GB2610006A - Big data perceptual identification storage terminal - Google Patents

Abstract

A big data perceptual identification storage terminal 9 has an outer device main body 1 comprising heat insulating roof (16) damp-proof base (17) and side walls (1) (see fig 1). At least cooling fan (18) with dust filter (19) preferably at a rear wall (figure 3) opposite a front door (figs 1,3). The figure 2 shows how terminal 9 is mounted inside, with damp absorbing plates 22 mounted to side walls via clamps A (See fig 5). The termina 9 is mounted to a mounting seat 2 (plan view in fig 4 with optional array of bolt mounting holes 8) that also has at least one movable limit (alignment) plate 3 arranged to the lower side edge of the terminal 9 (see also fig 4). The limit plate is attached to a mechanism B (see fig 6) comprising movable block assembly (5, 7) on threaded rod 6 within groove 4. The limit plate aids workers when mounting and disassembling the terminal. Also shown is a storage element protection mechanism comprising sliding baffle 12 protecting at least one jack 11 located in a chamber 10 of the terminal. The baffle has a pull rod 13 for a user to slide the baffle open and releasing magnet retaining means 14 and 15 arranged on the baffle and chamber respectively.

Description

BIG DATA PERCEPTUAL IDENTIFICATION STORAGE TERMINAL

TECHNICAL FIELD

1011 The present disclosure relates to the technical field of data storage, in particular to a big data perceptual identification storage terminal.

BACKGROUND ART

1021 With the continuous development of the advertising industry, advertisers and operators are also beginning to seek more and more business opportunities for higher profits. Perceptual identification advertising machines that can perceive and identify the surrounding environment of the advertising machines appear. In the process of using the perceptual identification advertising machines, it is necessary to store the perceived and identified data and analyze the big data, and install a hard disk or a mobile USB disk to store advertising information.

1031 The mounting and disassembling steps of the big data perceptual identification storage terminal are troublesome. It is easy for workers to damage the terminal due to improper operation during the mounting or disassembling process. At the same time, the stability of using a single bolt for fixing is not good in the prior art. The existing big data perceptual identification storage terminal cannot protect the USB disk or other plug-ins when using the mobile USB disk or other plug-ins. If the USB disk or other plug-ins are stressed at the side during use, it is easy to damage not only the USB disk or other plug-ins, but also the jack of the storage terminal. The service life of the existing big data perceptual identification storage terminal is generally not long. The service life of the perceptual identification storage terminal will be affected by moisture and overheating inside the device during use.

SUMMARY

1041 The purpose of the present disclosure is to provide a big data perceptual identification storage terminal to solve the problems of troublesome mounting and disassembling steps, inability to protect USB disk or other plug-ins and generally short service life, which are proposed in the background art 1051 In order to achieve the above purpose, the present disclosure provides the following technical scheme. a big data perceptual identification storage terminal, comprising a device main body, a mounting seat and a movable limit plate, wherein the bottom of the inner part of the device main body is fixedly connected with the mounting seat, the top of the mounting seat is movably connected with the movable limit plate, wherein 1061 the front face of the inner part of the mounting seat is fixedly connected with a movable groove, the inner part of the movable groove is movably connected with a threaded movable block, the inner part of the threaded movable block is embedded and connected with a threaded transmission rod, the front face of the threaded movable block is fixedly connected with a connecting rod, the surface of the mounting seat is fixedly connected with an auxiliary positioning hole, and the middle part of the top of the mounting seat is lap-jointed and connected with a perceptual identification storage terminal, 1071 both sides of the front face of the perceptual identification storage terminal are fixedly connected with a plug-in chamber, the inner part of the plug-in chamber is fixedly connected with a jack, the front face of the plug-in chamber is movably connected with a movable baffle, the left side of the middle part of the movable baffle is fixedly connected with a pull rod, the right side of the movable baffle is fixedly connected with a first magnetic plate, and the right side of the inner part of the plug-in chamber is fixedly connected with a second magnetic plate; 1081 the top of the device main body is fixedly connected with a heat-insulating top cover, the bottom of the device main body is fixedly connected with a damp-proof base, the rear side of the inner part of the device main body is fixedly connected with an auxiliary heat dissipation fan, the rear side of the auxiliary heat dissipation fan is fixedly connected with a dust filter plate, the top of the rear side of the device main body is fixedly connected with an anti-contact pad, both sides of the inner part of the device main body are fixedly connected with mounting grooves, the inner part of the mounting grooves is movably connected with a damp-proof plate, the right side of the bottom of the mounting grooves is embedded and connected with a threaded connecting rod, and the left side of the threaded connecting rod is fixedly connected with a positioning disk.

