CN112878857A

CN112878857A - Fire-resistant shockproof safe case

Info

Publication number: CN112878857A
Application number: CN202110056441.3A
Authority: CN
Inventors: 熊利鹏
Original assignee: Jiangxi Yangguang Safety Equipment Group Co ltd
Current assignee: Jiangxi Yangguang Safety Equipment Group Co ltd
Priority date: 2021-01-15
Filing date: 2021-01-15
Publication date: 2021-06-01
Anticipated expiration: 2041-01-15
Also published as: CN112878857B

Abstract

The invention relates to a fire-resistant shockproof safety box which comprises a base, a mounting seat, a shielding plate, a shockproof spring, a support ball rod, a vacuum heat insulation cabinet body, a sealing door, a placing mechanism and a cushioning mechanism, wherein the mounting seat is fixedly connected with one side of the base in an embedded mode, and the shielding plate is mounted on the periphery of one side of the mounting seat. According to the invention, the sealing door is opened, the placing mechanism is pulled to move rightwards to the outside of the vacuum heat insulation cabinet body, data is placed in the placing mechanism, after the data is placed, the placing mechanism is pushed to move leftwards to drive the data to move leftwards to the inside of the vacuum heat insulation cabinet body, and the shockproof spring is used for damping the vacuum heat insulation cabinet body, so that the scattering phenomenon of the data can be avoided.

Description

Fire-resistant shockproof safe case

Technical Field

The invention relates to a safety box, in particular to a fire-resistant shockproof safety box.

Background

In daily life, some people have the data to deposit, but deposit the data for the convenience, all can put into the safe deposit box with the data, at present, when the data was put into the safe deposit box, the safe deposit box removed and leads to the data to appear removing the phenomenon easily and lead to in disorder, and when appearing the fire in the safe deposit box, the fire was burnt out the data easily and is leaded to follow-up unable use.

Therefore, how to design a fire-resistant shockproof safety box which can absorb shock of the safety box, avoid scattering of data, extinguish fire in the safety box and avoid burning the data is the problem to be solved by the patent.

Disclosure of Invention

In order to overcome the defects that the moving phenomenon of the data is easy to cause the scattering of the data when the safe is moved, and the data is easy to burn down by fire when the fire occurs in the safe, the invention has the technical problems that: the utility model provides a can carry out the shock attenuation to the safe deposit box, avoid the data in disorder, and can put out the fire in the safe deposit box, avoid burning the fire-resistant shockproof safe deposit box of data.

The utility model provides a fire-resistant shockproof safe deposit box, includes base, mount pad, shielding plate, shockproof spring, support club, the vacuum insulation cabinet body, sealing door, placement mechanism and bradyseism mechanism, the embedded rigid coupling in base one side has the mount pad, and the shielding plate is installed in mount pad one side circumference, and the connection of shockproof spring symmetry formula is in one side in the mount pad, and the vacuum insulation cabinet body is installed between two shockproof spring tail ends, and sliding fit in with the mount pad, the connection of sealing door rotary type in the external one side of the vacuum insulation cabinet body, and it cooperates with the vacuum insulation cabinet body, and the connection of support club symmetry formula is between the external one side of vacuum insulation cabinet body and the interior one side of mount pad, and it is located the shockproof spring, and placement mechanism installs in the internal side of vacuum insulation cabinet, and bradyseism mechanism installs between one.

The placing mechanism comprises guide rails, idler wheels, positioning locks, a bearing box and a spring handle, the guide rails are fixedly connected to two sides in the vacuum heat insulation cabinet, the bearing box is placed between the two guide rails, the idler wheels are rotatably connected to two sides outside the bearing box at intervals and are located in the guide rails, the positioning locks are mounted on one side of the guide rails and are matched with the idler wheels, and the spring handle is rotatably connected to the middle of one side outside the bearing box.

