CN212836878U - Interior support frame body in safety storehouse of moving away to avoid possible earthquakes - Google Patents

Abstract

The utility model discloses an interior support body in safety storehouse of moving away to avoid possible earthquakes, a serial communication port, including the first side support frame, door support frame, second side support frame and the window support frame that connect gradually, first side support frame, door support frame, second side support frame and window support frame respectively with the outer wall body coupling in safety storehouse. After adopting above-mentioned structure, connect four side wall bodies in safe storehouse respectively in the first side support frame, door support frame, second side support frame and the window support frame outside, when the heavy object pounded down, the safe storehouse is inside to be supported through interior support body, strengthens the compressive capacity of side wall body, prevents that the side wall body in safe storehouse from collapsing and damaging.

Description

Interior support frame body in safety storehouse of moving away to avoid possible earthquakes

Technical Field

The utility model relates to a calamity life saving equipment technical field, concretely relates to support body in interior of safe storehouse of moving away to avoid possible earthquakes.

Background

Earthquake is also called earthquake, which is a natural phenomenon that earthquake waves are generated during vibration caused by the process of quickly releasing energy from the earth crust. The earthquake can cause the ground, the buildings and the mountain to be damaged by vibration, and the phenomena of ground collapse, house collapse and the like occur, thereby causing a great amount of casualties.

In order to avoid being injured by objects by crashing in the earthquake, people have developed multiple safety storehouse of moving away to avoid possible earthquakes, can let people hide in the safety storehouse when the earthquake, ensure self safety, but the intensity of the bin body structure in current safety storehouse of moving away to avoid possible earthquakes is lower to the structure is too complicated, and the installation is difficult, and when the heavy object was smashed and is fallen, the inside shock attenuation bearing structure in safety storehouse can't support weight, leads to the storehouse body in safety storehouse to be crushed and collapses.

In view of the above, the applicant has made an intensive study to solve the above problems and has made the present invention.

Disclosure of Invention

The utility model discloses a main aim at provides an interior support body in safe storehouse of moving away to avoid possible earthquakes can play stronger shock attenuation supporting role to the storehouse body to simple structure, the dismouting is convenient.

In order to achieve the above purpose, the solution of the present invention is:

the utility model provides an interior support body in safety storehouse of moving away to avoid possible earthquakes which characterized in that, including first side support frame, door support frame, second side support frame and the window support frame that connects gradually, first side support frame, door support frame, second side support frame and window support frame are connected with the outer wall body in safety storehouse respectively.

Further, first side support frame includes first support column and the second support column of vertical setting, connects in first back timber of first support column and second support column upper end and connects in the first handle crossbeam between first support column and second support column, first handle crossbeam is parallel in the below of first back timber.

Further, a first top beam mounting groove is formed in the upper surface of the first support column, a first cross beam connecting groove is formed in one side, connected with the first handle cross beam, of the first support column, a second top beam mounting groove is formed in the upper surface of the second support column, a second cross beam connecting groove is formed in one side, connected with the first handle cross beam, of the second support column, the first top beam is provided with a first top beam connecting end connected with the first support column and a second top beam connecting end connected with the second support column, the first top beam connecting end is provided with a first top beam connecting tenon extending outwards, the second top beam connecting end is provided with a second top beam connecting tenon extending outwards, the first top beam connecting tenon is embedded into the first top beam mounting groove and connected with the second top beam mounting groove, the first handle cross beam is provided with a first cross beam connected with the first support column and a second cross beam connecting end connected with the second support column, the first beam connecting end is provided with a first beam connecting tenon, the second beam connecting end is provided with a second beam connecting tenon, the first beam connecting tenon is embedded into the first beam connecting groove for connection, and the second beam connecting tenon is embedded into the second beam connecting groove for connection.

Furthermore, the first supporting column is provided with a right side surface of the first supporting column which is jointed with the outer wall body, the first top beam mounting groove is arranged at the intersection angle between the right side surface of the first supporting column and the upper surface of the first supporting column, the first top beam mounting groove comprises a first horizontal groove wall extending horizontally and a first vertical groove wall extending vertically, the first vertical groove wall extends from the first supporting column to the second supporting column and gradually inclines towards the right side surface of the first supporting column, the second supporting column is provided with a right side surface of the second supporting column which is jointed with the outer wall body, the second top beam mounting groove is arranged at the intersection angle between the right side surface of the second supporting column and the upper surface of the second supporting column, the second top beam mounting groove comprises a second horizontal groove wall extending horizontally and a second vertical groove wall extending vertically, the second vertical groove wall extends from the second support column towards the first support column and gradually inclines towards the right side face of the second support column.