1091 Preferably, the cross section of the mounting base is rectangular, there are two movable limit plates in total, the two movable limit plates are used in cooperation with each other and distributed symmetrically with the middle of the mounting base as the axis, the inner part of the movable groove is provided with a rectangular hollow cavity, the threaded movable block is embedded in the movable groove, the threaded transmission rod and the threaded movable block are engaged with each other through threads, there are more than fifty auxiliary positioning holes in total, and there are six columns of auxiliary positioning holes in total.

1101 Preferably, the cross section of the plug-in chamber is rectangular, there are three types ofjacks in total, there are two plug-in chambers in total, the cross-section of the movable baffle is rectangular, the cross sections of the first magnetic plate and the second magnetic plate are rectangular, and the first magnetic plate and the second magnetic plate are used in cooperation with each other.

PA] Preferably, the surface of the heat-insulating top cover is provided with a reflective layer, the cross section of the damp-proof base is rectangular, there are four auxiliary heat dissipation fans and four dust filter plates, respectively, and a single auxiliary heat dissipation fan and a single dust filter plate are used in cooperation with each other, there are four anti-contact pads in total, which are located at four corners of the rear side of the device main body, respectively, and the cross-section of the positioning disk is circular.

1121 Compared with the prior art, the present disclosure has the following beneficial effects 1131 (1) According to the big data perceptual identification storage terminal, a mounting limit mechanism is provided. When mounting the perceptual identification storage terminal, relevant workers can first place the perceptual identification storage terminal on the surface of the mounting seat, and then select appropriate auxiliary positioning holes to fix the perceptual identification storage terminal with bolts. Thereafter, the workers can rotate the threaded transmission rod, which can drive the threaded movable block to displace during the rotation process, and then drive the movable limit plate to move. The workers can use the threaded transmission rod to move the movable limit plate to the outer wall of the perceptual identification storage terminal for auxiliary fixing. The convenience of the device main body is improved by a mounting limit mechanism, and workers do not need to lift the perceptual identification storage terminal frequently when mounting and disassembling the perceptual identification storage terminal, thus protecting the perceptual identification storage terminal, and reducing the working difficulty of relevant workers at the same time.

1141 (2) According to the big data perceptual identification storage terminal, a storage element protection mechanism is provided. Relevant workers can first hold the pull rod to pull the movable baffle to the left when they need to use related plug-ins, and then insert the related plug-ins into the designated jack. The plug-in chamber itself is high. When the plug-ins are inserted into the jack, relevant workers can be only in contact with the plug-ins from the front face of the plug-in chamber, thus avoiding the plug-ins from receiving other external forces from the side during use, which protects the plug-in and the jack. At the same time, when the jack is not in use, the workers can push the movable baffle to the right so that the first magnetic plate and the second magnetic plate are in contact with each other and then are absorbed together, thus avoiding dust accumulation at the edge of the jack due to direct exposure to the outside world. The storage element protection mechanism improves the practicability of the device main body, and protects the jack while protecting the plug-in.

