially placed is fixedly sleeved on the upper end of the second threaded rod, and an annular synchronous toothed belt which is in meshing connection is sleeved between the third gear and the fourth gear.

A third sliding groove which is placed in the same axial direction is formed in one side face, close to each other, of each pressing plate of the pressing assembly, two ends of the connecting rod are connected with the third sliding groove in a sliding clamping mode, the sealing plate is fixedly mounted on the connecting rod, and the upper end face of the sealing plate is flush with the upper end face of the pressing plate.

A fixing strip is arranged below the connecting plate, two ends of the fixing strip are fixed with the supporting columns, a telescopic cylinder which is vertically and downwards placed is fixed at the lower end of the fixing strip, and a valve plate is fixed at the lower end of a telescopic rod of the telescopic cylinder.

The beneficial effects of the present disclosure are:

1. according to the router, when the sliding shaft is pushed to be close to the belt conveyor, the pressing plate can automatically press the first pressing block and the second pressing block in the fixed assembly and move in cooperation with the sliding shaft, so that the pushing plate pushes the fixed assembly to be inserted into the first connecting groove and the second connecting groove of the router shell to complete splicing and clamping; the simultaneous clamping and installation of the fixed assemblies on the two sides of the router shell can be completed simultaneously, so that the automation degree of the clamping and splicing of the router shell is improved, the labor intensity is reduced, and the working efficiency is improved;

the spring, the telescopic pipe and the push plate are matched, so that the fixed assembly can be prevented from falling from the first connecting groove and the second connecting groove before unfinished clamping;

2. according to the automatic feeding device, the automatic feeding of the fixed assembly after the pressing and splicing is realized through the matching of the storage groove, the pushing block, the connecting bar and the second threaded rod, and meanwhile, the matching of the connecting bar, the third sliding groove and the plugging plate can avoid the fixed assembly in the storage pipe from falling on the spring during splicing, so that the feeding and the feeding of the fixed assembly can be realized only after the pressing assembly is reset.

Drawings

In order to more clearly illustrate the embodiments of the present disclosure or the prior art, the drawings that are required for the description of the embodiments or the prior art will be briefly described, and it will be apparent to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the two sides of the belt conveyor of the present invention;

FIG. 3 is a schematic view of a part of the structure of a storage pipe of the invention;

FIG. 4 is a schematic view of a portion of the structure of a second fixing plate according to the present invention;

FIG. 5 is a schematic view of a portion of a slide rail shaft and a pressing assembly according to the present invention;

FIG. 6 is a schematic view of the internal structure of the sleeve of the present invention;

fig. 7 is a schematic view of a part of the structure of the pressing assembly of the present invention.

Detailed Description

The following description of the technical solutions in the embodiments of the present disclosure will be made clearly and completely with reference to the accompanying drawings in the embodiments of the present disclosure, and it is apparent that the described embodiments are only some embodiments of the present disclosure, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments in this disclosure without inventive faculty, are intended to fall within the scope of this disclosure.

As shown in fig. 1 to 7, a shell splicing device of a Wi-Fi7 router comprises a belt conveyor 1, baffle strips 2 are fixed on two sides of the belt conveyor 1 along the conveying direction, supporting plates 3 are fixed on the baffle strips 2, a plurality of groups of uniformly distributed pressing assemblies are arranged on the supporting plates 3, and the pressing assemblies on the supporting plates 3 on two sides are in one-to-one correspondence and are in opposite placement;

