CN114967853A - Handheld mobile terminal equipment based on open laboratory equipment management platform - Google Patents

Abstract

The invention discloses handheld mobile terminal equipment based on an open laboratory equipment management platform, which comprises a terminal equipment body, a protection mechanism, a pressure dividing mechanism, an anti-rebound mechanism and a plurality of pairs of buffer mechanisms, wherein the protection mechanism is connected outside the terminal equipment body, the protection mechanism comprises a protection air bag, the protection air bag is connected with a protection plate, a non-Newtonian fluid is arranged between the protection air bag and the protection plate, an inner air bag is connected between the protection air bag and the protection plate, the inner air bag is connected with a plurality of first pressure plates, and a plurality of pairs of buffer mechanisms are connected between the protection air bag and the protection plate. According to the invention, through the arrangement of the corresponding mechanism on the handheld mobile terminal, the damage caused by the falling of the handheld mobile terminal is avoided, the service life of the handheld mobile terminal is prolonged, the handheld mobile terminal can be normally used, meanwhile, the utilization rate of equipment in an open laboratory is also increased, and the equipment in the laboratory can play the normal role.

Description

Handheld mobile terminal equipment based on open laboratory equipment management platform

Technical Field

The invention belongs to the technical field of handheld mobile terminal equipment, and particularly relates to handheld mobile terminal equipment based on an open laboratory equipment management platform.

Background

Along with the continuous improvement of the social requirement on the innovation quality of talents, colleges and universities attach more and more importance to the culture of innovation consciousness and innovation capacity of colleges and universities, and in order to culture high-quality innovative talents, more and more colleges and universities actively provide practice platforms for students through modes of opening teaching resources, creating laboratory management modes, improving equipment utilization rate and the like, wherein the open innovation laboratory is a novel laboratory in the construction process of colleges and universities.

The open laboratory is a laboratory formally built by schools, and is opened to the outside by utilizing resources such as the prior teachers, instruments and equipment, environmental conditions and the like on the premise of completing normal experimental teaching tasks, and the opening of the open laboratory is used for improving the utilization rate of the equipment and playing the role of the equipment, so that the problem that resource allocation and equipment integrity rate become the main requirements of equipment management is solved.

As a characteristic management auxiliary tool for an open laboratory, the handheld mobile terminal is added into the operation and maintenance knowledge base through the carrier of the mobile internet, and the application is interactive and convenient in all aspects of the use process.

At present, when handheld mobile terminal uses, need the handheld operation of experimenter, nevertheless there is not a protection mechanism in current handheld mobile terminal, the experimenter is in case the hand is smooth to drop handheld mobile terminal, this damage that not only can cause handheld mobile terminal has reduced handheld mobile terminal's life, still cause the damage of the inside components and parts of handheld mobile terminal easily, can cause handheld mobile terminal unable use even when serious, this rate of utilization that has reduced open laboratory cell equipment, make the unable normal play of laboratory cell equipment its effect.

Therefore, in order to solve the above technical problems, it is necessary to provide a handheld mobile terminal device based on an open laboratory device management platform.

Disclosure of Invention

The invention aims to provide handheld mobile terminal equipment based on an open laboratory equipment management platform, and aims to solve the problems that the handheld mobile terminal is damaged by falling, the service life of the handheld mobile terminal is shortened, and the utilization rate of internal equipment in open use is reduced.

In order to achieve the above object, an embodiment of the present invention provides the following technical solutions:

a handheld mobile terminal device based on an open laboratory device management platform comprises: the terminal equipment comprises a terminal equipment body, a protection mechanism, a pressure dividing mechanism, an anti-rebound mechanism and a plurality of pairs of buffer mechanisms;

the terminal equipment comprises a terminal equipment body and is characterized in that a protection mechanism is connected outside the terminal equipment body, the protection mechanism comprises a protection air bag, a protection plate is connected to the protection air bag, a non-Newtonian fluid is arranged between the protection air bag and the protection plate, an inner air bag is connected between the protection air bag and the protection plate, and a plurality of first pressure plates are connected to the inner air bag;

a plurality of pairs of buffer mechanisms are connected between the protection air bag and the protection plate and are used for promoting the protection of the terminal equipment body;

the buffer mechanism comprises a buffer screw rod, a buffer support rod is connected in the buffer screw rod, and hydraulic oil is arranged in the buffer screw rod;

a pressure dividing mechanism is connected between the pair of buffer mechanisms and is used for further improving the using effect of the buffer mechanisms;

the terminal equipment body is connected with an anti-rebound mechanism for reducing the rebound force of the terminal equipment body after falling to the ground.

