CN218347232U - Translation cambered surface thin-wall door for micro-pressure oxygen-enriched health preserving bin - Google Patents

Abstract

The utility model relates to a minute-pressure oxygen boosting health preserving storehouse technical field, and disclose a translation cambered surface thin wall door for minute-pressure oxygen boosting health preserving storehouse including health preserving storehouse main part and thin wall door main part, health preserving storehouse main part be provided with the door entrance, health preserving storehouse main part is equipped with the operation piece, the operation piece is equipped with the connecting block, the operation piece is provided with movable chamber and shifting chute, the activity chamber is equipped with first lead screw, first lead screw is equipped with the threaded sleeve, the threaded sleeve is equipped with the sliding block, sliding block and shifting chute assembly, the sliding block is equipped with the assembly plate, be equipped with the connecting plate between the assembly plate, the connecting plate is equipped with the installation pipe, the installation pipe is equipped with the inserted bar, the inserted bar is equipped with thin wall door main part, above-mentioned a translation cambered surface thin wall door for minute-pressure oxygen boosting health preserving storehouse has solved current minute-pressure oxygen boosting health preserving storehouse when opening the door through the cooperation of first lead screw and hand wheel, the door can bounce open under the effect of internal pressure, serious can bounce the people, very dangerous problem.

Description

Translation cambered surface thin-wall door for micro-pressure oxygen-enriched health preserving bin

Technical Field

The utility model relates to a minute-pressure oxygen boosting health preserving equipment technical field specifically is a translation cambered surface thin-walled door for minute-pressure oxygen boosting health preserving storehouse.

Background

Health preserving science is a comprehensive science related to a plurality of subjects, and comprises traditional Chinese medicine, rehabilitation science, nutriology, aesthetics, psychology, national science, physics, chemistry, art, cooking, kinematics, and the like, along with the continuous acceleration of life and work rhythm, people feel tired more and more, and often have a cerebral anoxia state, and seriously affect life and work.

Because it is lower at plateau atmospheric pressure, it is great to be regarded as the interior outer differential pressure in the storehouse of minute-pressure oxygen boosting health preserving storehouse, in order to make storehouse internal pressure and oxygen content stable, must guarantee the good seal in health preserving storehouse, but present health preserving storehouse still has following problem at the in-process that uses:

the existing micropressure oxygen-enriched health-preserving cabin needs to be decompressed in advance when the automobile door is opened, if the automobile door is opened without decompression, the automobile door can be bounced open under the action of internal pressure, and people can be injured by serious bullet, so that the door is dangerous, and therefore the translation cambered surface thin-wall door for the micropressure oxygen-enriched health-preserving cabin is necessary in the technical field of the conventional micropressure oxygen-enriched health-preserving equipment.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To current minute-pressure oxygen boosting health preserving storehouse when opening the door, need the pressure release in advance, if not the pressure release directly opens the door, the door can be opened by bullet under the effect of inside pressure, and the people is hindered to serious meeting bullet, very dangerous problem, the utility model provides a translation cambered surface thin-wall door for minute-pressure oxygen boosting health preserving storehouse possesses and changes the door and open the structure, avoids the door can bounce the advantage of opening under the effect of inside pressure to solve the problem that the background art provided.

(II) technical scheme

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

the utility model provides a translation cambered surface thin-walled door for minute-pressure oxygen boosting health preserving storehouse, includes health preserving storehouse main part and thin-walled door main part, health preserving storehouse main part on be provided with into the door mouth, enter the door mouth and communicate with the inside of health preserving storehouse main part, the fixed operation piece that is equipped with in surface symmetry of health preserving storehouse main part, the one end fixed assembly of operation piece has the connecting block, the inside of operation piece all is provided with the movable chamber, the surface of operation piece all is provided with the shifting chute, the shifting chute corresponds and communicates with the movable chamber, equal movable assembly has first lead screw on the movable chamber, equal threaded assembly has the threaded sleeve on the first lead screw, the threaded sleeve is located the movable chamber, all fixed assembly has the sliding block on the threaded sleeve, the sliding block corresponds and carries out movable assembly with the movable groove, rotates in the threaded sleeve through first lead screw for the sliding block removes in the movable groove, all fixed assembly has the mounting plate on the sliding block, fixed assembly has the connecting plate between two mounting plates, the connecting plate on the symmetrical fixed assembly have the installation pipe, the one end of installation pipe all movable assembly has the inserted bar, the one end of inserted bar removes in the inside of installation pipe, the fixed door main part of one end of inserted bar, thin-walled door main part is close to the thin-walled door main part.

