CN212764818U - Printer networking based on Internet of things - Google Patents

Abstract

The utility model relates to a printer field, concretely relates to printer network deployment based on thing networking. The automatic feeding device comprises a bottom frame, transmission assemblies, sliding rods, a base assembly and a platform assembly, wherein the transmission assemblies are arranged in the bottom frame, the sliding rods are arranged on two sides of the transmission assemblies, the sliding rods are arranged between the insides of the bottom frame, the bottom of the base assembly is connected with the transmission assemblies and the sliding rods, the base assembly is correspondingly arranged on the upper portion of the bottom frame, and the platform assembly is correspondingly arranged on the upper portion of the base assembly; the utility model discloses rational in infrastructure simple, the product after printing can directly take out from the base, is convenient for improve printing efficiency.

Description

Printer networking based on Internet of things

Technical Field

The utility model relates to a printer field, concretely relates to printer network deployment based on thing networking.

Background

CN201610225234.5 discloses an intelligent desktop 3D printer based on the Internet of things, which comprises a base, two upright posts vertically arranged above the base and positioned at two ends of the base, a cross beam erected at the top ends of the upright posts, and a printing mechanism arranged below the cross beam, wherein the intelligent desktop 3D printer based on the Internet of things can ensure that a user can remotely control the printer through a wireless communication module, so that the intellectualization of the printer is realized; the uniform and regular feeding of the two feeding assemblies is realized through the driving wheel, and the reliability and accuracy of material addition are realized, so that the printing reliability of the printer is ensured; while the amount of feed can be further accurately controlled by the timing module, which, though, improves the reliability of the printer. However, since the workbench is relatively fixed, the printed product needs to be taken, and the product is easily damaged during the process of taking the product, so how to improve the workbench of the 3d printer is especially important.

Disclosure of Invention

For solving the problem of the prior art, the utility model provides a printer network deployment based on thing networking.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a printer networking based on the Internet of things comprises a bottom frame, a transmission assembly, sliding rods, a base assembly and a platform assembly, wherein the transmission assembly is arranged in the bottom frame;

the bottom frame comprises a first frame plate, a second frame plate, a third frame plate and a fourth frame plate, the first frame plate, the second frame plate, the third frame plate and the fourth frame plate are of aluminum profile structures, and the first frame plate, the second frame plate, the third frame plate and the fourth frame plate are fixedly connected end to form a rectangular structure;

the transmission assembly comprises a motor, a synchronous belt, a first synchronous wheel and a second synchronous wheel, one side of the motor is fixed on the upper part of the inner side wall of the second frame plate, a rotating shaft of the motor is fixedly connected with the first synchronous wheel, the synchronous belt bypasses the first synchronous wheel and the second synchronous wheel, and the second synchronous wheel is connected with the upper part of the fourth frame plate through a synchronous wheel support;

the sliding rod comprises a first sliding rod, a second sliding rod, a first linear bearing seat and a second linear bearing seat, the first sliding rod and the second sliding rod are of round rod-shaped structures, one end of the first sliding rod is fixedly connected with one side of the upper part of the second frame plate, the other end of the first sliding rod is fixedly connected with one side of the upper part of the fourth frame plate, the first linear bearing seat is sleeved on the first sliding rod, one end of the second sliding rod is fixedly connected with the other side of the upper part of the second frame plate, the other end of the second sliding rod is fixedly connected with the other side of the upper part of the fourth frame plate, and the second sliding rod is sleeved;

the base assembly comprises a base, a first base bottom plate, a second base bottom plate, a transverse base plate and screw assemblies, wherein the bottom of the base is connected with the first base bottom plate and the second base bottom plate through the screw assemblies, the number of the screw assemblies is four, the screw assemblies are uniformly distributed at four corners of the base, the first base bottom plate and the second base bottom plate are both of a long-strip-shaped structure, the first base bottom plate and the second base bottom plate are arranged in parallel, the first base bottom plate and the second base bottom plate are respectively positioned at two sides of the base, the transverse base plate is fixed between the middle part of the first base bottom plate and the middle part of the second base bottom plate, and; the upper parts of the linear bearing blocks II at the bottom of the base bottom plate I are fixedly connected, the bottom of the base bottom plate II is fixedly connected with the upper parts of the linear bearing blocks I, and the transverse middle position of a transverse plate of the base is fixedly connected with the synchronous belt;

the platform assembly comprises a base plate portion, a base plate and limiting rods, the base plate portion can be detachably arranged on the base, the base plate portion can be detachably provided with the base plate, the bottom end portion of the limiting rods is fixed to the base plate portion, the limiting rods are vertically fixed to the base plate portion, the number of the limiting rods is four, the limiting rods are evenly distributed at four corners of the base plate portion, and the base plate penetrates through the limiting rods and the inner side of the base plate is close to the base plate portion.