1151 (3) According to the big data perceptual identification storage terminal, a multifunctional terminal protection mechanism is provided. Relevant workers can insert the damp-proof plate into the mounting groove before starting to use the perceptual identification storage terminal, then rotate the threaded connecting rod to attach the positioning disk to the surface of the damp-proof plate for fixing, and then turn on the auxiliary heat dissipation fan. The internal space of the device main body is large, which is beneficial to the heat dissipation of the perceptual identification storage terminal. The auxiliary heat dissipation fan can drive the air inside the device main body to flow to promote the perceptual identification storage terminal to dissipate heat. Meanwhile, the dust filter plate can filter dust during the operation of the auxiliary heat dissipation fan, which prevents dust in the air from entering the device. The damp-proof base and the damp-proof plate can absorb moisture and prevent the perceptual identification storage terminal from getting damp. The multifunctional terminal protection mechanism can prolong the service life of the perceptual identification storage terminal, promote the perceptual identification storage terminal to dissipate heat, and at the same time avoid the perceptual identification storage terminal from getting damp.

BRIEF DESCRIPTION OF THE DRAWINGS

1161 FIG. 1 is an overall schematic diagram of the present disclosure.

1171 FIG. 2 is a schematic diagram of the internal cross-sectional structure of a device main body according to the present disclosure.

1181 FIG. 3 is a schematic diagram of the back cross-sectional structure of a device

main body according to the present disclosure.

1-191 FIG. 4 is a schematic diagram of the top cross-sectional structure of a mounting

seat according to the present disclosure.

1201 FIG. 5 is a schematic diagram of an enlarged structure at A according to the

present disclosure.

1211 FIG. 6 is a schematic diagram of the enlarged structure at B according to the

present disclosure.

1221 In the figures: 1. Device main body; 2. Mounting seat; 3. Movable limit plate; 4.

Movable groove; 5. Thread movable block; 6. Threaded transmission rod; 7. Connecting rod; 8. Auxiliary positioning hole; 9. Perceptual identification storage terminal; 10. Plug-in chamber; 11. Jack; 12. Movable baffle; 13. Pull rod; 14. First magnetic plate; 15. Second magnetic plate; 16. Heat-insulating top cover; 17. Damp-proof base; 18. Auxiliary heat dissipation fan; 19. Dust filter plate; 20. Anti-contact pad; 21. Mounting groove; 22. Damp-proof plate; 23. Threaded connecting rod; 24. Positioning disk.

DETAILED DESCRIPTION OF THE EMBODIMENTS

1231 The technical solutions in the embodiments of the present disclosure will be clearly and completely described with reference to the drawings in the embodiments of the present disclosure hereinafter. Obviously, the described embodiments are only a part of the embodiments of the present disclosure, rather than all of the embodiments. Based on the embodiments in the present disclosure, all other embodiments obtained by those skilled in the art without paying creative labor are within the scope of protection of the present disclosure.