The cushioning mechanism comprises a positioning connecting rod, a fixed cross rod, a rotating connecting rod and a guide pipe, wherein the guide pipe is fixedly connected to one side of the mounting seat at intervals in the circumferential direction, the rotating connecting rod is rotatably connected into the guide pipe in a penetrating manner, the fixed cross rod is hinged to two ends of each rotating connecting rod at each side, the positioning connecting rod is hinged to one side of the vacuum heat insulation cabinet at intervals in the circumferential direction, and the tail end of the positioning connecting rod is rotatably connected with the end part of the rotating connecting rod.

Preferably, still including elevating system, elevating system places the case including rack drive board, reversing gear, location gear, lifting connecting rod, driven connecting rod and lift, rack drive board slidingtype place in one side circumference outside the bearing box, the connection of reversing gear rotary type is in the outer both sides of bearing box, its and rack drive board meshing, the connection of lifting connecting rod rotary type is in the outer both sides of bearing box, location gear rigid coupling in lifting connecting rod one side, its and reversing gear meshing, the connection in the outer both sides of bearing box of driven connecting rod rotary type, the case rotary type is placed in the lift and is connected between two driven connecting rod tail ends and two lifting connecting rod tail ends.

Preferably, still including supporting mechanism, supporting mechanism is including supporting seat, flexible cover rail, supporting spring post, slider, location telescopic link and location locking piece, the installation in the internal one side of vacuum insulation cabinet of flexible cover rail symmetry formula, the supporting seat rigid coupling is between two flexible cover rail one sides, one side in the supporting seat of the rigid coupling of location telescopic link symmetry formula, it runs through the lift and places the case, one side in the supporting seat is placed to the slidingtype of slider symmetry formula, connecting in on the slider of supporting spring post rotary type, its tail end and lift are placed the external one side rotary type of case and are connected, the location locking piece is installed in the internal one side of vacuum insulation cabinet, its and supporting seat contact cooperation.

Preferably, still including the mechanism of putting out a fire, the mechanism of putting out a fire is including gaseous pressurization case, air duct, servo motor, ball valve, control by temperature change inductor and signal transmission line, the air duct is fixed to be worn to connect in the middle part of the thermal-insulated cabinet body one side of vacuum, and gaseous pressurization case rigid coupling is in the external one side of the thermal-insulated cabinet of vacuum, and its one side and air duct one end fixed connection and intercommunication, servo motor install in the external one side of the thermal-insulated cabinet of vacuum, and place in the air duct of ball valve rotary type, its one side and servo motor's output shaft end fixed connection, control by temperature change inductor is installed in the external one side of the thermal.

Preferably, the vacuum heat insulation cabinet further comprises a locking mechanism, the locking mechanism comprises a locking plate, a positioning seat, a lock tongue and a return spring, the positioning seat is fixedly connected to the middle of one side outside the vacuum heat insulation cabinet, the lock tongue is in sliding type penetrating connection to the middle of one side of the positioning seat, the return spring is in symmetrical type connection between one side in the lock tongue and one side outside the positioning seat, the locking plate is in rotating type connection to the middle of one side of the sealing door, the tail end of the locking plate is located in the positioning seat, and the.

Preferably, the spring grip is made of rubber.

The beneficial effects are that:

1. through opening the sealing door, pulling placement mechanism moves to the right and outside the vacuum heat insulation cabinet, puts into the placement mechanism with the data again, and the data is placed the back, promotes placement mechanism and moves left and drives the data and move left and to the vacuum heat insulation cabinet is internal, and the shockproof spring carries out the shock attenuation to the vacuum heat insulation cabinet body, so, can avoid the messy phenomenon to appear in the data.

2. Through elevating system's effect, can place the data, so, can deposit for more data.

3. Through the effect of the fire extinguishing mechanism, the fire in the vacuum heat insulation cabinet body can be extinguished, and thus, the data can be prevented from being burnt by the fire.

Drawings

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

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is an enlarged schematic view of part a of the present invention.

Fig. 5 is a perspective view of a third embodiment of the present invention.