Further, the first cross beam connecting groove is provided with a first cross beam connecting groove wall close to one side of the first top beam and a second cross beam connecting groove wall far away from one side of the first top beam, the first cross beam connecting groove wall extends from a position close to the first handle cross beam to a position far away from the first handle cross beam and gradually inclines upwards, the second cross beam connecting groove wall extends from a position close to the first handle cross beam to a position far away from the first handle cross beam and gradually inclines downwards, the second cross beam connecting groove is provided with a third cross beam connecting groove wall close to one side of the first top beam and a fourth cross beam connecting groove wall far away from one side of the first top beam, the third cross beam connecting groove wall extends from a position close to the first handle cross beam to a position far away from the first handle cross beam and gradually inclines upwards, and the fourth cross beam connecting groove wall extends from a position close to the first handle cross beam to a position far away from the first handle cross beam and gradually inclines, the first beam connecting tenon is provided with a first beam connecting tenon inclined plane which is jointed with the first beam connecting groove wall and a second beam connecting tenon inclined plane which is jointed with the second beam connecting groove wall, and the second beam connecting tenon is provided with a third beam connecting tenon inclined plane which is jointed with the third beam connecting groove wall and a fourth beam connecting tenon inclined plane which is jointed with the fourth beam connecting groove wall.

Furthermore, the first handle cross beam is provided with a plurality of openings, and the openings extend upwards to the upper surface of the first handle cross beam and form openings.

Further, second side support frame includes the third support column and the fourth support column of vertical setting, connects in the second back timber of third support column and second support column upper end and connects the second handle crossbeam between third support column and second support column, second handle crossbeam is in the below of second back timber in parallel.

Further, a third top beam mounting groove is formed in the upper surface of the third support column, a third cross beam connecting groove is formed in one side, connected with the second handle cross beam, of the third support column, a fourth top beam mounting groove is formed in the upper surface of the fourth support column, a fourth cross beam connecting groove is formed in one side, connected with the second handle cross beam, of the fourth support column, the second top beam is provided with a third top beam connecting end connected with the third support column and a fourth top beam connecting end connected with the third support column, the third top beam connecting end is provided with a third top beam connecting tenon extending outwards, the fourth top beam connecting tenon is provided with a fourth top beam connecting tenon extending outwards, the third top beam connecting tenon is embedded into the third top beam mounting groove for connection, the fourth top beam is embedded into the fourth top beam mounting groove for connection, the second handle cross beam is provided with a third cross beam connecting end connected with the third support column and a fourth cross beam connecting end connected with the fourth support column, the third crossbeam link is equipped with the third crossbeam tenon, the fourth crossbeam link is equipped with the fourth crossbeam tenon, the third crossbeam tenon embedding third crossbeam spread groove is connected, the fourth crossbeam tenon embedding fourth crossbeam spread groove is connected.

Furthermore, the third supporting column is provided with a left side surface of the third supporting column which is jointed with the outer wall body, the third top beam mounting groove is arranged at the intersection angle of the left side surface of the third supporting column and the upper surface of the third supporting column, the third top beam mounting groove comprises a third horizontal groove wall extending horizontally and a third vertical groove wall extending vertically, the third vertical groove wall extends from the third supporting column to the fourth supporting column and gradually inclines towards the left side surface of the third supporting column, the fourth supporting column is provided with a left side surface of the fourth supporting column which is jointed with the outer wall body, the fourth top beam mounting groove is arranged at the intersection angle of the right side surface of the fourth supporting column and the upper surface of the fourth supporting column, the fourth top beam mounting groove comprises a fourth horizontal groove wall extending horizontally and a fourth vertical groove wall extending vertically, the fourth vertical groove wall extends from the fourth supporting column towards the third supporting column and gradually inclines towards the right side face of the fourth supporting column.

Further, the third beam connecting groove has a fifth beam connecting groove wall close to one side of the second top beam and a sixth beam connecting groove wall far from one side of the second top beam, the fifth beam connecting groove wall extends from the position close to the second handle beam to the position far from the second handle beam and gradually inclines upwards, the sixth beam connecting groove wall extends from the position close to the second handle beam to the position far from the second handle beam and gradually inclines downwards, the fourth beam connecting groove has a seventh beam connecting groove wall close to one side of the second top beam and an eighth beam connecting groove wall far from one side of the second top beam, the seventh beam connecting groove wall extends from the position close to the second handle beam to the position far from the second handle beam and gradually inclines upwards, and the eighth beam connecting groove wall extends from the position close to the second handle beam to the position far from the second handle beam and gradually inclines downwards, the third beam connecting tenon is provided with a fifth beam inclined connecting tenon inclined plane which is jointed with the fifth beam connecting groove wall and a sixth beam connecting tenon inclined plane which is jointed with the sixth beam connecting groove wall, and the fourth beam connecting tenon is provided with a seventh beam connecting tenon inclined plane which is jointed with the seventh beam connecting groove wall and an eighth beam connecting tenon inclined plane which is jointed with the eighth beam connecting groove wall.