the pressing component comprises a gear column 4, the gear column 4 is vertically upwards placed, the gear column 4 is rotationally connected on a supporting plate 3, the lower end of the gear column 4 is respectively engaged and connected with a pair of first straight racks 5 which are symmetrically placed in the center relative to the gear column 4, the first straight racks 5 are respectively placed in the coaxial direction with the conveying direction of the belt conveyor 1, a first sliding groove 31 is respectively arranged on the supporting plate 3, the first sliding groove 31 is respectively placed in the coaxial direction with the first straight racks 5, the first straight racks 5 can be slidably clamped along the axial direction of the first sliding groove 31, clamping columns 6 are respectively fixed on the first straight racks 5, the clamping columns 6 are respectively connected with a pressing plate 7, the pressing plates 7 are respectively perpendicular to the first straight racks 5 and face the belt conveyor 1, the lower end faces of the pressing plates 7 are respectively provided with second sliding grooves 71 which are coaxially placed, the upper ends of the clamping columns 6 are respectively slidably clamped with the second sliding grooves 71, a sliding shaft 8 which is arranged in a systematic way is arranged between two pressing plates 7 of the same pressing assembly, a first rack 81 which is arranged coaxially is fixed on the side wall of one end of the sliding shaft 8, which is close to the belt conveyor 1, the first rack 81 is in meshing connection with the peripheral wall of the upper end of the gear column 4, a connecting rod 9 is fixed between the two pressing plates 7 of the same pressing assembly, the connecting rod 9 is arranged coaxially with the first rack 5, the connecting rod 9 is a telescopic pipe 10 which can extend and retract along the axial direction of the connecting rod 9, the sliding shaft 8 is fixed with the connecting side wall, one end of the sliding shaft 8, which is close to the belt conveyor 1, is fixed with a telescopic pipe 10 which is arranged coaxially, one end of the telescopic pipe 10, which is close to the belt conveyor 1, is fixed with a push plate 11, springs 12 which are arranged coaxially are sleeved on the telescopic pipe 10, one end of each spring 12 is fixed with the push plate 11, the other end of each spring 12 is fixed with the sliding shaft 8, and when the telescopic pipe 10 is in an extending state, the push plate 11 extends out of the position between the two pressing plates 7;

the router shell after the lower shell and the upper shell of the router in the patent number CN219227628U are sleeved and clamped is placed on the belt conveyor 1, so that the router shell is conveyed and moved to the position corresponding to the pressing component, the fixing component in the patent number CN219227628U is placed between the two pressing plates 7 of each pressing component, the fixing components are both positioned between the push plate 11 and the belt conveyor 1, and the clamping blocks of the fixing components are all placed towards the belt conveyor 1;

pushing each sliding shaft 8 to synchronously approach the belt conveyor 1, driving a connecting rod 9, a pressing plate 7, a telescopic pipe 10 and a push plate 11 by the sliding shafts 8 to push a fixing assembly to approach a router shell at a corresponding position on the belt conveyor 1, driving a first rack 81 by the sliding shafts 8, driving a gear column 4 to rotate by the first rack 81, sequentially driving a first straight rack 5, a clamping column 6 and the pressing plate 7 by the gear column 4, enabling the two pressing plates 7 to approach each other, sleeving a first pressing block and a second pressing block in the pressing fixing assembly by the pressing plate 7, and then after the first rack 81 is separated from the gear column 4, continuously extending to approach the belt conveyor 1 by the sliding shafts 8, so that the push plate 11 continuously pushes the fixing assembly to be inserted into a first connecting groove and a second connecting groove of the router shell;

then the sliding shaft 8 is pulled back, the sliding shaft 8 drives the connecting rod 9 and the pressing plate 7 to be far away from the belt conveyor 1, and under the elastic force of the spring 12, the pushing plate 11 continuously extrudes and pushes the fixing component, so that the fixing component is prevented from falling off before the splicing and clamping of the fixing component are completed;

meanwhile, in the process that the pressing plate 7 is far away from the belt conveyor 1, the clamping blocks in the fixing assembly are ejected to two sides to finish clamping, the first racks 81 move back to be in meshed transmission with the gear columns 4, and the gear columns 4 drive the first straight racks 5, the clamping columns 6 and the pressing plate 7 in sequence, so that the pressing plate 7 is far away from each other and reset;

through the process, the pressing and clamping of the fixing components on the router shell can be realized, and the simultaneous clamping and installation of the fixing components on the two sides of the router shell can be completed simultaneously, so that the automation degree of the clamping and splicing of the router shell is improved, the labor intensity is reduced, and the working efficiency is improved.