In the reference symbols: 1_ base, 2_ mounting, 3_ baffle, 4_ anti-vibration spring, 5_ support club, 6_ vacuum insulated cabinet, 61_ sealing door, 7_ placement mechanism, 72_ guide rail, 73_ roller, 74_ positioning lock, 75_ load bearing box, 76_ spring handle, 8_ shock absorber mechanism, 81_ positioning link, 82_ fixed cross bar, 83_ rotating link, 84_ guide tube, 9_ elevator mechanism, 91_ rack drive plate, 92_ reversing gear, 93_ positioning gear, 94_ elevator link, 95_ driven link, 96_ elevator placement box, 10_ support mechanism, 101_ support seat, 102_ telescopic casing rail, 103_ support spring post, 104_ slider, 105_ positioning telescopic rod, 106_ positioning lock block, 11_ fire extinguishing mechanism, 111_ gas pressurizing box, 112_ gas guide tube, 113_ servo motor, 114_ ball valve, 115_ temperature controller, 116_ signal transmission line, 12_ locking mechanism, 121_ locking plate, 122_ positioning seat, 123_ locking tongue, 124_ return spring.

Detailed Description

The preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Example (b): a fire-resistant shockproof safe.

Referring to fig. 1 and 2, a fire-resistant shockproof safe comprises a base 1, a mounting seat 2, a baffle plate 3, shockproof springs 4, a support ball rod 5, a vacuum heat insulation cabinet 6, a sealing door 61, a placing mechanism 7 and a shock absorption mechanism 8, wherein the mounting seat 2 is fixedly connected with the middle of the top of the base 1 in an embedded manner, the baffle plate 3 is fixedly connected with the top of the mounting seat 2, the shockproof springs 4 are symmetrically connected with the middle of the bottom in the mounting seat 2, the vacuum heat insulation cabinet 6 is fixedly connected between the tail ends of the two shockproof springs 4, the vacuum heat insulation cabinet 6 is in sliding fit with the mounting seat 2, the placing mechanism 7 is arranged at the upper part in the vacuum heat insulation cabinet 6, the sealing door 61 is rotatably connected with the rear part of the right side surface of the vacuum heat insulation cabinet 6, the shock absorption mechanism 8 is arranged between the outer bottom of the vacuum heat insulation cabinet 6 and the inner bottom of the mounting seat 2, the support ball rod 5 is symmetrically connected between the outer bottom, the support club 5 is located within the anti-vibration spring 4.

The placing mechanism 7 comprises a guide rail 72, a roller 73, a positioning lock 74, a bearing box 75 and a spring handle 76, the guide rail 72 is fixedly connected to the upper portions of the front side surface and the rear side surface in the vacuum heat insulation cabinet body 6, the positioning lock 74 is arranged on the right side of the bottom of the guide rail 72, the bearing box 75 is arranged between the guide rails 72 on the front side and the rear side surface, the roller 73 is rotatably connected to the upper portions of the front side surface and the rear side surface outside the bearing box 75 at even intervals, the roller 73 is located in the guide rail 72 and matched with the guide rail 72, the roller 73 is also matched with the positioning lock 74, and.

The cushioning mechanism 8 comprises positioning connecting rods 81, fixed cross rods 82, rotating connecting rods 83 and guide pipes 84, the guide pipes 84 are fixedly connected to the bottom of the mounting base 2 at even circumferential intervals, the rotating connecting rods 83 penetrate through the guide pipes 84 in a rotating mode, the fixed cross rods 82 are hinged between the two ends of the top of the rotating connecting rods 83, six positioning connecting rods 81 are hinged to the outer bottom of the vacuum heat insulation cabinet 6 at even circumferential intervals, and the tail ends of every two positioning connecting rods 81 are hinged to the two ends of the top of each rotating connecting rod 83 respectively.