1241 Referring to FIGS. 1-6, the present disclosure provides a technical scheme: a big data perceptual identification storage terminal, comprising: I. Device main body; 2. Mounting seat; 3. Movable limit plate; 4. Movable groove; 5. Thread movable block; 6. Threaded transmission rod; 7. Connecting rod; 8. Auxiliary positioning hole; 9. Perceptual identification storage terminal; 10. Plug-in chamber; 11. Jack; 12. Movable baffle; 13. Pull rod; 14. First magnetic plate; 15. Second magnetic plate; 16. Heat-insulating top cover; 17. Damp-proof base; 18. Auxiliary heat dissipation fan; 19. Dust filter plate; 20. Anti-contact pad; 21. Mounting groove; 22. Damp-proof plate; 23. Threaded connecting rod; 24. Positioning disk. The bottom of the inner part of the device main body 1 is fixedly connected with the mounting seat 2, the top of the mounting seat 2 is movably connected with the movable limit plate 3, wherein 125] the cross section of the mounting base 2 is rectangular, there are two movable limit plates 3 in total, and the two movable limit plates 3 are used in cooperation with each other and distributed symmetrically with the middle of the mounting base 2 as the axis, the inner part of the movable groove 4 is provided with a rectangular hollow cavity, the threaded movable block 5 is embedded in the movable groove 4, the threaded transmission rod 6 and the threaded movable block 5 are engaged with each other through threads, there are more than filly auxiliary positioning holes 8 in total, and there are six columns of auxiliary positioning holes 8 in total. The mounting limit mechanism consists of the mounting seat 2, the movable limit plate 3, the movable groove 4, the threaded movable block 5, the threaded transmission rod 6, the connecting rod 7, the auxiliary positioning hole 8 and the perceptual identification storage terminal 9. The mounting and disassembling steps of the big data perceptual identification storage terminal are troublesome. It is easy for workers to damage the terminal due to improper operation during the mounting or disassembling process. At the same time, the stability of using a single bolt for fixing is not good in the prior art. A mounting limit mechanism is provided. When mounting the perceptual identification storage terminal 9, relevant workers can first place the perceptual identification storage terminal 9 on the surface of the mounting seat 2, and then select appropriate auxiliary positioning holes 8 to fix the perceptual identification storage terminal 9 with bolts. Thereafter, the workers can rotate the threaded transmission rod 6, which can drive the threaded movable block 5 to displace during the rotation process, and then drive the movable limit plate 3 to move. The workers can use the threaded transmission rod 6 to move the movable limit plate 3 to the outer wall of the perceptual identification storage terminal 9 for auxiliary fixing. The convenience of the device main body 1 is improved by a mounting limit mechanism, and workers do not need to lift the perceptual identification storage terminal frequently when mounting and disassembling the perceptual identification storage terminal 9, thus protecting the perceptual identification storage terminal 9, and reducing the working difficulty of relevant workers at the same time.

126] The cross section of the plug-in chamber 10 is rectangular, there are three types of jacks II in total, and there are two plug-in chambers 10 in total. The cross-section of the movable baffle 12 is rectangular. The cross sections of the first magnetic plate 14 and the second magnetic plate 15 are rectangular, and the first magnetic plate 14 and the second magnetic plate 15 are used in cooperation with each other. The storage element protection mechanism consists of the plug-in chamber 10, the jack 11, the movable baffle 12, the pull rod 13, the first magnetic plate 14 and the second magnetic plate 15. The existing big data perceptual identification storage terminal cannot protect the USB disk or other plug-ins when using the mobile USB disk or other plug-ins. If the USB disk or other plug-ins are stressed at the side during use, it is easy to damage not only the USB disk or other plug-ins, but also the jack 11 of the storage terminal. A storage element protection mechanism is provided. Relevant workers can first hold the pull rod 13 to pull the movable baffle 12 to the left when they need to use related plug-ins, and then insert the related plug-ins into the designated jack 11. The plug-in chamber 10 itself is high. When the plug-ins are inserted into the jack 11, relevant workers can be only in contact with the plug-ins from the front face of the plug-in chamber 10, thus avoiding the plug-ins from receiving other external forces from the side during use, which protects the plug-in and the jack 11. At the same time, when the jack 11 is not in use, the workers can push the movable baffle 12 to the right so that the first magnetic plate 14 and the second magnetic plate 15 are in contact with each other and then are absorbed together, thus avoiding dust accumulation at the edge of the jack 1 1 due to direct exposure to the outside world. The storage element protection mechanism improves the practicability of the device main body 1, and protects the jack 11 while protecting the plug-in.