Preferably, the one end of first lead screw all the activity run through operation piece and connecting block to the fixed drive sprocket that is equipped with in one end of first lead screw, drive sprocket is located the inside of connecting block, and the winding has the chain on two drive sprocket, through the transmission of chain, makes two drive sprocket carry out the equidirectional rotation, fixed being equipped with the connecting rod on one of them drive sprocket.

Preferably, the connecting rod activity run-through connecting block to the fixed hand wheel that is equipped with in one end of connecting rod, the hand wheel is located one side of connecting block.

Preferably, the connecting plate on fixed assembly have the assembly piece, the inside of assembly piece is provided with rotates the chamber, rotates the symmetry on the chamber and is provided with the pull groove, rotates the chamber and goes up the activity and be equipped with the screw rod, the one end activity of screw rod runs through the assembly piece to the one end and the thin wall door main part of screw rod carry out fixed assembly, the fixed movable block that is equipped with of surface symmetry of screw rod, the movable block correspondence carries out movable assembly with the pull groove.

Preferably, the connecting plate on fixed be equipped with the motor, the output end of motor is fixed to be equipped with the second lead screw, the activity of second lead screw runs through connecting plate and assembly piece to the second lead screw carries out the screw assembly with the screw sleeve pole, rotates on the screw sleeve pole through the second lead screw, makes the movable block remove in the pull groove.

Preferably, the surface of the thin-wall door body is an arc surface, so that the attractiveness of the device is improved.

(III) advantageous effects

Compared with the prior art, the utility model discloses possess following beneficial effect:

the utility model discloses in be used for translation cambered surface thin wall door rotation hand wheel in minute-pressure oxygen boosting health preserving storehouse, under the transmission of chain, make two drive sprocket carry out the equidirectional rotation, first lead screw rotates in threaded sleeve, let the sliding block move on the shifting chute, move to the place ahead of entering storehouse mouth until thin wall door main part, starter motor this moment, the second lead screw rotates in threaded sleeve pole, let the movable block move on the traction groove, make things convenient for threaded sleeve pole to promote thin wall door main part and carry out the joint to entering storehouse mouth, make the health preserving storehouse main part close, the use of the device of being convenient for, the while device uses and accomplishes and carry out the pressure release back, thin wall door main part is opened on entering storehouse mouth, under the effect of assembly plate and connecting plate, make thin wall door main part can not bounce off under the effect of health preserving storehouse main part internal pressure, avoid the bullet wound people, the security is improved.

Drawings

FIG. 1 is a schematic view of a front view plane structure of a translational cambered surface thin-wall door for a micropressure oxygen-enriched health preserving bin of the present invention;

FIG. 2 is a schematic side view plane structure diagram of a translational cambered surface thin-wall door for a micropressure oxygen-enriched health preserving bin of the present invention;

FIG. 3 is a schematic structural view of the adjusting mechanism of the present invention;

fig. 4 is a schematic cross-sectional structural view of fig. 3 in the present invention;

fig. 5 is an enlarged schematic structural view of a portion a of fig. 4 in the present invention;

fig. 6 is an enlarged schematic structural diagram of the position B in fig. 4 according to the present invention.