Preferably, the synchronizing wheel support comprises a support, a first support plate and a second support plate, the bottom of the support is fixedly connected with the four upper parts of the frame plate, the first support plate and the second support plate are fixed on one side of the upper part of the support and are of rectangular plate structures, the end parts of the first support plate and the second support plate are vertically and fixedly connected with the side wall of the support, synchronizing wheel grooves are formed between the first support plate and the second support plate, and the second synchronizing wheel is arranged between the synchronizing wheel grooves.

The optimized screw assembly comprises a first butterfly screw, a spring, a first screw hole and a second screw hole, wherein the first screw hole is formed in the first base plate and the second base plate, the first butterfly screw penetrates through the first screw hole, the second screw hole is formed in the base, an internal thread is arranged in the second screw hole and matched with an external thread of the first butterfly screw, the two screw holes are correspondingly arranged at the positions of the first screw hole, the butterfly screw penetrates through the first screw hole and the second screw hole simultaneously, the spring is located between the first screw hole and the second screw hole, and the spring is arranged on the periphery of the butterfly screw; one end of the spring abuts against the periphery of the first screw hole, and the other end of the spring abuts against the periphery of the second screw hole.

Preferably, the substrate part comprises a groove, a substrate table and a substrate, the groove is rectangular, the groove is formed in the middle of the base, the substrate table is of a three-dimensional rectangular structure, the bottom of the substrate table is matched and arranged in the groove, the upper portion of the substrate table and the middle of the bottom of the substrate are integrally and fixedly connected, and the substrate main body is of a rectangular structure.

Preferably, a balance bubble level meter is fixed at one end of the substrate, and the balance bubble level meter is horizontally fixed at the end part of one side of the substrate.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model has the advantages of reasonable and simple structure, the product after printing can directly be taken out from the base, be convenient for improve printing efficiency, wherein the base operation is stable, can adjust the height of platform subassembly through screw assembly, and base plate portion can with base direct separation, thereby be convenient for in time change different base plate portions, the product that will print is also convenient for simultaneously separates from the printer, and simultaneously because the printing product is located the backing plate, also can be directly shift the product of printing through shifting the backing plate, avoid the product damage of printing.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the following detailed description of non-limiting embodiments thereof, with reference to the accompanying drawings.

Fig. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic view of the bottom view of the present invention.

Fig. 3 is a schematic view of the structure of the middle bottom frame of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the middle base of the present invention.

Fig. 5 is a schematic top view of the base of the present invention.

Fig. 6 is an enlarged schematic view of a portion a in fig. 1.

Fig. 7 is a schematic top view of the platform assembly according to the present invention.

In the above drawings, the names corresponding to the reference numerals are bottom frame 1, frame plate one 11, frame plate two 12, frame plate three 13, frame plate four 14, display screen 15, transmission assembly 2, motor 21, synchronous belt 22, synchronous wheel one 231, synchronous wheel two 232, synchronous wheel support 2321, support 23211, support plate one 23212, support plate two 23213, slide bar 3, slide bar one 31, slide bar two 32, linear bearing block one 331, linear bearing block two 332, base assembly 4, base 41, base bottom plate one 421, base bottom plate two 422, base transverse plate 423, screw assembly 44, butterfly screw 441, spring 442, screw hole one 443, screw hole two 444, platform assembly 5, base plate portion 51, backing plate 52, limiting rod 53, groove 511, base plate 512, base plate 513 and balance bubble level meter 514.

Detailed Description

The present invention will be described in further detail with reference to the following examples, which are provided only for illustrating the present invention and do not limit the scope of the present invention.

The internet-of-things-based printer networking shown in fig. 1-7 comprises a bottom frame 1, a transmission assembly 2, slide rods 3, a base assembly 4 and a platform assembly 5, wherein the transmission assembly 2 is arranged in the bottom frame 1, the slide rods 3 are arranged on two sides of the transmission assembly 2, the slide rods 3 are arranged between the bottoms of the bottom frame 1, the bottom of the base assembly 4 is connected with the transmission assembly 2 and the slide rods 3, the base assembly 4 is correspondingly arranged on the upper portion of the bottom frame 1, and the platform assembly 5 is correspondingly arranged on the upper portion of the base assembly 4; the bottom frame 1 is used for supporting, the transmission component 2 in the bottom frame 1 is started to drive the base component 4 to move and further drive the platform component 5 to move, the slide rod 3 enables the base component 4 to move more stably, the height of the base component 4 can be adjusted to control and adjust the relative height of the platform component 5, the platform component 5 is convenient to mount and dismount, after the product is printed, the platform component 5 and the base component 4 can be directly separated, so that the new product can be moved out of a printing area without pinching the product, the next product can be directly printed, the printing speed is improved, if the platform component 5 is not proper in height in the printing process, the printing accuracy can be improved by adjusting the height of the platform component 5 through the base component 4 at any time, the bottom frame 1, the transmission component 2, the slide rod 3, the base component 4 and the platform component 5 jointly act through stable movement, the control of the height and the convenient displacement of the product improve the printing effect.