Furthermore, a plurality of through holes are formed in the second handle cross beam corresponding to the opening.

Further, interior support body still includes the pull handle stick fastener of a plurality of pull handle stick and fixed pull handle stick, the one end of pull handle stick is inserted in the perforation and the other end card is gone into in the opening, pull handle stick fastener embedding opening cooperation and the lower extreme and the pull handle stick of pull handle stick fastener support.

Further, the door support frame includes the gatepost, door back timber and door floorbar, the one end and the first support column upper end of door back timber are connected, and the other end and the third support column upper end of door back timber are connected, the one end and the first support column lower extreme of door floorbar are connected, and the other end and the third support column lower extreme of door floorbar are connected, the upper end and the gatepost of gatepost are connected and the lower extreme and the gatepost are connected, the gatepost is parallel with the third support column and establish the side at the third support column.

Further, the door back timber has the first door back timber link of being connected with first support column and the second door back timber link of being connected with the third support column, first door back timber link is equipped with first door back timber dovetail, the second door back timber link is equipped with the second door back timber dovetail, first support column is equipped with the first door back timber dovetail with first door back timber dovetail gomphosis, the third support column is equipped with the second door back timber dovetail with second door back timber dovetail gomphosis, the door floorbar has the first door floorbar link of being connected with first support column and the second door floorbar link of being connected with the third support column, first door floorbar link is equipped with first door floorbar dovetail, the second door floorbar link is equipped with the second door floorbar dovetail, first support column is equipped with the first door floorbar dovetail of with first door floorbar dovetail gomphosis, and the third support column is provided with a second door sill dovetail groove which is embedded with the second door sill dovetail tenon.

Further, the upper surface of first door back timber dovetail is by second door back timber link to first door back timber link direction tilt up gradually, the lower surface of first door back timber dovetail is by second door back timber link to first door back timber link direction downward sloping gradually, the upper surface of second door back timber dovetail is by first door back timber link to second door back timber link direction tilt up gradually, the lower surface of the half dovetail of second door back timber is by first door sill link to second door sill link direction downward sloping gradually.

Further, the upper surface of first door floorbar dovetail is by second floorbar link to first floorbar link direction tilt up gradually, the lower surface of first doorbar dovetail is by second floorbar link to first floorbar link direction downward sloping gradually, the upper surface of second doorbar dovetail is by first floorbar link to second floorbar link direction tilt up gradually, the lower surface of second doorbar dovetail is by first floorbar link to second doorbar link direction downward sloping gradually.

Further, the door back timber is equipped with first gatepost dovetail in the one side that is close to second door back timber link, the door floorbar is equipped with second gatepost dovetail in the one side that is close to second door back timber link, the lower extreme that the upper end of gatepost was equipped with first gatepost dovetail and gatepost is equipped with second gatepost dovetail, first gatepost dovetail embedding first gatepost dovetail internal connection, second gatepost dovetail embedding second gatepost dovetail internal connection.

Further, the first gate post dovetail groove is provided with a first gate post dovetail groove wall close to one side of the first gate top beam connecting end and a second gate post dovetail groove wall close to one side of the second gate top beam connecting end, the first gate post dovetail groove wall gradually inclines towards the first gate top beam connecting end from bottom to top, the second gate post dovetail groove wall gradually inclines towards the second gate top beam connecting end from bottom to top, the second gate post dovetail groove is provided with a third gate post dovetail groove wall close to one side of the first gate bottom beam connecting end and a fourth gate post dovetail groove wall close to one side of the second gate bottom beam connecting end, the third gate post dovetail groove wall gradually inclines towards the first gate bottom beam connecting end from top to bottom, the fourth gate post dovetail groove wall gradually inclines towards the second gate bottom beam connecting end from top to bottom, and the first gate post dovetail is provided with a first gate post dovetail joint surface jointed with the first gate post dovetail groove wall, and a second gate post dovetail joint surface jointed with the second gate post dovetail groove wall, wherein the second gate post dovetail is provided with a third gate post dovetail joint surface jointed with the third gate post dovetail groove wall and a fourth gate post dovetail joint surface jointed with the fourth gate post dovetail groove wall.