In order to facilitate the automatic control of the movement of the sliding shafts 8, the baffle strips 2 are fixedly provided with first fixing plates, the ends of the first fixing plates, which are far away from the belt conveyor 1, are fixedly provided with second fixing plates 13 which are vertically upwards arranged, the second fixing plates 13 are fixedly provided with a plurality of uniformly distributed sleeves 14, the number of the sleeves 14 is equal to that of the sliding shafts 8 and corresponds to that of the sliding shafts 8 one by one, the sleeves 14 are coaxially arranged with the corresponding sliding shafts 8, the sliding shafts 8 are slidably connected with the inner walls of the sleeves 14, the second fixing plates 13 are fixedly provided with sliding rail shafts 15, the sliding rail shafts 15 are coaxially arranged with the first straight racks 5, the sliding rail shafts 15 are rotatably connected with first threaded rods 16 which are coaxially arranged, a plurality of uniformly distributed sliding blocks 17 are arranged in the sliding rail shafts 15, the sliding blocks 17 correspond to the sleeves 14 one by one, the first threaded rods 16 penetrate through the sliding blocks 17 and are in threaded engagement connection with the sliding blocks 17, and the side walls of the sliding shafts 8, which are far away from the belt conveyor 1, are fixedly provided with second racks 82;

the lower part of the sleeve 14 is provided with a supporting plate 18, the supporting plate 18 is fixedly connected with a second fixed plate 13, the supporting plate 18 is provided with a first rotating shaft 19 which is in rotating connection, the first rotating shaft 19 is coaxially arranged with the gear column 4, the upper end of the first rotating shaft 19 is fixedly sleeved with a first gear 20 which is coaxially arranged, the side wall of the sleeve 14 is provided with a notch groove, the first gear 20 penetrates through the notch groove and is in meshing connection with a second gear 82, the lower end of the first rotating shaft 19 is fixedly sleeved with a second gear 21 which is coaxially arranged, the sliding block 17 is fixedly provided with a second straight rack 22, the second straight rack 22 is coaxially arranged with the first threaded rod 16, and the second straight racks 22 are in one-to-one correspondence with the second gears 21 and are in meshing connection with the second gears 21;

the first threaded rod 16 is rotated, the first threaded rod 16 is in threaded engagement transmission with the sliding block 17, the sliding block 17 drives the second straight toothed bar 22, the second straight toothed bar 22 drives the second gear 21, the second gear 21 drives the first rotating shaft 19, the first rotating shaft 19 drives the first gear 20, the first gear 20 rotates to drive the second toothed bar 82, the second toothed bar 82 drives the sliding shaft 8 to move, and the movement of the sliding shaft 8 is indirectly controlled through the rotation of the first threaded rod 16.

In order to facilitate the control of the rotation of the first threaded rod 16, one end of the sliding rail shaft 15 is fixed with a first rotation motor 23, the output end of the first rotation motor 23 is provided with a second rotating shaft, the second rotating shaft is coaxially arranged with the first threaded rod 16, the second rotating shaft penetrates through the sliding rail shaft 15 and is rotationally connected with the sliding rail shaft 15, and one end of the second rotating shaft is fixed with the first threaded rod 16; the first rotating motor 23 is started, the output end of the first rotating motor 23 drives the second rotating shaft, and the second rotating shaft drives the first threaded rod 16 to rotate.

In order to press the fixing assembly for once to carry out the assembly of the router shell, the fixing assembly is convenient to supplement in time, one side of the baffle plate strip 2 close to the second fixing plate 13 is provided with a plurality of storage tubes 24 which are uniformly distributed, the storage tubes 24 are in a vertically upward placement state, the storage tubes 24 are in one-to-one correspondence with the pressing assembly, the side of the storage tubes 24 close to the second fixing plate 13 is provided with a feed chute, the lower ends of the storage tubes 24 are in an opening shape, the lower ends of the storage tubes 24 are flush with the upper end face of the pressing plate 7, a connecting plate 25 is arranged right above the belt conveyor 1, the upper ends of the storage tubes 24 are fixed with the lower end face of the connecting plate 25, and the connecting plate 25 is stably supported by a plurality of support columns fixedly connected with the baffle plate strip 2; pressing the first pressing block and the second pressing block at two ends of the fixing component, placing the fixing component into the storage pipe 24 along the feed chute, sequentially placing a plurality of fixing components into the storage pipe 24, and facilitating timely supplement of the fixing component after once pressing the fixing component for splicing the router shell.