The bottom frame 1 is rectangular, the bottom frame 1 comprises a first frame plate 11, a second frame plate 12, a third frame plate 13 and a fourth frame plate 14, the first frame plate 11, the second frame plate 12, the third frame plate 13 and the fourth frame plate 14 are of aluminum profile structures, the first frame plate 11, the second frame plate 12, the third frame plate 13 and the fourth frame plate 14 are fixedly connected end to form a rectangular structure, the bottom frame 1 is stable in structure, and stability of a printing process is improved.

Please refer to fig. 3, the transmission assembly 2 includes a motor 21, a synchronous belt 22, a first synchronous wheel 231, a second synchronous wheel 232, one side of the motor 21 is fixed on the upper portion of the inner side wall of the second frame plate 12, the rotating shaft of the motor 21 is fixedly connected with the first synchronous wheel 231, the synchronous belt 22 bypasses the first synchronous wheel 231 and the second synchronous wheel 232, the first synchronous wheel 231 is connected with one side inside the synchronous belt 22, the other side inside the synchronous belt 22 is connected with the second synchronous wheel 232, and the second synchronous wheel 232 is connected with the upper portion of the fourth frame plate 14 through a synchronous wheel support 2321; the motor 21 drives the synchronous belt 22 to rotate through the first synchronous wheel 231, so that the first synchronous wheel 231 and the second synchronous wheel 232 which are stable in the synchronous belt 22 move, and the synchronous belt 22 drives the base assembly 4 to move, so that the platform assembly 5 is driven to move.

The synchronizing wheel support 2321 comprises a support 23211, a first support plate 23212 and a second support plate 23213, the bottom of the support 23211 is fixedly connected with the upper part of a fourth frame plate 14, one side of the upper part of the support 23211 is fixedly provided with the first support plate 23212 and the second support plate 23213, the first support plate 23212 and the second support plate 23213 are both rectangular plate-shaped structures, the end parts of the first support plate 23212 and the second support plate 23213 are vertically and fixedly connected with the side wall of the support 23211, a synchronizing wheel groove 2314 is formed between the first support plate 23212 and the second support plate 23213, and a second synchronizing wheel 232 is arranged between the synchronizing wheel grooves 2314. The second synchronizing wheel 232 can stably rotate in the synchronizing wheel groove 2314.

Preferably, a display screen 15 is arranged on one side of the frame plate four 14, and the display screen 15 is obliquely fixed on the side surface of the frame plate four 14.

The sliding rod 3 comprises a first sliding rod 31, a second sliding rod 32, a first linear bearing seat 331 and a second linear bearing seat 332, the first sliding rod 31 and the second sliding rod 32 are of round rod-shaped structures, one end of the first sliding rod 31 is fixedly connected with one side of the upper part of the second frame plate 12, the other end of the first sliding rod 31 is fixedly connected with one side of the upper part of the fourth frame plate 14, the first linear bearing seat 331 is sleeved on the first sliding rod 31, one end of the second sliding rod 32 is fixedly connected with the other side of the upper part of the second frame plate 12, the other end of the second sliding rod 32 is fixedly connected with the other side of the upper part of the fourth frame plate 14, and the second linear bearing seat 332; the first linear bearing seat 331 slides stably on the first sliding rod 31, and the second linear bearing seat 332 slides stably on the second sliding rod 32.