Further, the window support frame comprises a window top beam, a window bottom beam, a window middle beam, a first window column, a second window column and a third window column, one end of the window top beam is connected with the upper end of the second support column, the other end of the window top beam is connected with the upper end of the fourth support column, one end of the window bottom beam is connected with the lower end of the second support column, the other end of the window bottom beam is connected with the lower end of the fourth support column, the first window column and the second window column are arranged in parallel, the first window column is arranged at one side close to the second support column, the upper end of the first window column is connected with the window top beam, the lower end of the first window column is connected with the window bottom beam, the second window column is arranged at one side close to the fourth support column, the upper end of the second window column is connected with the window top beam, the lower end of the second window column is connected with the window bottom beam, one end of the window middle beam is connected with the middle of the first window column, and the other end of the window, the upper end of the third window column is connected with the window middle beam, and the lower end of the third window column is connected with the window bottom beam.

Further, the window back timber has the first window back timber link of being connected with the second support column and the second window back timber link of being connected with the fourth support column, first window back timber link is equipped with the half forked tail of first window back timber of outside extension, second window back timber link is equipped with the half forked tail of second window back timber of outside extension, the second support column is equipped with the half dovetail of first window back timber with the half forked tail gomphosis of first window back timber, the fourth support column is equipped with the half dovetail of second window back timber with the half forked tail gomphosis of second window back timber.

Further, the lower surface of the first window top beam half dovetail is extended and gradually inclines downwards to the first window top beam connecting end direction by the second window top beam connecting end, the lower surface of the second window top beam half dovetail is extended and gradually inclines downwards to the second window top beam connecting end direction by the first window top beam connecting end, the lower cell wall of the first window top beam half dovetail with the lower surface laminating of the first window top beam half dovetail, the lower cell wall of the second window top beam half dovetail with the lower surface laminating of the second window top beam half dovetail.

Further, the window sill has a first window sill connection end connected with the second support column and a second window sill connection end connected with the fourth support column, the first window sill connection end is provided with a first window sill dovetail joint extending outwards, the second window sill connection end is provided with a second window sill dovetail joint extending outwards, the second support column is provided with a first window sill dovetail joint embedded with the first window sill half dovetail joint, and the fourth support column is provided with a second window sill dovetail joint embedded with the second window sill half dovetail joint.

Further, a first window column dovetail groove is arranged on the lower surface of the first top beam connecting end, a second window column dovetail groove is arranged on the lower surface of the second top beam connecting end, the upper surface of the connecting end of the first window bottom beam is provided with a third window column dovetail groove, the upper surface of the connecting end of the second window bottom beam is provided with a fourth window column dovetail groove, the upper end of the first window column is provided with a first window column dovetail tenon which protrudes upwards, and the lower end of the first window column is provided with a third window column dovetail tenon which protrudes downwards, the first window column dovetail joint is in fit connection with the first window column dovetail groove, the third window column dovetail joint is in fit connection with the third window column dovetail groove, the upper end of the second window column is provided with a second window column dovetail joint which protrudes upwards, the lower end of the second window column is provided with a fourth window column dovetail joint which protrudes downwards, the second window column dovetail joint is in fit connection with the second window column dovetail groove, and the fourth window column dovetail joint is in fit connection with the fourth window column dovetail groove.

Further, a first window column dovetail groove wall is arranged on one side, close to the first window top beam connecting end, of the first window column dovetail groove, a second window column dovetail groove wall is arranged on one side, far away from the first window top beam connecting end, of the first window column dovetail groove, the first window column dovetail groove wall gradually inclines towards the first window top beam connecting end from bottom to top, the second window column dovetail groove wall gradually inclines towards the second window top beam connecting end from bottom to top, a third window column dovetail groove wall is arranged on one side, close to the first window bottom beam connecting end, of the second window column dovetail groove, a fourth window column dovetail groove wall is arranged on one side, far away from the first window bottom beam connecting end, of the third window column dovetail groove wall gradually inclines towards the first window bottom beam connecting end from top to bottom, the fourth window column dovetail groove wall gradually inclines towards the second window bottom beam connecting end from top to bottom, a fifth window column dovetail groove wall is arranged on one side, close to the first window top beam connecting end, of the third window column dovetail groove wall, and a sixth window column dovetail, fifth window post forked tail cell wall is by supreme slope to first window roof beam link gradually down, sixth window post forked tail cell wall is by supreme slope to second window roof beam link gradually down, fourth window post forked tail dovetail is close to first window sill link one side and is equipped with seventh window post forked tail cell wall and keeps away from first window sill link one side and is equipped with eighth window post forked tail cell wall, seventh window post forked tail cell wall from top to bottom slopes to first window sill link gradually, eighth window post forked tail cell wall from top to bottom slopes to second window sill link gradually. The first window column dovetail joint has a first window column dovetail joint surface with the laminating of first window column dovetail groove wall and a second dovetail joint surface with the laminating of second window column dovetail groove wall, the second window column dovetail joint has a third window column dovetail joint surface with the laminating of third window column dovetail groove wall and a fourth dovetail joint surface with the laminating of fourth window column dovetail groove wall, the third window column dovetail joint has a fifth window column dovetail joint surface with the laminating of fifth window column dovetail groove wall and a sixth dovetail joint surface with the laminating of sixth window column dovetail groove wall, the fourth window column dovetail joint has a seventh window column dovetail joint surface with the laminating of seventh window column dovetail groove wall and an eighth window column dovetail joint surface with the laminating of eighth window column dovetail groove wall.