1271 The surface of the heat-insulating top cover 16 is provided with a reflective layer, and the cross section of the damp-proof base 17 is rectangular. There are four auxiliary heat dissipation fans 18 and four dust filter plates 19, respectively, and a single auxiliary heat dissipation fan 18 and a single dust filter plate 19 are used in cooperation with each other. There are four anti-contact pads 20 in total, which are located at four corners of the rear side of the device main body 1, respectively, and the cross-section of the positioning disk 24 is circular. The multifunctional terminal protection mechanism consists of the heat-insulating top cover 16, the damp-proof base 17, the auxiliary heat dissipation fan 18, the dust filter plate 19, the anti-contact pad 20, the mounting groove 21, the damp-proof plate 22, the threaded connecting rod 23 and the positioning disk 24. The service life of the existing big data perceptual identification storage terminal is generally not long. The service life of the perceptual identification storage terminal will be affected by moisture and overheating inside the device during use. A multifunctional terminal protection mechanism is provided. Relevant workers can insert the damp-proof plate 22 into the mounting groove 21 before starting to use the perceptual identification storage terminal 9, then rotate the threaded connecting rod 23 to attach the positioning disk 24 to the surface of the damp-proof plate 22 for fixing, and then turn on the auxiliary heat dissipation fan 18. The internal space of the device main body 1 is large, which is beneficial to the heat dissipation of the perceptual identification storage terminal 9. The auxiliary heat dissipation fan 18 can drive the air inside the device main body 1 to flow to promote the perceptual identification storage terminal 9 to dissipate heat. Meanwhile, the dust filter plate 19 can filter dust during the operation of the auxiliary heat dissipation fan 18, which prevents dust in the air from entering the device. The damp-proof base 17 and the damp-proof plate 22 can absorb moisture and prevent the perceptual identification storage terminal 9 from getting damp. The multifunctional terminal protection mechanism can prolong the service life of the perceptual identification storage terminal 9, promote the perceptual identification storage terminal 9 to dissipate heat, and at the same time avoid the perceptual identification storage terminal 9 from getting damp.

1281 Working principle: when using the big data perceptual identification storage terminal, first, when mounting the perceptual identification storage terminal 9, relevant workers can first place the perceptual identification storage terminal 9 on the surface of the mounting seat 2, and then select appropriate auxiliary positioning holes 8 to fix the perceptual identification storage terminal 9 with bolts. Thereafter, the workers can rotate the threaded transmission rod 6, which can drive the threaded movable block 5 to displace during the rotation process, and then drive the movable limit plate 3 to move. The workers can use the threaded transmission rod 6 to move the movable limit plate 3 to the outer wall of the perceptual identification storage terminal 9 for auxiliary fixing. Relevant workers can first hold the pull rod 13 to pull the movable baffle 12 to the left when they need to use related plug-ins, and then insert the related plug-ins into the designated jack 11. The plug-in chamber 10 itself is high. When the plug-ins are inserted into the jack 11, relevant workers can be only in contact with the plug-ins from the front face of the plug-in chamber 10, thus avoiding the plug-ins from receiving other external forces from the side during use. Relevant workers can insert the damp-proof plate 22 into the mounting groove 21 before starting to use the perceptual identification storage terminal 9, then rotate the threaded connecting rod 23 to attach the positioning disk 24 to the surface of the damp-proof plate 22 for fixing, and then turn on the auxiliary heat dissipation fan 18. The internal space of the device main body I is large, which is beneficial to the heat dissipation of the perceptual identification storage terminal 9. The auxiliary heat dissipation fan 18 can drive the air inside the device main body 1 to flow to promote the perceptual identification storage terminal 9 to dissipate heat. Meanwhile, the dust filter plate 19 can filter dust during the operation of the auxiliary heat dissipation fan 18. What is not described in detail in the specification belongs to the prior art known to those skilled in the art.

1291 Although the present disclosure has been described in detail with reference to the foregoing embodiments, for those skilled in the art, it is still possible to modify the technical schemes described in the foregoing embodiments, or equivalently replace some technical features thereof. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present disclosure should be included in the scope of protection of the present disclosure.