In order to facilitate automatic downward movement of the fixed assembly in the storage tube 24 for supplementary feeding, sliding clamping pushing blocks 241 are arranged in the storage tube 24, connecting bars 242 are fixed between the pushing blocks 241 on the same baffle strip 2 side, a pair of second threaded rods 26 which are vertically and downwardly placed are rotationally connected on the connecting plate 25, and the second threaded rods 26 penetrate through the connecting bars 242 and are in threaded engagement connection with the connecting bars 242; by rotating the second threaded rod 26, the second threaded rod 26 drives the connecting bar 242 to conduct thread meshing transmission, the connecting bar 242 moves downwards along the axis direction of the second threaded rod 26, the connecting bar 242 drives the pushing block 241, and the pushing block 241 pushes the fixing component in the storage tube 24 to move downwards for supplementary feeding.

In order to facilitate synchronous control of the rotation of the second threaded rods 26 on two sides, a second rotating motor 27 is fixedly arranged on the lower end surface of the connecting plate 25, a third rotating shaft is arranged at the output end of the second rotating motor 27, the third rotating shaft penetrates through the connecting plate 25 and is rotationally connected with the connecting plate 25, a third gear 271 which is coaxially arranged is fixedly sleeved on the third rotating shaft, a fourth gear 272 which is coaxially arranged is fixedly sleeved on the upper end of the second threaded rod 26, and an annular synchronous toothed belt 273 which is in meshing connection is sleeved between the third gear 271 and the fourth gear 272; the second rotating motor 27 is started, the output end of the second rotating motor 27 drives a third rotating shaft, the third rotating shaft drives a third gear 271, the third gear 271 drives an annular synchronous toothed belt 273, the annular synchronous toothed belt 273 drives a fourth gear 272, and the fourth gear 272 drives the second threaded rod 26 to rotate, so that the aim of synchronously controlling the rotation of the second threaded rods 26 on two sides is fulfilled.

After the pressing component pushes the fixing component right below the storage pipe 24 to move towards the belt conveyor 1, in order to avoid the situation that the lowest fixing component in the storage pipe 24 falls on the spring 12 and the fixing component cannot be fed and supplemented, a third sliding groove 72 which is coaxially arranged is formed in one side surface of the pressing component, which is close to each other, of the two pressing plates 7 of the pressing component, two ends of the connecting rod 9 are in sliding clamping connection with the third sliding groove 72, the sealing plate 28 is fixedly arranged on the connecting rod 9, and the upper end surface of the sealing plate 28 is flush with the upper end surface of the pressing plate 7;

when the upper end surface of the pressing plate 7 and the upper end surface of the supporting plate 3 are just equal to the height of a fixed component, and the sliding shaft 8 pushes the telescopic pipe 10, the pushing plate 11 and the connecting rod 9 to approach the belt conveyor 1, the connecting rod 9 drives the plugging plate 28 to move along the third sliding groove 72, and when the pressing component pushes the fixed component to splice with the router shell, the plugging plate 28 just seals and plugs the lower end of the storage pipe 24, so that the fixed component in the storage pipe 24 is prevented from falling on the spring 12 during splicing, and feeding supplement of the fixed component can be guaranteed only after the pressing component is reset.