Further, one side that the second support column was kept away from to first window post is equipped with first window centre sill dovetail, one side that the fourth support column was kept away from to second window post is equipped with second window centre sill dovetail, the roof beam has the first window centre sill link of being connected with first window post and the second window centre sill link of being connected with second window post in the window, first window centre sill link is equipped with the first window centre sill dovetail of being connected with first window centre sill dovetail gomphosis, second window centre sill link is equipped with the second window centre sill dovetail of being connected with second window centre sill gomphosis.

Further, the first window center sill dovetail groove is provided with a first window center sill dovetail groove wall close to one side of the window top beam and a second window center sill dovetail groove wall close to one side of the window bottom beam, the first window center sill dovetail groove wall gradually inclines upwards from a groove opening to a groove bottom, the second window center sill dovetail groove wall gradually inclines downwards from a groove opening to a groove bottom, the second window center sill dovetail groove is provided with a third window center sill dovetail groove wall close to one side of the window top beam and a fourth window center sill dovetail groove wall close to one side of the window bottom beam, the third window center sill dovetail groove wall gradually inclines upwards from a groove opening to a groove bottom, the fourth window center sill dovetail groove wall gradually inclines downwards from a groove opening to a groove bottom, the first window center sill dovetail tenon is provided with a first window center sill dovetail joint surface jointed with the first window center sill dovetail groove wall and a second window center sill dovetail joint surface jointed with the second window center sill dovetail joint surface, the second window middle beam dovetail joint is provided with a third window middle beam dovetail joint surface jointed with the third window middle beam dovetail groove wall and a fourth window middle beam dovetail joint surface jointed with the fourth window middle beam dovetail groove wall.

Furthermore, the upper end of the third window column is provided with a fifth window column dovetail joint, the lower end of the third window column is provided with a sixth window column dovetail joint, the lower surface of the window middle beam is provided with a fifth window column dovetail joint in matched connection with the fifth window column dovetail joint, and the upper surface of the window bottom beam is provided with a sixth window column dovetail joint in matched connection with the sixth window column dovetail joint.

Further, the fifth window column dovetail groove has a ninth window column dovetail groove wall close to one side of the first window center sill connection end and a tenth window column dovetail groove wall close to one side of the second window center sill connection end, the ninth window column dovetail groove wall gradually inclines toward the first window center sill connection end from bottom to top, the tenth window column dovetail groove wall gradually inclines toward the second window center sill connection end from bottom to top, the fifth window column dovetail groove has a ninth window column dovetail joint surface attached to the ninth window column dovetail groove wall and a tenth window column dovetail joint surface attached to the tenth window column dovetail groove wall, the sixth window column dovetail groove has an eleventh window column dovetail groove wall close to one side of the first window bottom sill connection end and a twelfth window column dovetail groove wall close to one side of the second window bottom sill connection end, the eleventh window column dovetail groove wall gradually inclines toward one side of the first window bottom sill connection end from top to bottom, the twelfth window column dovetail groove wall gradually inclines to one side of the second window sill connecting end from top to bottom, and the sixth dovetail is provided with an eleventh window column dovetail joint surface attached to the eleventh window column dovetail groove wall and a twelfth dovetail joint surface attached to the twelfth window column dovetail groove wall.

Furthermore, the first side edge support frame, the door support frame, the second side edge support frame and the window support frame are made of recombined bamboo materials.

After adopting above-mentioned structure, connect four side wall bodies in safe storehouse respectively in the first side support frame, door support frame, second side support frame and the window support frame outside, when the heavy object pounded down, the safe storehouse is inside to be supported through interior support body, strengthens the compressive capacity of side wall body, prevents that the side wall body in safe storehouse from collapsing and damaging.

Compared with the prior art, the novel structure is simple and compact, and the installation is very convenient and fast. In addition, this novel shock attenuation bearing structure adopts the reorganization bamboo timber to support, has fabulous toughness and anti-seismic performance, can promote the compressive property in safe storehouse greatly, prevents that the storehouse body from being collapsed by the wall body and the heavy object that collapse, has improved the compressive strength in safe storehouse greatly.

Drawings

Fig. 1 is a perspective view of the external structure of the present invention.

Fig. 2 is a perspective view of the shape structure of the first side supporting frame.