Furthermore, the buffering support rod penetrates through the buffering screw rod, so that the buffering support rod can slide in the buffering screw rod, the balance of the buffering support rod is controlled better, the stability of the buffering support rod is improved, the buffering support rod can be better buffered by hydraulic oil, and the buffering support rod is connected with the protective air bag;

the protection plate is provided with a torsion groove matched with the buffer screw rod in a chiseling mode, so that the buffer screw rod can rotate on the protection plate, the stability of the buffer screw rod is improved, and the probability of inclination of the buffer screw rod is reduced.

Furthermore, a spring sheet bin is arranged outside the buffer screw rod, so that the mounting of the vortex spring sheet is facilitated, the protection of the vortex spring sheet is improved, the probability of damage of the vortex spring sheet is reduced, and the spring sheet bin is connected with the protection plate;

the vortex elastic sheet is connected between the elastic sheet bin and the buffering screw rod, so that the rotation of the buffering screw rod can be buffered, the stability of the buffering screw rod is improved, and the rotating speed of the buffering screw rod can be slowed down.

Furthermore, the partial pressure mechanism comprises a partial pressure rod, so that the partial pressure connecting rod can slide conveniently, the stability of the partial pressure connecting rod is improved, and meanwhile, the partial pressure mechanism can be matched with the partial pressure connecting rod to lift, so that the partial pressure screw block can be driven conveniently;

the two ends of the pressure dividing rod are connected with pressure dividing screw blocks which can move synchronously with the pressure dividing rod, when the pressure dividing rod goes up and down, the pressure dividing screw blocks go up and down synchronously to drive the buffer screw to rotate, and the pressure dividing screw blocks are matched with the buffer screw;

the pressure dividing rod is connected with a plurality of pairs of pressure dividing sliding blocks which can slide on the pressure dividing rod, so that the pressure division of the protective air bag is facilitated, the service life of the protective air bag is prolonged, and the protection of the protective air bag on the terminal equipment body is improved;

a partial pressure spring is connected between the partial pressure sliding blocks, the partial pressure sliding blocks can be pulled, the positions of the partial pressure sliding blocks can be fixed relatively, and the partial pressure sliding blocks can be pulled close to each other by the partial pressure spring after being separated.

Furthermore, the partial pressure sliding block is connected with a pair of partial pressure connecting rods, so that partial pressure can be carried out on the terminal equipment body through angle deviation, and the partial pressure sliding block is driven to slide on the partial pressure connecting rods, so that the protection degree of the terminal equipment body is improved;

it is a pair of be connected with the partial pressure connector link between the partial pressure connecting rod, for providing corresponding being connected between partial pressure connector link and protection gasbag or the protection shield, make the terminal equipment body can drive the rotation of partial pressure connecting rod when pushing down, it is a pair of the partial pressure connector link is connected with protection gasbag and protection shield respectively.

Furthermore, the rebound prevention mechanism comprises a rebound bin which can accommodate the sliding of the rebound block, so that the rebound block can be buffered when sliding, and meanwhile, the stability of the rebound block is improved;

the rebound bin is internally connected with a rebound block which can slide in the rebound bin when the terminal equipment body rebounds, so that opposite force is provided for the terminal equipment body, the amplitude of rebound of the terminal equipment body when the terminal equipment body touches the ground is reduced, and the probability of secondary damage of the terminal equipment body is reduced;

the rebound block is internally connected with a rebound ring, so that the installation of the second pressure plate is facilitated, and the interior of the rebound bin can be divided into two spaces;

the rebound ring is internally provided with an inertia block, when the side of the terminal equipment body rebounds by touching the ground, the inertia block can provide corresponding buffering, the rebound amplitude of the terminal equipment body is reduced, and the protection of the terminal equipment body is improved.