Firstly, an operator pulls the sealing door 61 to swing rightwards to open, then pulls the placing mechanism 7 to move rightwards to the outside of the vacuum heat insulation cabinet body 6, data is placed in the placing mechanism 7, after the data is placed, the placing mechanism 7 is pushed to move leftwards to reset, then the sealing door 61 is pulled to swing leftwards to reset, and then when the data is stored, the vacuum heat insulation cabinet body 6 can avoid fire from burning the data, and the vacuum heat insulation cabinet body 6 can be damped due to the action of the shockproof spring 4 and the supporting ball rod 5, and the damping mechanism 8 can also support and damp the vacuum heat insulation cabinet body 6. When the data needs to be used, the sealing door 61 is pulled to swing rightwards to be opened, the placing mechanism 7 is pulled to move rightwards to drive the data to move rightwards to the outside of the vacuum heat insulation cabinet body 6, the data is taken out of the placing mechanism 7, the placing mechanism 7 is pushed to move leftwards to reset, and the sealing door 61 is pushed to be closed.

When the sealing door 61 is opened, the spring handle 76 is pulled to move rightwards, the spring handle 76 moves rightwards to drive the bearing box 75 to move rightwards, the bearing box 75 moves rightwards to drive the roller 73 to move rightwards, the roller 73 moves rightwards to slide over the positioning lock 74, when the bearing box 75 moves rightwards to the outside of the vacuum heat insulation cabinet body 6, the spring handle 76 is stopped being pulled, the positioning lock 74 limits the roller 73, data is placed in the bearing box 75 to be stored, after the data is placed, the bearing box 75 is pushed to move leftwards to reset, the sealing door 61 is closed, and then the vacuum heat insulation cabinet body 6 can protect the data to prevent the data from being burnt by fire. When the data needs to be used, the sealing door 61 is opened, the bearing box 75 is pulled to move rightwards again to the outside of the vacuum heat insulation cabinet body 6, the data is taken out, and after the data is taken out, the bearing box 75 is pushed to move leftwards for resetting.

When the vacuum heat insulation cabinet 6 protects data, the vacuum heat insulation cabinet 6 can be damped due to the action of the rotating connecting rod 83 and the positioning connecting rod 81. Therefore, the vacuum heat insulation cabinet body 6 can be further damped, and data can be better stored.

Referring to fig. 3 and 5, the lifting mechanism 9 is further included, the lifting mechanism 9 includes a rack driving plate 91, a reversing gear 92 and a positioning gear 93, the lifting and placing box comprises lifting connecting rods 94, driven connecting rods 95 and a lifting and placing box 96, wherein a rack driving plate 91 is arranged on the upper portion of the outer side of a bearing box 75 in a circumferential sliding mode, reversing gears 92 are rotatably connected to the upper portions of the right sides of the front and rear outer side faces of the bearing box 75, the reversing gears 92 are meshed with the rack driving plate 91, the lifting connecting rods 94 are rotatably connected to the upper portions of the right sides of the front and rear outer side faces of the bearing box 75, positioning gears 93 are fixedly connected to the upper portions of the outer side faces of the front and rear lifting connecting rods 94, the positioning gears 93 are meshed with the reversing gears 92, driven connecting rods 95 are rotatably connected to the lower portions of the left sides of the front and.

Still including supporting mechanism 10, supporting mechanism 10 is including supporting seat 101, flexible cover rail 102, supporting spring post 103, slider 104, location telescopic link 105 and positioning lock piece 106, the bottom symmetry is equipped with flexible cover rail 102 around in the vacuum heat-insulating cabinet body 6, the rigid coupling has supporting seat 101 between the flexible cover rail 102 top of front and back both sides, the bottom right side symmetry rigid coupling has location telescopic link 105 around in supporting seat 101, location telescopic link 105 runs through to go up and down to place the case 96 right part rather than sliding fit, the bottom symmetry slidingtype is equipped with slider 104 around in the supporting seat 101, it has supporting spring post 103 to articulate on the slider 104, supporting spring post 103 right-hand member is connected with the lift is placed the case 96 outer bottom right side is articulated, be equipped with positioning lock piece 106 in the middle of the bottom right side in the vacuum heat-insulating cabinet body 6.