Fig. 3 is a perspective view of the second side support frame.

Fig. 4 is a perspective view of the mounting structure of the handle bar.

Fig. 5 is a perspective view of the external structure of the door supporting frame.

Fig. 6 is a perspective view of the external structure of the window support frame.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

As shown in fig. 1 to 6, the internal support frame of the earthquake-proof safety cabin is characterized by comprising a first side support frame 11, a door support frame 14, a second side support frame 12 and a window support frame 15 which are sequentially connected, wherein the first side support frame 11, the door support frame 14, the second side support frame 12 and the window support frame 15 are respectively connected with an external wall of the safety cabin.

After adopting above-mentioned structure, connect four side wall bodies in safe storehouse respectively in first side support frame 11, door support frame 14, second side support frame 12 and the 15 outsides of window support frame, when the heavy object pounded down, the safe storehouse is inside to be supported through interior support body, strengthens the compressive capacity of side wall body, prevents that the side wall body in safe storehouse from collapsing and damaging.

Preferably, the first side supporting frame 11 includes a first supporting column 111 and a second supporting column 112 which are vertically arranged, a first top beam 113 connected to the upper ends of the first supporting column 111 and the second supporting column 112, and a first handle cross beam 114 connected between the first supporting column 111 and the second supporting column 112, the first handle cross beam 114 is parallel to the lower side of the first top beam 113, and after the structure is adopted, the first supporting column 111, the second supporting column 112, and the first top beam 113 can play a certain supporting role on an external wall body, so that the pressure resistance of the bin main body 1 is enhanced.

Preferably, a first top beam installation groove 1111 is formed on the upper surface of the first support column 111, a first beam connection groove 1112 is formed on one side of the first support column 111 connected to the first handle beam 114, a second top beam 123 installation groove 1121 is formed on the upper surface of the second support column 112, a second beam connection groove 1122 is formed on one side of the second support column 112 connected to the first handle beam 114, the first top beam 113 has a first top beam connection end connected to the first support column 111 and a second top beam connection end connected to the second support column 112, the first top beam connection end is provided with a first top beam connection tongue 1131 extending outwards, the second top beam connection end is provided with a second top beam connection tongue 1132 extending outwards, the first top beam connection tongue 1131 is embedded into the first top beam installation groove 1111 for connection, the second top beam connection tongue 1132 is embedded into the second top beam 123 installation groove for connection, first handle crossbeam 114 has the first crossbeam link end of being connected with first support column 111 and the second crossbeam link end of being connected with second support column 112, first crossbeam link end is equipped with first crossbeam connecting tongue 1141, second crossbeam link end is equipped with second crossbeam connecting tongue 1142, first crossbeam connecting tongue 1141 imbeds first crossbeam spread groove 1112 and connects, second crossbeam connecting tongue 1142 imbeds second crossbeam spread groove 1122 and connects, adopts above-mentioned structure, and first side support frame 11 adopts the connected mode of tongue-and-groove structure to connect for 11 dismouting of first side support frame is convenient more fast.

Preferably, the first supporting pillar 111 has the right side of the first supporting pillar 111 attached to the outer wall, the first supporting pillar mounting groove 1111 is opened at the boundary corner between the right side of the first supporting pillar 111 and the upper surface of the first supporting pillar 111, the first supporting pillar mounting groove 1111 includes the first horizontal groove wall extending horizontally and the first vertical groove wall extending vertically, the first vertical groove wall is extended from the first supporting pillar 111 toward the second supporting pillar 112 and gradually inclines toward the right side of the first supporting pillar 111, the second supporting pillar 112 has the right side of the second supporting pillar 112 attached to the outer wall, the second supporting pillar 123 mounting groove 1121 is opened at the boundary corner between the right side of the second supporting pillar 112 and the upper surface of the second supporting pillar 112, the second supporting pillar 123 mounting groove 1121 includes the second horizontal groove wall extending horizontally and the second vertical groove wall extending vertically, the second vertical slot wall extends from the second support column 112 toward the first support column 111 and gradually inclines toward the right side of the second support column 112. With the adoption of the structure, the first top beam mounting groove 1111 and the second top beam 123 mounting groove 1121 can prevent the first top beam 113 from moving forward and backward, so that the first top beam 113 is connected more firmly.