In the figure:

10. a health preserving cabin main body; 11. a bin inlet; 12. an operation block; 13. a thin-walled door body;

20. a connecting plate; 21. a motor; 22. assembling a plate; 23. installing a pipe;

30. inserting a rod; 31. assembling the blocks; 32. a slider; 33. connecting blocks;

40. a hand wheel; 41. a drive sprocket; 42. a chain; 43. a connecting rod;

50. a rotation chamber; 51. a traction groove; 52. a threaded rod; 53. a movable block;

60. a second screw rod; 61. a movable cavity; 62. a moving groove; 63. a first lead screw;

70. a threaded sleeve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

As shown in fig. 1 to 6, it is a structural schematic diagram of a translational cambered surface thin-wall door for a micropressure oxygen-enriched health preserving warehouse according to a preferred embodiment of the present invention, the translational cambered surface thin-wall door for a micropressure oxygen-enriched health preserving warehouse according to the present embodiment includes a health preserving warehouse main body 10 and a thin-wall door main body 13, the health preserving warehouse main body 10 is provided with a warehouse entrance 11 communicating with the inside of the health preserving warehouse main body 10, the surface of the health preserving warehouse main body 10 is fixedly assembled with an operation block 12, one end of the operation block 12 is fixedly assembled with a connection block 33, the inside of the operation block 12 is provided with a movable chamber 61, the surface of the operation block 12 is provided with a movable groove 62 communicating with the movable chamber 61, the movable chamber 61 is movably assembled with a first lead screw 63, the first lead screw 63 is assembled with a threaded sleeve 70 located in the movable chamber 61 by screw thread, the threaded sleeve 70 is fixedly assembled with a sliding block 32 moving in the movable groove 62, the sliding block 32 is fixedly assembled with an assembly plate 22, two assembly plates 22 are assembled with a fixed connection plate 20, the connection plate 20 is symmetrically fixed with a installation pipe 23, one end of the installation pipe 23 is assembled with a movable rod 30, one end of the insertion rod 30 is assembled in the movable door 13, and the thin-wall door main body 13 is assembled with a thin-wall door 13 close to the thin-wall door 13.

One end of the first screw 63 movably penetrates through the operating block 12 and the connecting block 33, a transmission chain wheel 41 is fixedly assembled at one end of the first screw 63, the transmission chain wheel 41 is located inside the connecting block 33, chains 42 are wound on the two transmission chain wheels 41, a connecting rod 43 is fixedly assembled on one transmission chain wheel 41, the connecting rod 43 movably penetrates through the connecting block 33, a hand wheel 40 is fixedly assembled at one end of the connecting rod 43, and the hand wheel 40 is located on one side of the connecting block 33.

The connecting plate 20 on fixed assembly have assembly block 31, the inside of assembly block 31 is provided with rotates chamber 50, it is provided with pull slot 51 to rotate the symmetry on the chamber 50, it has threaded sleeve rod 52 to rotate chamber 50 on the activity, the one end activity of threaded sleeve rod 52 runs through assembly block 31, and the one end of threaded sleeve rod 52 and thin wall door main part 13 carry out fixed assembly, the fixed movable block 53 that moves at pull slot 51 that is equipped with is gone on in the surface symmetry of threaded sleeve rod 52, connecting plate 20 on fixed assembly have motor 21, the output end of motor 21 is fixed assembly have second lead screw 60, second lead screw 60 activity runs through connecting plate 20 and assembly block 31, and second lead screw 60 and threaded sleeve rod 52 carry out the screw assembly, thin wall door main part 13 surface be the cambered surface.

In this embodiment, the hand wheel 40 is rotated, under the transmission of the chain 42, so that the two transmission sprockets 41 rotate in the same direction, the first lead screw 63 rotates in the threaded sleeve 70, the sliding block 32 moves on the moving groove 62, until the thin-wall door main body 13 moves to the front of the warehouse entry 11, at this time, the motor 21 is started, the second lead screw 60 rotates in the threaded sleeve rod 52, the movable block 53 moves on the traction groove 51, the threaded sleeve rod 52 is convenient to push the thin-wall door main body 13 to clamp the warehouse entry 11, so that the health preservation warehouse main body 10 is closed, the device is convenient to use, after the device is used and pressure relief is performed, the thin-wall door main body 13 is opened on the warehouse entry 11, under the action of the assembling plate 22 and the connecting plate 20, the thin-wall door main body 13 cannot be bounced open under the action of the internal pressure of the health preservation warehouse main body 10, the elastic injury of people is avoided, and the safety is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A translational cambered surface thin-wall door for a micropressure oxygen-enriched curing bin, which comprises a curing bin main body (10) and a thin-wall door main body (13),