In order to facilitate positioning of the router shell conveyed on the belt conveyor 1, a fixing strip is arranged below the connecting plate 25, two ends of the fixing strip are both fixed with a support column, a telescopic cylinder 29 which is vertically and downwards placed is fixed at the lower end of the fixing strip, and a valve plate 291 is fixed at the lower end of a telescopic rod of the telescopic cylinder 29; when one side of the router housing is attached to the valve plate 291, positioning of the router housing and the corresponding pressing assembly can be accomplished.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing has shown and described the basic principles, principal features, and advantages of the present disclosure. It will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, which have been described in the foregoing and description merely illustrates the principles of the disclosure, and that various changes and modifications may be made therein without departing from the spirit and scope of the disclosure, which is defined in the appended claims.

Claims (8)

1. The shell splicing equipment of the Wi-Fi7 router comprises a belt conveyor (1) and is characterized in that baffle strips (2) are fixed on two sides of the belt conveyor (1) along the conveying direction, supporting plates (3) are fixed on the baffle strips (2), a plurality of groups of uniformly distributed pressing assemblies are arranged on the supporting plates (3), and the pressing assemblies on the supporting plates (3) on two sides are in one-to-one correspondence and are in opposite placement states;

the pressing component comprises a gear column (4), the gear column (4) is vertically upwards placed, the gear column (4) is rotationally connected to a supporting plate (3), a pair of first straight racks (5) which are symmetrically placed in the center relative to the gear column (4) are connected in a meshed mode, the first straight racks (5) are coaxially placed in the conveying direction of the belt conveyor (1), first sliding grooves (31) are formed in the supporting plate (3), the first sliding grooves (31) are coaxially placed in the first straight racks (5), the first straight racks (5) can be slidably clamped along the axis direction of the first sliding grooves (31), clamping columns (6) are fixedly arranged on the first straight racks (5), pressing plates (7) are connected to the clamping columns (6), the pressing plates (7) are perpendicular to the first straight racks (5) and are placed towards the belt conveyor (1), second sliding grooves (71) which are coaxially placed are formed in the lower end face of the pressing plates (7), the upper ends of the clamping columns (6) are coaxially placed with the second sliding grooves (71), the sliding plates (7) are fixedly connected to the first sliding plates (8) and the side walls (81) are coaxially placed on the two sides of the first sliding plates (8) respectively, a connecting rod (9) is fixed between two pressing plates (7) of the same pressing assembly, the connecting rod (9) is placed coaxially with a first straight rack (5), the connecting rod (9) is arranged to be a telescopic pipe (10) which can stretch out and draw back along the axis direction of the connecting rod, a sliding shaft (8) is fixed with a connecting side wall, one end of the sliding shaft (8) close to a belt conveyor (1) is fixedly provided with a telescopic pipe (10) which is placed coaxially, the telescopic pipe (10) is fixedly provided with a push plate (11) close to the end of the belt conveyor (1), springs (12) which are placed coaxially are sleeved on the telescopic pipe (10), one end of each spring (12) is fixed with the push plate (11), the other end of each spring (12) is fixed with the sliding shaft (8), and when the telescopic pipe (10) is in an extension state, the push plate (11) stretches out of the position between the two pressing plates (7).

2. The shell splicing equipment of the Wi-Fi7 router according to claim 1, wherein a first fixed plate is fixedly installed on each baffle strip (2), a second fixed plate (13) which is vertically and upwards placed is fixedly installed at the end, far away from a belt conveyor (1), of each first fixed plate, a plurality of uniformly distributed sleeves (14) are fixedly installed on each second fixed plate (13), the number of the sleeves (14) is equal to that of the sliding shafts (8) and corresponds to each other one by one, the sleeves (14) are coaxially placed with the corresponding sliding shafts (8), the sliding shafts (8) are slidably connected with the inner walls of the sleeves (14), sliding rail shafts (15) are coaxially placed with the first straight racks (5) on each second fixed plate (13), first threaded rods (16) which are coaxially placed are rotatably connected in the sliding rail shafts (15), a plurality of uniformly distributed sliding blocks (17) are arranged in the sliding rail shafts (15), the sliding blocks (17) correspond to the sleeves (14 one by one, the first sliding blocks (16) penetrate through the sliding blocks (17) and are in threaded connection with the threaded rods (17) and are fixedly connected with the side walls (82) of the second straight racks (1), and the sliding shafts (82) are far away from the side walls of the belt conveyor;