Preferably, the first beam connecting groove 1112 has a first beam connecting groove 1112 wall close to the first top beam 113 side and a second beam connecting groove 1122 wall far from the first top beam 113 side, the first beam connecting groove 1112 wall extends from close to the first handle beam 114 in a direction far from the first handle beam 114 and is gradually inclined upward, the second beam connecting groove 1122 wall extends from close to the first handle beam 114 in a direction far from the first handle beam 114 and is gradually inclined downward, the second beam connecting groove 1122 has a third beam connecting groove 1212 wall close to the first top beam 113 side and a fourth beam connecting groove 1222 wall far from the first top beam 113 side, the third beam connecting groove 1212 wall extends from close to the first handle beam 114 in a direction far from the second handle beam 114 and is gradually inclined upward, and the fourth beam connecting groove 1222 wall extends from close to the first handle beam 114 in a direction far from the first handle beam 114 and is gradually inclined toward the first handle beam connecting groove 114 And the first beam joint tongue 1141 has a first beam joint tongue 1141 inclined surface attached to the wall of the first beam joint groove 1112 and a second beam joint tongue 1142 inclined surface attached to the wall of the second beam joint groove 1122, and the second beam joint tongue 1142 has a third beam joint tongue 1241 inclined surface attached to the wall of the third beam joint groove 1212 and a fourth beam joint tongue 1242 inclined surface attached to the wall of the fourth beam joint groove 1222. After adopting above-mentioned structure, can make first crossbeam and first crossbeam connecting groove 1112 and second crossbeam connecting groove 1122 be connected more firmly, prevent that first crossbeam from droing in first crossbeam connecting groove 1112 and second crossbeam connecting groove 1122.

Preferably, the first handle cross member 114 is provided with a plurality of openings 1143, and the openings 1143 extend upward to the upper surface of the first handle cross member 114 and form openings.

Preferably, the second side support frame 12 includes a third support column 121 and a fourth support column 122 which are vertically arranged, a second top beam 123 connected to the upper ends of the third support column 121 and the fourth support column 122, and a second handle cross beam 124 connected between the third support column 121 and the second support column 112, and the second handle cross beam 124 is parallel below the second top beam 123. After the structure is adopted, the third supporting column 121, the fourth supporting column 122 and the second top beam 123 can support the outer wall to a certain extent, so that the pressure resistance of the bin main body 1 is enhanced.

Preferably, a third top beam installation groove 1211 is formed in the upper surface of the third support column 121, a third beam connection groove 1212 is formed in one side of the third support column 121 connected to the second handle cross beam 124, a fourth top beam installation groove 1221 is formed in the upper surface of the fourth support column 122, a fourth beam connection groove 1222 is formed in one side of the fourth support column 122 connected to the second handle cross beam 124, the second top beam 123 has a third top beam connection end connected to the third support column 121 and a fourth top beam connection end connected to the third support column 121, the third top beam connection end is provided with a third top beam connection tongue 1231 extending outwards, the fourth top beam connection end is provided with a fourth top beam connection tongue 1232 extending outwards, the third top beam connection tongue 1231 is embedded into the third top beam installation groove 1211 for connection, and the fourth top beam connection tongue 1232 is embedded into the fourth top beam installation groove 1221 for connection, the second handle beam 124 has a third beam connection end connected to the third support column 121 and a fourth beam connection end connected to the fourth support column 122, the third beam connection end is provided with a third beam connection tongue 1241, the fourth beam connection end is provided with a fourth beam connection tongue 1242, the third beam connection tongue 1241 is embedded into the third beam connection groove 1212 for connection, and the fourth beam connection tongue 1242 is embedded into the fourth beam connection groove 1222 for connection. By adopting the structure, the second side edge support frame 12 is connected by adopting the connecting mode of the mortise structure, so that the second side edge support frame 12 is more convenient and quicker to disassemble and assemble.

Preferably, the third support column 121 has the third support column 121 left surface with the laminating of outer wall body, the boundary contained angle department at third support column 121 left surface and third support column 121 upper surface is seted up to third back timber mounting groove, the third back timber mounting groove 1211 includes the third horizontal cell wall that the level extends and the vertical cell wall of third of extending, the vertical cell wall of third is by third support column 121 towards the extension of fourth support column 122 direction and slope to third support column 121 left surface direction gradually, fourth support column 122 has the fourth support column 122 left surface with the laminating of outer wall body, fourth back timber mounting groove 1221 is seted up at the boundary contained angle department at fourth support column 122 right flank and fourth support column 122 upper surface, fourth back timber mounting groove 1221 includes the fourth horizontal cell wall that the level extends and the vertical cell wall that extends, the fourth vertical cell wall is extended towards third support column 121 direction and is gradually by fourth support column 122 and is to fourth support column 121 122 is inclined in the direction of the right side. With the above structure, the third top beam installation grooves 1211 and the fourth top beam installation grooves 1221 can prevent the second top beam 123 from moving forward and backward, so that the second top beam 123 is connected more firmly.