Furthermore, a plurality of elastic ropes which are uniformly distributed are connected between the inertia block and the rebound ring, so that the inertia block is buffered to a certain extent, and the stability of the inertia block is improved;

the buffer solution is arranged in the inertia block, so that the shaking amplitude of the inertia block can be further reduced, the stability of the inertia block is improved, and the stability of the terminal equipment body is further improved;

the rebound ring is connected with a plurality of second pressure plates, when the inertia block slides to compress air, the second pressure plate on one corresponding side is opened, and the corresponding air is extruded into a cavity between the rebound bin and the rebound ring.

Furthermore, a through groove matched with the second pressure plate is formed in the rebound ring in a chiseled mode, so that the second pressure plate is convenient to mount, and the stability of the second pressure plate is improved;

the rebound block is connected with a plurality of air pressure bins, extruded air can enter the air pressure bins, and the air pressure bins are communicated with the rebound block.

Furthermore, an air pressure plate is connected in the air pressure bin, and air can extrude the air pressure plate, so that the air pressure plate can slide in the air pressure bin;

a pair of spring pieces is connected between the air pressure bin and the air pressure plate, so that the buffering capacity of the air pressure plate is improved, and the sliding speed of the air pressure plate is reduced.

Furthermore, a pressure dividing bin is arranged in the air pressure bin, so that the sliding of the air pressing rods is facilitated, when a pair of air pressing rods are close to each other, air in the air pressing rods can be compressed, the sliding speed of the air pressing rods can be reduced, the sliding speed of the air pressure plate is reduced, and the inertia block is buffered;

the pressure dividing bin is internally connected with a pair of air pressing rods which can slide in the pressure dividing bin and compress air in the pressure dividing bin to slow down the sliding speed of the air pressure plate, and the pair of air pressing rods are respectively connected with the air pressure bin and the air pressure plate.

Compared with the prior art, the invention has the following advantages:

according to the invention, through the arrangement of the corresponding mechanism on the handheld mobile terminal, the damage caused by the falling of the handheld mobile terminal is avoided, the service life of the handheld mobile terminal is prolonged, the handheld mobile terminal can be normally used, meanwhile, the utilization rate of equipment in an open laboratory is also increased, and the equipment in the laboratory can play the normal role.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a first side sectional view of a handheld mobile terminal device based on an open laboratory device management platform according to an embodiment of the present invention;

FIG. 2 is a schematic view of the structure at A in FIG. 1;

FIG. 3 is a schematic view of the structure at B in FIG. 1;

FIG. 4 is a second side sectional view of a handheld mobile terminal device based on an open laboratory device management platform according to an embodiment of the present invention;

FIG. 5 is a schematic view of the structure of FIG. 4 at C;

FIG. 6 is a top sectional view of a handheld mobile terminal device based on an open laboratory device management platform according to an embodiment of the present invention;

FIG. 7 is a schematic view of the structure of FIG. 6 at D;

FIG. 8 is a schematic view of the structure at E in FIG. 6;

fig. 9 is a perspective view of a handheld mobile terminal device based on an open laboratory device management platform according to an embodiment of the present invention;

FIG. 10 is a functional diagram of an open laboratory equipment management platform system in accordance with an embodiment of the present invention.

In the figure: 1. the terminal equipment comprises a terminal equipment body, 2, a protection mechanism, 201, a protection air bag, 202, a protection plate, 203, non-Newtonian fluid, 204, an inner air bag, 205, a first pressure plate, 3, a buffer mechanism, 301, a buffer screw rod, 302, a buffer support rod, 303, hydraulic oil, 304, an elastic sheet bin, 305, a vortex elastic sheet, 4, a pressure dividing mechanism, 401, a pressure dividing rod, 402, a pressure dividing screw block, 403, a pressure dividing slide block, 404, a pressure dividing spring, 405, a pressure dividing connecting rod, 406, a pressure dividing connecting buckle, 5, a rebound prevention mechanism, 501, a rebound bin, 502, a rebound block, 503, a rebound ring, 504, an inertia block, 505, an elastic rope, 506, a buffer solution, 507, a second pressure plate, 508, an air pressure bin, 509, an air pressure plate, 510, a spring plate, 511, a pressure dividing bin and 512, a pressure lever.