When an operator pulls the bearing box 75 to move rightwards, the bearing box 75 drives the lifting placing box 96 to move rightwards through the lifting connecting rod 94 and the driven connecting rod 95, and further the bearing box 75 stops moving rightwards, the lifting placing box 96 stops moving rightwards, the rack driving plate 91 is pulled to move rightwards, the rack driving plate 91 moves rightwards to drive the reversing gear 92 to rotate forwards, the reversing gear 92 rotates forwards to drive the positioning gear 93 to rotate backwards, the positioning gear 93 rotates backwards to drive the lifting connecting rod 94 to rotate backwards, the lifting connecting rod 94 rotates backwards to drive the lifting placing box 96 to rotate backwards through the driven connecting rod 95, when the lifting placing box 96 rotates backwards to the right side of the bearing box 75, the rack driving plate 91 is stopped being pulled, data can be placed into the lifting placing box 96, when a proper amount of data is placed in the lifting placing box 96, the rack 91, the bearing box 75 is pushed to move leftwards for resetting, and the lifting placing box 96 also moves leftwards for resetting. Therefore, more data can be placed more conveniently.

When the lifting placing box 96 moves rightwards, the lifting placing box 96 moves rightwards to drive the positioning telescopic rod 105 to move rightwards, the positioning telescopic rod 105 moves rightwards to drive the supporting seat 101 to move rightwards, the supporting seat 101 moves rightwards to drive the telescopic sleeve rail 102 to extend, then when the lifting placing box 96 rotates reversely, the lifting placing box 96 rotates reversely to drive the supporting spring column 103 to swing upwards, when the lifting placing box 96 rotates reversely to the right side of the bearing box 75, the rack driving plate 91 is stopped to be pulled, and the supporting spring column 103 supports the lifting placing box 96. When an operator pushes the rack driving plate 91 to move leftwards for resetting, the lifting placing box 96 positively rotates to drive the supporting spring column 103 to swing downwards for resetting, and when the lifting placing box 96 moves leftwards for resetting, the lifting placing box 96 drives the supporting seat 101 to move leftwards for resetting through the positioning telescopic rod 105. Thus, the lifting and lowering box 96 is more stable when it is turned to the right side of the bearing box 75.

Referring to fig. 1 and 4, the fire extinguishing apparatus 11 further comprises a fire extinguishing mechanism 11, the fire extinguishing mechanism 11 comprises a gas pressurizing box 111, a gas guide tube 112, a servo motor 113, a ball valve 114, a temperature control sensor 115 and a signal transmission line 116, the gas pressurizing box 111 is fixedly connected to the upper portion of the outer left side of the vacuum heat insulation cabinet 6, the gas guide tube 112 is fixedly connected to and communicated with the middle portion of the left side of the vacuum heat insulation cabinet 6 in a penetrating manner, the top end of the gas guide tube 112 is fixedly connected to and communicated with the middle portion of the left side of the bottom of the gas pressurizing box 111, the ball valve 114 is rotatably arranged in the gas guide tube 112, the servo motor 113 is installed in the middle of the rear portion of the outer left side of the vacuum heat insulation cabinet 6, the end of an output shaft of the servo motor 113 is fixedly connected to the rear side of the.

The vacuum heat insulation cabinet is characterized by further comprising a locking mechanism 12, the locking mechanism 12 comprises a locking plate 121, a positioning seat 122, a locking bolt 123 and a return spring 124, the locking plate 121 is rotatably connected in the middle of the front side of the right side face of the sealing door 61, the positioning seat 122 is fixedly connected in the middle of the front side face of the vacuum heat insulation cabinet 6, the locking bolt 123 is slidably arranged in the middle of the front side face of the positioning seat 122, the return spring 124 is connected between the upper side face and the lower side face of the front side face in the locking bolt 123 and the upper side face and the lower side face of the front side face in the positioning seat.