Claims (10)

1. WHAT IS CLAIMED IS: 1. A big data perceptual identification storage terminal, comprising a device main body (1), a mounting seat (2) and a movable limit plate (3), wherein the bottom of the inner part of the device main body (1) is fixedly connected with the mounting seat (2), the top of the mounting seat (2) is movably connected with the movable limit plate (3), wherein the front face of the inner part of the mounting seat (2) is fixedly connected with a movable groove (4), the inner part of the movable groove (4) is movably connected with a threaded movable block (5), the inner part of the threaded movable block (5) is embedded and connected with a threaded transmission rod (6), the front face of the threaded movable block (5) is fixedly connected with a connecting rod (7), the surface of the mounting seat (2) is fixedly connected with an auxiliary positioning hole (8), and the middle part of the top of the mounting seat (2) is lap-jointed and connected with a perceptual identification storage terminal (9); both sides of the front face of the perceptual identification storage terminal (9) are fixedly connected with a plug-in chamber (10), the inner part of the plug-in chamber (10) is fixedly connected with a jack (11), the front face of the plug-in chamber (10) is movably connected with a movable baffle (12), the left side of the middle part of the movable baffle (12) is fixedly connected with a pull rod (13), the right side of the movable baffle (12) is fixedly connected with a first magnetic plate (14), and the right side of the inner part of the plug-in chamber (10) is fixedly connected with a second magnetic plate (15); the top of the device main body (1) is fixedly connected with a heat-insulating top cover (16), the bottom of the device main body (1) is fixedly connected with a damp-proof base (17), the rear side of the inner part of the device main body (1) is fixedly connected with an auxiliary heat dissipation fan (18), the rear side of the auxiliary heat dissipation fan (18) is fixedly connected with a dust filter plate (19), the top of the rear side of the device main body (1) is fixedly connected with an anti-contact pad (20), both sides of the inner part of the device main body (1) are fixedly connected with mounting grooves (21), the inner part of the mounting grooves (21) is movably connected with a damp-proof plate (22), the right side of the bottom of the mounting grooves (21) is embedded and connected with a threaded connecting rod (23), and the left side of the threaded connecting rod (23) is fixedly connected with a positioning disk (24).
2. 2. The big data perceptual identification storage terminal according to claim 1, wherein the cross section of the mounting base (2) is rectangular, there are two movable limit plates (3) in total, and the two movable limit plates (3) are used in cooperation with each other and distributed symmetrically with the middle of the mounting base (2) as the axis.
3. 3 The big data perceptual identification storage terminal according to claim 1, wherein the inner part of the movable groove (4) is provided with a rectangular hollow cavity, the threaded movable block (5) is embedded in the movable groove (4), and the threaded transmission rod (6) and the threaded movable block (5) are engaged with each other through threads.
4. 4. The big data perceptual identification storage terminal according to claim 1, wherein there are more than fifty auxiliary positioning holes (8) in total, and there are six columns of auxiliary positioning holes (8) in total.
5. 5. The big data perceptual identification storage terminal according to claim 1, wherein the cross section of the plug-in chamber (10) is rectangular, there are three types of jacks (11) in total, and there are two plug-in chambers (10) in total.
6. 6. The big data perceptual identification storage terminal according to claim 1, wherein the cross-section of the movable baffle (12) is rectangular.
7. 7. The big data perceptual identification storage terminal according to claim 1, wherein the cross sections of the first magnetic plate (14) and the second magnetic plate (15) are rectangular, and the first magnetic plate (14) and the second magnetic plate (15) are used in cooperation with each other.
8. 8. The big data perceptual identification storage terminal according to claim 1, wherein the surface of the heat-insulating top cover (16) is provided with a reflective layer, and the cross section of the damp-proof base (17) is rectangular.
9. 9. The big data perceptual identification storage terminal according to claim 1, wherein there are four auxiliary heat dissipation fans (18) and four dust filter plates (19), respectively, and a single auxiliary heat dissipation fan (18) and a single dust filter plate (19) are used in cooperation with each other.
10. 10. The big data perceptual identification storage terminal according to claim 1, wherein there are four anti-contact pads (20) in total, which are located at four corners of the rear side of the device main body (1), respectively, and the cross-section of the positioning disk (24) is circular.