Detailed Description

The present invention will be described in detail below with reference to embodiments shown in the drawings. The embodiments are not intended to limit the present invention, and structural, methodological or functional changes made by those skilled in the art according to the embodiments are included in the scope of the present invention.

The invention discloses a handheld mobile terminal device based on an open laboratory device management platform, which is shown in reference to fig. 1-10 and comprises: the terminal equipment comprises a terminal equipment body 1, a protection mechanism 2, a pressure dividing mechanism 4, an anti-rebound mechanism 5 and a plurality of pairs of buffer mechanisms 3.

Referring to fig. 1-2, the terminal device body 1 is externally connected with a protection mechanism 2, the protection mechanism 2 includes a protection airbag 201, and when the terminal device body 1 falls down, the protection airbag 201 can firstly protect the terminal device body 1, so as to greatly reduce the damage to the terminal device body 1 and effectively slow down the impact to the terminal device body 1.

Wherein, being connected with protection shield 202 on protection gasbag 201, having made things convenient for buffer gear 3 and non-Newtonian fluid 203's installation, promoted buffer gear 3's stability.

In addition, the non-Newtonian fluid 203 is arranged between the protection airbag 201 and the protection plate 202, when the outer ring of the protection airbag 201 deforms in a grounding manner, the non-Newtonian fluid 203 enters the non-Newtonian fluid 203 through the first pressure sheet 205, and the first pressure sheet 205 can reduce the flow speed of the non-Newtonian fluid 203, so that the protection effect of the protection airbag 201 on the terminal device body 1 is improved.

Optionally, an inner bladder 204 is connected between the protective bladder 201 and the protective plate 202, which facilitates the installation of the first pressure plate 205 and provides a corresponding space for accommodating the non-newtonian fluid 203.

Preferably, the inner air bag 204 is connected with a plurality of first pressure plates 205, so that the flow speed of the non-newtonian fluid 203 can be reduced, and the protection effect of the protection air bag 201 on the terminal device body 1 can be improved.

Referring to fig. 1-2, a plurality of pairs of buffer mechanisms 3 are connected between the protection airbag 201 and the protection plate 202 for protecting the terminal device body 1, and each buffer mechanism 3 includes a buffer screw 301, which can rotate on the protection plate 202 and facilitate the sliding of the buffer support rod 302, so that the stability of the buffer support rod 302 is improved.

Wherein, buffer support rod 302 is connected in buffer screw 301, can support protection gasbag 201, makes the stability of terminal equipment body 1 obtain promoting.

Preferably, the buffer screw 301 is internally provided with hydraulic oil 303 which can buffer the buffer support rod 302, so that the sliding speed of the buffer support rod 302 is reduced.

Referring to fig. 1 to 3, the buffering support rod 302 penetrates through the buffering screw 301, so that the buffering support rod 302 can slide in the buffering screw 301, the balance of the buffering support rod 302 is better controlled, the stability of the buffering support rod 302 is improved, meanwhile, the buffering support rod 302 can better receive buffering of hydraulic oil 303, and the buffering support rod 302 is connected with the protection airbag 201.

The protection plate 202 is provided with a torsion groove matched with the buffer screw 301, so that the buffer screw 301 can rotate on the protection plate 202, the stability of the buffer screw 301 is improved, and the inclination probability of the buffer screw 301 is reduced.

Referring to fig. 1 to 3, the spring plate bin 304 is arranged outside the buffer screw 301, so that the installation of the vortex spring plate 305 is facilitated, the protection of the vortex spring plate 305 is improved, the probability of damage to the vortex spring plate 305 is reduced, and the spring plate bin 304 is connected with the protection plate 202.

In addition, a vortex shrapnel 305 is connected between the shrapnel bin 304 and the buffer screw 301, so that the rotation of the buffer screw 301 can be buffered, the stability of the buffer screw 301 is improved, and the rotation speed of the buffer screw 301 can be slowed down.