Please refer to fig. 4, the base assembly 4 includes a base 41, a first base bottom plate 421, a second base bottom plate 422, a base transverse plate 423 and a screw assembly 44, the base 41 is rectangular plate-shaped, the bottom of the base 41 is connected with the first base bottom plate 421 and the second base bottom plate 422 through the screw assembly 44, the screw assemblies 44 are four in number and uniformly distributed at four corners of the base 41, the first base bottom plate 421 and the second base bottom plate 422 are all long-strip plate-shaped structures, the first base bottom plate 421 and the second base bottom plate 422 are arranged in parallel, the first base bottom plate 421 and the second base bottom plate 422 are respectively located at two sides of the base 41, the base transverse plate 423 is fixed between the middle of the first base bottom plate 421 and the middle of the second base bottom plate 422, and the transverse plate 423 is; the upper parts of the linear bearing seats II 332 at the bottom of the base bottom plate I421 are fixedly connected, the bottom parts of the base bottom plate II 422 are fixedly connected with the upper parts of the linear bearing seats I331, and the transverse middle position of the base transverse plate 423 is fixedly connected with the synchronous belt 22. The first base bottom plate 421 and the second base bottom plate 422 can adjust the distance between the first base bottom plate 421 and the second base bottom plate 422 and the base 41 at any time according to the condition through the adjusting function of the screw assembly 44.

Please refer to fig. 4 and 5, the screw assembly 44 includes a butterfly screw 441, a spring 442, a first screw hole 443 and a second screw hole 444, the first base plate 421 and the second base plate 422 are both provided with the first screw hole 443, the butterfly screw 441 passes through the first screw hole 443, the second screw hole 444 is opened on the base 41, an internal thread is provided in the second screw hole 444, the internal thread is matched with the external thread of the butterfly screw 441, the position of the second screw hole 444 corresponds to the position of the first screw hole 443, the butterfly screw 441 simultaneously passes through the first screw hole 443 and the second screw hole 444, the spring 442 is located between the first screw hole 443 and the second screw hole 444, and the spring 442 is disposed at the periphery of the butterfly screw 441; one end of the spring 442 abuts against the periphery of the first screw hole 443, and the other end of the spring 442 abuts against the periphery of the second screw hole 444; the spring 442 plays a buffering role, and the butterfly screw 441 is low in cost, small in occupied space and capable of being conveniently and rotatably adjusted.

Referring to fig. 1 and 6, the platform assembly 5 includes a base plate 51, a pad 52 and a stop lever 53, the base plate 51 is detachably disposed on the base 41, the pad 52 is detachably disposed on the base plate 51, a bottom end of the stop lever 53 is fixed on the base plate 51, the stop lever 53 is fixed to the base plate 51, the four stop levers 53 are uniformly distributed at four corners of the base plate 51, the pad 52 passes through the stop lever 53, and an inner side of the pad 52 is close to the base plate 51; the gag lever post 53 makes the backing plate 52 can be accurate fix a position on base plate portion 51, and the phenomenon of shifting can not take place for backing plate 52 in the product printing process, and backing plate 52 can in time realize the separation with base plate portion 51 simultaneously and carry out the timely removal of the product of printing on backing plate 52 to suitable position, thereby also can directly remove the product of printing to suitable position with base plate portion 51 whole and base 41 separation as the circumstances certainly.

Referring to fig. 5, 6 and 7, the substrate portion 51 includes a rectangular recess 511, a substrate table 512 and a substrate 513, the recess 511 is opened at the middle position of the susceptor 41, the substrate table 512 is a three-dimensional rectangular structure, the bottom of the substrate table 512 is disposed in the recess 511 in a matching manner, the upper portion of the substrate table 512 is fixedly connected with the middle position of the bottom of the substrate 513 integrally, and the main body of the substrate 513 is a rectangular structure. The rectangular configuration of the recess 511 and substrate table 512 makes them less prone to shifting after installation, while at the same time they also facilitate quick separation.

Preferably, a balance bubble level meter 514 is fixed at one end of the base plate 513, and the balance bubble level meter 514 is horizontally fixed at one side end position of the base plate 513. The balance bubble level 514 is used to observe the levelness of the substrate 513 in time.

When the printing device is used, the upper part of the bottom frame 1 is connected with other printing components in advance, then the substrate table 512 is placed in the groove 511 according to the printing requirement of a product, the backing plate 52 is placed on the substrate part 51, the butterfly screw 441 is rotated to control the height of the platform component 5, after the printing is finished, the product is positioned on the backing plate 52, at the moment, the backing plate 52 is directly removed from the limiting rod 53 or the substrate table 512 is directly separated from the groove 511 according to the requirement, and then a new backing plate 52 is installed or a new substrate part 51 is installed.