Initially, there is appropriate amount of inert gas in the gaseous case 111 that adds, when the higher flame that appears of temperature in the thermal-insulated cabinet body of vacuum 6, temperature control inductor 115 is started, temperature control inductor 115 makes servo motor 113 started through signal transmission line 116, servo motor 113 rotates and drives ball valve 114 and rotate ninety degrees, inert gas in the gaseous case 111 that adds arranges in the air duct 112, inert gas in the air duct 112 arranges into the thermal-insulated cabinet body of vacuum 6, inert gas puts out the fire, after the fire put out, temperature control inductor 115 also closes, servo motor 113 drives ball valve 114 and rotates ninety degrees and resets. Thus, the data can be prevented from being burnt by fire.

Firstly, the bolt 123 is pulled to move forwards to be separated from the locking plate 121, the return spring 124 is stretched, then the locking plate 121 is pulled to swing rightwards to a proper position, the sealing door 61 can swing rightwards to be opened, after the data is placed, the sealing door 61 is pushed to swing leftwards to reset, then the locking plate 121 is pulled to swing leftwards to reset, the bolt 123 is loosened, and due to the action of the return spring 124, the bolt 123 moves backwards to penetrate through the locking plate 121 to limit the bolt 123. Therefore, the phenomenon that the sealing door 61 is opened to influence the storage of the data can be avoided.

It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.

Claims

1. A fire-resistant shockproof safety box is characterized by comprising a base (1), a mounting seat (2), a baffle plate (3), shockproof springs (4), a supporting ball rod (5), a vacuum heat insulation cabinet body (6), a sealing door (61), a placing mechanism (7) and a shock absorption mechanism (8), wherein the mounting seat (2) is fixedly connected with one side of the base (1) in an embedded mode, the baffle plate (3) is installed on the circumferential direction of one side of the mounting seat (2), the shockproof springs (4) are symmetrically connected to one side in the mounting seat (2), the vacuum heat insulation cabinet body (6) is installed between the tail ends of the two shockproof springs (4) and is in sliding fit with the mounting seat (2), the sealing door (61) is rotatably connected to one side outside the vacuum heat insulation cabinet body (6) and is matched with the vacuum heat insulation cabinet body (6), the supporting ball rod (5) is symmetrically connected between one side outside the vacuum heat insulation cabinet body (6) and one side in the mounting seat, the shock absorption device is positioned in a shock absorption spring (4), a placing mechanism (7) is installed on the inner side of a vacuum heat insulation cabinet body (6), and a shock absorption mechanism (8) is installed between the vacuum heat insulation cabinet body (6) and one inner side of an installation seat (2).

2. The fire-resistant and shock-proof safety box according to claim 1 is characterized in that the placing mechanism (7) comprises guide rails (72), rollers (73), positioning locks (74), a bearing box (75) and spring handles (76), wherein the guide rails (72) are fixedly connected to two sides in the vacuum heat-insulation cabinet body (6), the bearing box (75) is placed between the two guide rails (72), the rollers (73) are connected to two sides outside the bearing box (75) in a spaced and rotating mode and are located in the guide rails (72), the positioning locks (74) are installed on one side of the guide rails (72) and are matched with the rollers (73), and the spring handles (76) are rotatably connected to the middle of one side outside the bearing box (75).

3. The fire-resistant and shock-proof safety box according to claim 2 is characterized in that the shock absorption mechanism (8) comprises a positioning connecting rod (81), a fixed cross rod (82), a rotating connecting rod (83) and a guide pipe (84), the guide pipe (84) is fixedly connected to the circumferential direction of one side in the mounting seat (2) at intervals, the rotating connecting rod (83) is rotatably connected in the guide pipe (84) in a penetrating mode, the fixed cross rod (82) is hinged to the position between two ends of the rotating connecting rod (83) on each side, the positioning connecting rod (81) is hinged to the circumferential direction of one side outside the vacuum heat insulation cabinet body (6) at intervals, and the tail end of the positioning connecting rod (81) is rotatably connected with the end.