Referring to fig. 1-2, be connected with partial pressure mechanism 4 between a pair of buffer gear 3 for further promote buffer gear 3's result of use, partial pressure mechanism 4 is including dividing depression bar 401, has made things convenient for the slip of partial pressure connecting rod 405, has promoted partial pressure connecting rod 405's stability, can cooperate partial pressure connecting rod 405 to go up and down simultaneously, has made things convenient for the drive to partial pressure screw member 402.

Wherein, the both ends of partial pressure pole 401 all are connected with partial pressure spiral shell piece 402, can with partial pressure pole 401 simultaneous movement, when partial pressure pole 401 goes up and down, partial pressure spiral shell piece 402 is synchronous goes up and down, can drive buffer screw 301's rotation, partial pressure spiral shell piece 402 and buffer screw 301 phase-match.

Optionally, the pressure dividing rod 401 is connected with a plurality of pairs of pressure dividing sliding blocks 403, and the pressure dividing rod 401 can slide, so that the pressure dividing of the protection airbag 201 is facilitated, the service life of the protection airbag 201 is prolonged, and the protection of the protection airbag 201 on the terminal device body 1 is improved.

In other words, the partial pressure spring 404 is connected between the pair of partial pressure sliders 403, and the pair of partial pressure sliders 403 can be pulled, so that the positions of the partial pressure sliders 403 can be fixed relative to each other, and the partial pressure sliders 404 can be pulled toward each other by the partial pressure spring 404 after the pair of partial pressure sliders 403 are separated.

Referring to fig. 1-2, a pair of partial pressure connecting rods 405 is connected to the partial pressure slider 403, so that partial pressure can be applied to the terminal device body 1 through angular deviation, and the partial pressure slider 403 is driven to slide on the partial pressure rod 401, thereby improving the protection degree of the terminal device body 1.

Wherein, be connected with partial pressure connector link 406 between a pair of partial pressure connecting rod 405, for partial pressure connector link 406 and protection gasbag 201 or provide corresponding connection between protection board 202, make terminal equipment body 1 can drive partial pressure connecting rod 405's rotation when pushing down, a pair of partial pressure connector link 406 is connected with protection gasbag 201 and protection board 202 respectively.

Referring to fig. 1-8, terminal device body 1 is connected with anti-rebound mechanism 5 for alleviate the resilience strength after terminal device body 1 falls to the ground, anti-rebound mechanism 5 includes bounce bin 501, can hold the slip of bounce block 502, can obtain the buffering when making bounce block 502 slip, has promoted the stability of bounce block 502 simultaneously.

Wherein, bounce-back piece 502 is connected with in the storehouse 501 of kick-backing, can slide in the storehouse 501 of kick-backing when terminal equipment body 1 kick-backs, for terminal equipment body 1 provides opposite power, makes terminal equipment body 1 touch to the ground the rebound range reduce, makes the impaired probability of terminal equipment body 1 secondary reduce.

In addition, the rebound block 502 is internally connected with a rebound ring 503, so that the installation of the second pressure sheet 507 is facilitated, and the interior of the rebound bin 501 can be divided into two spaces.

In addition, the inertia block 504 is arranged in the rebound ring 503, when the side of the terminal device body 1 rebounds to the ground, the inertia block 504 provides corresponding buffering, so that the rebound amplitude of the terminal device body 1 is reduced, and the protection of the terminal device body 1 is improved.

Referring to fig. 1 to 8, a plurality of elastic cords 505 uniformly distributed are connected between the inertia block 504 and the rebound ring 503 to buffer the inertia block 504 to a certain extent, so that the stability of the inertia block 504 is improved.

Wherein, be equipped with buffer solution 506 in the inertia piece 504, can further reduce the range of rocking of inertia piece 504, promoted the stability of inertia piece 504, and then promoted the stability of terminal equipment body 1.

In other words, the plurality of second pressure plates 507 are connected to the rebound ring 503, and when the inertia block 504 slides to compress air, the second pressure plates 507 on the corresponding side are opened to press the corresponding air into the cavity between the rebound chamber 501 and the rebound ring 503.