the method is characterized in that:

the curing bin is characterized in that a bin inlet (11) is formed in the curing bin main body (10), the bin inlet (11) is communicated with the interior of the curing bin main body (10), operation blocks (12) are symmetrically and fixedly assembled on the surface of the curing bin main body (10), a connecting block (33) is fixedly assembled at one end of each operation block (12), movable cavities (61) are formed in the operation blocks (12), movable grooves (62) are formed in the surfaces of the operation blocks (12), the movable grooves (62) are correspondingly communicated with the movable cavities (61), first screw rods (63) are movably assembled on the movable cavities (61), threaded sleeves (70) are assembled on the first screw rods (63) in a threaded manner, the threaded sleeves (70) are located in the movable cavities (61), sliding blocks (32) are fixedly assembled on the threaded sleeves (70), the sliding blocks (32) are movably assembled with the movable grooves (62) correspondingly, assembling plates (22) are fixedly assembled on the sliding blocks (32), a connecting plate (20) is fixedly assembled between the two assembling plates (22), a connecting plate (20) is symmetrically and a mounting pipe (23) is fixedly assembled on the connecting plate (20), an inserting rod (23) is assembled at one end of a movable pipe (23) is assembled at one end of a movable mounting rod (30), a door (30) is assembled on the movable mounting rod (30) is assembled on the thin-wall of the fixing rod main body (30), the thin-wall door main body (13) is close to the bin inlet (11).

2. The translation cambered surface thin-wall door for the micro-pressure oxygen-enriched health preserving cabin according to claim 1, characterized in that: one end of the first screw rod (63) penetrates through the operation block (12) and the connecting block (33) in a movable mode, one end of the first screw rod (63) is fixedly provided with a transmission chain wheel (41), the transmission chain wheel (41) is located inside the connecting block (33), chains (42) are wound on the two transmission chain wheels (41), and one transmission chain wheel (41) is fixedly provided with a connecting rod (43).

3. The translational cambered surface thin-wall door for the micropressure oxygen-enriched health preserving cabin according to claim 2, characterized in that: the connecting rod (43) movably penetrates through the connecting block (33), a hand wheel (40) is fixedly assembled at one end of the connecting rod (43), and the hand wheel (40) is located on one side of the connecting block (33).

4. The translation cambered surface thin-wall door for the micro-pressure oxygen-enriched health preserving cabin according to claim 3, characterized in that: connecting plate (20) on fixed assembly have assembly block (31), the inside of assembly block (31) is provided with rotates chamber (50), it is provided with pull slot (51) to rotate chamber (50) and go up the symmetry, it is equipped with screw rod (52) to rotate chamber (50) and go up the activity, the one end activity of screw rod (52) runs through assembly block (31), and the one end and thin wall door main part (13) of screw rod (52) carry out fixed Assembly, the fixed movable block (53) that is equipped with in surperficial symmetry of screw rod (52), movable block (53) correspond and carry out movable Assembly with pull slot (51).

5. The translational cambered surface thin-wall door for the micro-pressure oxygen-enriched health preserving cabin according to claim 4, is characterized in that: the motor (21) is fixedly assembled on the connecting plate (20), a second screw rod (60) is fixedly assembled at the output end of the motor (21), the second screw rod (60) movably penetrates through the connecting plate (20) and the assembling block (31), and the second screw rod (60) and the threaded sleeve rod (52) are in threaded assembly.

6. The translation cambered surface thin-wall door for the micro-pressure oxygen-enriched health preserving cabin according to claim 5, characterized in that: the surface of the thin-wall door main body (13) is an arc surface.

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