4. The fire-resistant and shock-proof safety box according to claim 3, characterized by further comprising a lifting mechanism (9), wherein the lifting mechanism (9) comprises a rack driving plate (91), a reversing gear (92), a positioning gear (93), a lifting connecting rod (94), a driven connecting rod (95) and a lifting placing box (96), the rack driving plate (91) is arranged on the circumferential direction of the outer side of the bearing box (75) in a sliding way, the reversing gear (92) is rotatably connected to the two outer sides of the bearing box (75), which is meshed with a rack driving plate (91), a lifting connecting rod (94) is rotatably connected with the two outer sides of a bearing box (75), a positioning gear (93) is fixedly connected with one side of the lifting connecting rod (94), the lifting placing box is meshed with a reversing gear (92), driven connecting rods (95) are rotatably connected to the two outer sides of a bearing box (75), and a lifting placing box (96) is rotatably connected between the tail ends of the two driven connecting rods (95) and the tail ends of two lifting connecting rods (94).

5. The fire-resistant and shock-proof safety box according to claim 4, characterized by further comprising a supporting mechanism (10), wherein the supporting mechanism (10) comprises a supporting base (101), telescopic sleeve rails (102), supporting spring columns (103), a sliding block (104), a positioning telescopic rod (105) and a positioning locking block (106), the telescopic sleeve rails (102) are symmetrically arranged on one side in the vacuum heat insulation box body (6), the supporting base (101) is fixedly connected between one sides of the two telescopic sleeve rails (102), the positioning telescopic rod (105) is symmetrically fixedly connected on one side in the supporting base (101) and penetrates through the lifting placing box (96), the sliding block (104) is symmetrically and slidably arranged on one side in the supporting base (101), the supporting spring columns (103) are rotatably connected to the sliding block (104), the tail end of the supporting spring columns are rotatably connected with one side outside the lifting placing box (96), the positioning locking block (106) is arranged on one side in the vacuum heat insulation box body (6), which is in contact fit with the support base (101).

6. The fire-resistant and shock-proof safety box according to claim 5, characterized by further comprising a fire extinguishing mechanism (11), wherein the fire extinguishing mechanism (11) comprises a gas pressurizing box (111), a gas guide pipe (112), a servo motor (113), a ball valve (114), a temperature control sensor (115) and a signal transmission line (116), the gas guide pipe (112) is fixedly connected to the middle of one side of the vacuum heat insulation cabinet body (6) in a penetrating manner, the gas pressurizing box (111) is fixedly connected to the outer side of the vacuum heat insulation cabinet body (6), one side of the gas pressurizing box is fixedly connected and communicated with one end of the gas guide pipe (112), the servo motor (113) is installed on the outer side of the vacuum heat insulation cabinet body (6), the ball valve (114) is rotatably placed in the gas guide pipe (112), one side of the ball valve is fixedly connected with the end of an output shaft of the servo motor (113), the temperature, the signal transmission line (116) is connected between the temperature control sensor (115) and the servo motor (113).

7. The fire-resistant and shock-proof safety box is characterized by further comprising a locking mechanism (12), wherein the locking mechanism (12) comprises a locking plate (121), a positioning seat (122), a locking bolt (123) and a return spring (124), the positioning seat (122) is fixedly connected to the middle of the outer side of the vacuum heat-insulation cabinet body (6), the locking bolt (123) is slidably connected to the middle of one side of the positioning seat (122), the return spring (124) is symmetrically connected between the inner side of the locking bolt (123) and the outer side of the positioning seat (122), the locking plate (121) is rotatably connected to the middle of one side of the sealing door (61), the tail end of the locking plate (123) is located in the positioning seat (122), and the locking bolt (123) penetrates through the locking plate (121) to.

8. Fire-resistant and shock-resistant safe as claimed in claim 7, characterized in that the spring handle (76) is made of rubber.