Referring to fig. 1-8, the resilient ring 503 is provided with a through groove matching with the second pressure pad 507, so as to facilitate the installation of the second pressure pad 507 and improve the stability of the second pressure pad 507.

In addition, a plurality of air pressure chambers 508 are connected to the rebound block 502, and the compressed air can enter the air pressure chambers 508, and the air pressure chambers 508 are communicated with the rebound block 502.

Referring to fig. 1-3, an air pressure plate 509 is connected to the air pressure chamber 508, and air can press the air pressure plate 509 to slide the air pressure plate 509 in the air pressure chamber 508.

Optionally, a pair of spring strips 510 is connected between the pneumatic chamber 508 and the pneumatic plate 509, so as to improve the buffering capacity of the pneumatic plate 509 and reduce the sliding speed of the pneumatic plate 509.

Referring to fig. 1-8, a pressure dividing bin 511 is disposed in the pressure bin 508 to facilitate sliding of the pressure rods 512, and when a pair of pressure rods 512 are close to each other, the air in the pressure rods 512 is compressed, so that the sliding speed of the pressure rods 512 can be reduced, the sliding speed of the pressure plate 509 can be reduced, and the inertia block 504 can be buffered.

Preferably, a pair of air compression rods 512 are connected to the pressure dividing chamber 511, and can slide in the pressure dividing chamber 511, and compress the air in the pressure dividing chamber 511, so as to slow down the sliding speed of the pressure plate 509, and the pair of air compression rods 512 are respectively connected to the pressure chamber 508 and the pressure plate 509.

Optionally, the open laboratory equipment management platform system includes: the system comprises a server side management system and a handheld mobile terminal system, wherein the server side management system comprises a user management system, an equipment purchase management system and a scrap management system.

The system comprises a user management system, an equipment purchase management system and a scrap management system, wherein the user management system is used for managing user permission and setting of system basic parameters, the equipment purchase management system is used for managing the purchase process of laboratory equipment, and the scrap management system is used for conducting scrap processing and system setting on scrapped experimental equipment.

Preferably, the server side management system website platform adopts a B/S framework, and simultaneously adopts a mainstream PHP development language and a MySQL database to construct a system and a database, so that the interaction fluency with the mobile side data is improved, and the system and the database have good compatibility and expandability.

The system comprises a user management system, a scrap management system, a handheld mobile terminal system and a big data recording module, wherein the user management system comprises a user authority management module, a system setting module and a big data recording module, the equipment scrap management system comprises an equipment scrap application module and an equipment scrap flow management module, the scrap management system comprises an equipment scrap application module and an equipment scrap processing module, and the handheld mobile terminal system comprises an information interaction system, a knowledge base management system and an equipment management system.

In other words, the handheld mobile terminal system is developed by adopting Swift language or Java language, wherein the knowledge base management system comprises an equipment information storage module, an information retrieval module and an equipment knowledge management module, and the equipment management system comprises an equipment use recording module, an equipment inventory management module and an equipment use operation and maintenance module.

Specifically, when the terminal device body 1 falls, the protection airbag 201 first contacts with the ground to protect the terminal device body 1, and the non-newtonian fluid 203 in the protection airbag 201 enters the inner airbag 204 through the first pressure plate 205 to further buffer.

Secondly, after receiving the pressure of terminal equipment body 1, buffering bracing piece 302 can slide in buffer screw 301, further cushions terminal equipment body 1 through the buffering of hydraulic oil 303, then the distance between terminal equipment body 1 and protection shield 202 draws close, drives the slip of partial pressure slider 403 through partial pressure connecting rod 405, through the partial pressure of partial pressure slider 403, cushions for terminal equipment body 1 once more.