In the description herein, references to the description of "one embodiment," "an illustrated embodiment," or "some examples," etc., 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 invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (5)

1. The printer networking based on the Internet of things is characterized by comprising a bottom frame, a transmission assembly, sliding rods, a base assembly and a platform assembly, wherein the transmission assembly is arranged in the bottom frame;

the bottom frame comprises a first frame plate, a second frame plate, a third frame plate and a fourth frame plate, the first frame plate, the second frame plate, the third frame plate and the fourth frame plate are of aluminum profile structures, and the first frame plate, the second frame plate, the third frame plate and the fourth frame plate are fixedly connected end to form a rectangular structure;

the transmission assembly comprises a motor, a synchronous belt, a first synchronous wheel and a second synchronous wheel, one side of the motor is fixed on the upper part of the inner side wall of the second frame plate, a rotating shaft of the motor is fixedly connected with the first synchronous wheel, the synchronous belt bypasses the first synchronous wheel and the second synchronous wheel, and the second synchronous wheel is connected with the upper part of the fourth frame plate through a synchronous wheel support;

the sliding rod comprises a first sliding rod, a second sliding rod, a first linear bearing seat and a second linear bearing seat, the first sliding rod and the second sliding rod are of round rod-shaped structures, one end of the first sliding rod is fixedly connected with one side of the upper part of the second frame plate, the other end of the first sliding rod is fixedly connected with one side of the upper part of the fourth frame plate, the first linear bearing seat is sleeved on the first sliding rod, one end of the second sliding rod is fixedly connected with the other side of the upper part of the second frame plate, the other end of the second sliding rod is fixedly connected with the other side of the upper part of the fourth frame plate, and the second sliding rod is sleeved with;

the base assembly comprises a base, a first base bottom plate, a second base bottom plate, a transverse base plate and screw assemblies, wherein the bottom of the base is connected with the first base bottom plate and the second base bottom plate through the screw assemblies, the number of the screw assemblies is four, the screw assemblies are uniformly distributed at four corners of the base, the first base bottom plate and the second base bottom plate are of strip-shaped plate structures, the first base bottom plate and the second base bottom plate are arranged in parallel, the first base bottom plate and the second base bottom plate are respectively positioned at two sides of the base, the transverse base plate is fixed between the middle part of the first base bottom plate and the middle part of the second base bottom plate, and the transverse plate is; the upper parts of the linear bearing blocks II at the bottom of the base bottom plate I are fixedly connected, the bottom of the base bottom plate II is fixedly connected with the upper parts of the linear bearing blocks I, and the transverse middle position of a transverse plate of the base is fixedly connected with the synchronous belt;

the platform subassembly includes base plate portion, backing plate and gag lever post, and base plate portion can be dismantled and set up on the base, can dismantle in the base plate portion and set up the backing plate, and on gag lever post bottom portion was fixed in base plate portion, gag lever post and base plate portion vertical fixation, gag lever post quantity was four and evenly distributed in base plate portion four corners position department, and the backing plate passes the gag lever post and the backing plate inboard is attached in base plate portion.

2. The Internet of things-based printer networking of claim 1, wherein the synchronizing wheel support comprises a support, a first support plate and a second support plate, the bottom of the support is fixedly connected with the upper portion of a frame plate, the first support plate and the second support plate are fixed on one side of the upper portion of the support, the first support plate and the second support plate are both rectangular plate-shaped structures, the end portions of the first support plate and the second support plate are vertically and fixedly connected with the side wall of the support, synchronizing wheel grooves are formed between the first support plate and the second support plate, and the second synchronizing wheel is arranged between the synchronizing wheel grooves.

3. The Internet of things-based printer networking of claim 2, wherein the screw assembly comprises a butterfly screw, a spring, a first screw hole and a second screw hole, the first screw hole and the second screw hole are respectively formed in the first base plate and the second base plate, the butterfly screw penetrates through the first screw hole, the second screw hole is formed in the base, an internal thread is formed in the second screw hole, the internal thread is matched with an external thread of the butterfly screw, the positions of the second screw hole and the first screw hole are correspondingly arranged, the butterfly screw penetrates through the first screw hole and the second screw hole simultaneously, the spring is located between the first screw hole and the second screw hole, and the spring is arranged on the periphery of the butterfly screw; one end of the spring abuts against the periphery of the first screw hole, and the other end of the spring abuts against the periphery of the second screw hole.

4. The Internet of things-based printer networking of claim 2, wherein the substrate portion comprises a groove, a substrate table and a substrate, the groove is rectangular, the groove is formed in the middle of the base, the substrate table is of a three-dimensional rectangular structure, the bottom of the substrate table is arranged in the groove in a matched mode, the upper portion of the substrate table and the middle of the bottom of the substrate are integrally and fixedly connected, and the substrate body is of a rectangular structure.

5. The Internet of things-based printer networking of claim 4, wherein a balance bubble level gauge is fixed at one end of the base plate, and the balance bubble level gauge is horizontally fixed at the end part of one side of the base plate.

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