the sleeve (14) below all is equipped with backup pad (18), backup pad (18) all with second fixed plate (13) fixed connection, all be equipped with on backup pad (18) and rotate first pivot (19) of being connected, first pivot (19) all are coaxial to placing with gear post (4), first gear (20) that first pivot (19) upper end fixed cover was equipped with the coaxial line and place, the breach groove has all been seted up on sleeve (14) lateral wall, first gear (20) all pass the breach groove and with second rack (82) meshing connection, first pivot (19) lower extreme all fixed cover is equipped with second gear (21) that the coaxial line was placed, all be fixed with second rack (22) on slider (17), second rack (22) all are coaxial to placing with first threaded rod (16), second rack (22) and second gear (21) one-to-one and with its meshing connection.

3. The housing splicing device of a Wi-Fi7 router according to claim 2, wherein a first rotating motor (23) is fixed at one end of the slide shaft (15), a second rotating shaft is arranged at the output end of the first rotating motor (23), the second rotating shaft is coaxially arranged with the first threaded rod (16), the second rotating shaft penetrates through the slide shaft (15) and is rotationally connected with the slide shaft (15), and one end of the second rotating shaft is fixed with the first threaded rod (16).

4. The shell splicing equipment of a Wi-Fi7 router according to claim 1, wherein a plurality of storage pipes (24) which are uniformly distributed are arranged on one side, close to the second fixed plate (13), of the baffle strip (2), the storage pipes (24) are in a vertically upward placement state, the storage pipes (24) are in one-to-one correspondence with the pressing assemblies, feed grooves are formed in the side, close to the second fixed plate (13), of the storage pipes (24), the lower ends of the storage pipes (24) are in an opening shape, the lower ends of the storage pipes (24) are flush with the upper end face of the pressing plate (7), a connecting plate (25) is arranged right above the belt conveyor (1), the upper ends of the storage pipes (24) are fixed with the lower end face of the connecting plate (25), and the connecting plate (25) is stably supported through a plurality of support columns fixedly connected with the baffle strip (2).

5. The shell splicing device of a Wi-Fi7 router according to claim 4, wherein pushing blocks (241) in sliding clamping are arranged in the storage tube (24), connecting bars (242) are fixed between the pushing blocks (241) on the same baffle strip (2) side, a pair of second threaded rods (26) placed vertically downwards are rotatably connected to the connecting plates (25), and the second threaded rods (26) penetrate through the connecting bars (242) and are in threaded engagement connection with the connecting bars (242).

6. The shell splicing device of the Wi-Fi7 router according to claim 5, wherein a second rotating motor (27) is fixedly arranged on the lower end face of the connecting plate (25), a third rotating shaft is arranged at the output end of the second rotating motor (27), the third rotating shaft penetrates through the connecting plate (25) and is rotationally connected with the connecting plate (25), a third gear (271) which is coaxially placed is fixedly sleeved on the third rotating shaft, a fourth gear (272) which is coaxially placed is fixedly sleeved on the upper end of the second threaded rod (26), and an annular synchronous toothed belt (273) which is in meshed connection is sleeved between the third gear (271) and the fourth gear (272).

7. The Wi-Fi7 router shell splicing equipment according to claim 5, wherein a third sliding groove (72) which is placed in the same axial direction is formed in one side surface, close to each other, of each of two pressing plates (7) of the pressing assembly, two ends of the connecting rod (9) are in sliding clamping connection with the third sliding groove (72), the sealing plate (28) is fixedly installed on the connecting rod (9), and the upper end surface of the sealing plate (28) is flush with the upper end surface of the pressing plate (7).

8. The housing splicing device of the Wi-Fi7 router according to claim 1, wherein a fixing strip is arranged below the connecting plate (25), two ends of the fixing strip are fixed with a supporting column, a telescopic cylinder (29) which is vertically and downwards arranged is fixed at the lower end of the fixing strip, and a valve plate (291) is fixed at the lower end of a telescopic rod of the telescopic cylinder (29).