When terminal equipment body 1 lateral wall tenesmus, must have certain resilience, terminal equipment body 1 has resisted first ripples and has strikeed sometimes, but the second ripples is strikeed just unlikely, and the setting of inertia piece 504 can effectively be alleviated the springback that contacts to earth of terminal equipment body 1, and synchronous gas-pressure plate 509 can cushion for inertia piece 504, has alleviated the resilience trend of terminal equipment body 1 once more, has promoted the protection to terminal equipment body 1.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A handheld mobile terminal device based on an open laboratory device management platform, comprising: a terminal device body (1);

the protection mechanism (2) is connected to the outside of the terminal equipment body (1), the protection mechanism (2) comprises a protection air bag (201), the protection air bag (201) is connected with a protection plate (202), a non-Newtonian fluid (203) is arranged between the protection air bag (201) and the protection plate (202), an inner air bag (204) is connected between the protection air bag (201) and the protection plate (202), and a plurality of first pressure plates (205) are connected to the inner air bag (204);

the buffer mechanisms (3) are connected between the protective air bag (201) and the protective plate (202) and used for promoting the protection of the terminal equipment body (1);

the buffer mechanism (3) comprises a buffer screw rod (301), a buffer support rod (302) is connected in the buffer screw rod (301), and hydraulic oil (303) is arranged in the buffer screw rod (301);

the partial pressure mechanism (4) is connected between the pair of buffer mechanisms (3) and is used for further improving the use effect of the buffer mechanisms (3);

and the anti-rebound mechanism (5) is connected to the terminal equipment body (1) and is used for reducing the rebound force after the terminal equipment body (1) falls to the ground.

2. The handheld mobile terminal device based on the open laboratory device management platform is characterized in that the buffer support rod (302) is arranged through a buffer screw (301), the buffer support rod (302) is connected with the protective airbag (201), and the protective plate (202) is provided with a twisting groove matched with the buffer screw (301).

3. The handheld mobile terminal device based on the open laboratory equipment management platform is characterized in that a pellet bin (304) is arranged outside the buffer screw (301), the pellet bin (304) is connected with the protection plate (202), and a vortex pellet (305) is connected between the pellet bin (304) and the buffer screw (301).

4. The handheld mobile terminal device based on the open laboratory device management platform of claim 1, wherein the pressure dividing mechanism (4) comprises a pressure dividing rod (401), two ends of the pressure dividing rod (401) are connected with pressure dividing screw blocks (402), the pressure dividing screw blocks (402) are matched with the buffer screw rods (301), a plurality of pairs of pressure dividing sliders (403) are connected to the pressure dividing rod (401), and a pressure dividing spring (404) is connected between the pair of pressure dividing sliders (403).

5. The handheld mobile terminal device based on the open laboratory device management platform is characterized in that a pair of partial pressure connecting rods (405) is connected to the partial pressure slider (403), a partial pressure connecting buckle (406) is connected between the pair of partial pressure connecting rods (405), and the pair of partial pressure connecting buckles (406) are respectively connected with the protective airbag (201) and the protective plate (202).

6. The handheld mobile terminal device based on the open laboratory equipment management platform according to claim 1, wherein said anti-rebound mechanism (5) comprises a rebound bin (501), a rebound block (502) is connected in said rebound bin (501), a rebound ring (503) is connected in said rebound block (502), and an inertia block (504) is arranged in said rebound ring (503).

7. The handheld mobile terminal device based on the open laboratory device management platform of claim 6, wherein a plurality of elastic cords (505) are uniformly distributed between the inertia block (504) and the resilient ring (503), a buffer (506) is disposed in the inertia block (504), and a plurality of second pressure plates (507) are connected to the resilient ring (503).

8. The handheld mobile terminal device based on the open laboratory device management platform of claim 7, wherein the resilient ring (503) is perforated with a through slot matching with the second pressure plate (507), the resilient block (502) is connected with a plurality of pneumatic chambers (508), and the pneumatic chambers (508) are communicated with the resilient block (502).

9. The handheld mobile terminal device based on the open laboratory equipment management platform is characterized in that a pneumatic plate (509) is connected in the pneumatic chamber (508), and a pair of spring pieces (510) is connected between the pneumatic chamber (508) and the pneumatic plate (509).

10. The handheld mobile terminal device based on the open laboratory equipment management platform of claim 9, wherein a pressure dividing bin (511) is disposed in the pressure dividing bin (508), a pair of pressure rods (512) is connected in the pressure dividing bin (511), and the pair of pressure rods (512) are respectively connected to the pressure dividing bin (508) and the pressure plate (509).

Images