Preferably, the third beam connecting groove 1212 has a fifth beam connecting groove wall near the second top beam 123 side and a sixth beam connecting groove wall far from the second top beam 123 side, the fifth beam connecting groove wall extends from near the second handle beam 124 to far from the second handle beam 124 and gradually inclines upward, the sixth beam connecting groove wall extends from near the second handle beam 124 to far from the second handle beam 124 and gradually inclines downward, the fourth beam connecting groove 1222 has a seventh beam connecting groove wall near the second top beam 123 side and an eighth beam connecting groove wall far from the second top beam 123 side, the seventh beam connecting groove wall extends from near the second handle beam 124 to far from the second handle beam 124 and gradually inclines upward, the eighth beam connecting groove wall extends from near the second handle beam 124 to far from the second handle beam 124 and gradually inclines downward, the third beam joint tongue 1241 has a fifth beam inclined joint tongue inclined plane which is fitted to the fifth beam joint groove wall and a sixth beam joint tongue inclined plane which is fitted to the sixth beam joint groove wall, and the fourth beam joint tongue 1242 has a seventh beam joint tongue inclined plane which is fitted to the seventh beam joint groove wall and an eighth beam joint tongue inclined plane which is fitted to the eighth beam joint groove wall. After adopting above-mentioned structure, can make the second crossbeam be connected more firmly with third crossbeam connecting groove 1212 and fourth crossbeam connecting groove 1222, prevent that the second crossbeam from droing in third crossbeam connecting groove 1212 and the fourth crossbeam connecting groove 1222.

Preferably, the second handle cross member 124 is provided with a plurality of through holes 1243 corresponding to the openings 1143.

Preferably, the inner support frame body further comprises a plurality of handle bars 13 and handle bar fasteners 131 for fixing the handle bars 13, one end of each handle bar 13 is inserted into the through hole 1243, the other end of each handle bar 13 is clamped into the corresponding notch 1143, the handle bar fasteners 131 are embedded into the corresponding notches 1143 and are matched with each other, and the lower ends of the handle bar fasteners 131 abut against the handle bars 13, so that the handle bars 13 are very convenient to install. After adopting above-mentioned structure, when earthquake causes acutely to rock, the personnel of moving away to avoid possible earthquakes can grab and stabilize handle stick 13 and prevent to tumble, collide with, further ensure the personnel's safety in the storehouse main part 1.

Preferably, the door supporting frame 14 includes a door post 141, a door top beam 142 and a door bottom beam 143, one end of the door top beam 142 is connected to the upper end of the first supporting column 111, the other end of the door top beam 142 is connected to the upper end of the third supporting column 121, one end of the door bottom beam 143 is connected to the lower end of the first supporting column 111, the other end of the door bottom beam 143 is connected to the lower end of the third supporting column 121, the upper end of the door post 141 is connected to the door top beam 142 and the lower end of the door post 141 is connected to the door bottom beam 143, and the door post 141 is parallel to the third supporting column 121 and is disposed on the side of the third supporting column 121. After adopting above-mentioned structure, door support frame 14 has certain supporting effect to outer wall body, further strengthens the compressive capacity of storehouse main part 1. In addition, a sliding door in sliding connection can be arranged between the door top beam and the door bottom beam.

The door top beam 142 has a first door top beam connecting end connected with the first support column 111 and a second door top beam connecting end connected with the third support column 121, the first door top beam connecting end is provided with a first door top beam dovetail 1421, the second door top beam connecting end is provided with a second door top beam dovetail 1422, the first support column 111 is provided with a first door top beam dovetail groove 1113 embedded with the first door top beam dovetail 1421, the third support column 121 is provided with a second door top beam dovetail groove 1213 embedded with the second door top beam dovetail 1422, the door bottom beam 143 has a first door bottom beam connecting end connected with the first support column 111 and a second door bottom beam connecting end connected with the third support column 121, the first door bottom beam connecting end is provided with a first door bottom beam dovetail 1431, the second door bottom beam connecting end is provided with a second door bottom beam 1432, the first door bottom beam dovetail 111 is provided with a first door bottom beam dovetail groove 1114 embedded with the first door bottom beam dovetail 1431, the third support post 121 is provided with a second door sill dovetail slot 1214 that mates with the second door sill dovetail 1432. By adopting the structure, the door top beam 142 and the door bottom beam 143 are connected with the first supporting column 111 and the third supporting column 121 through the tongue-and-groove structure, and the assembly and disassembly are very convenient and fast.

Preferably, the upper surface of the first door top beam dovetail 1421 gradually inclines upward from the second door top beam connecting end to the first door top beam connecting end, the lower surface of the first door top beam dovetail 1421 gradually inclines downward from the second door top beam connecting end to the first door top beam connecting end, the upper surface of the second door top beam dovetail 1422 gradually inclines upward from the first door top beam connecting end to the second door top beam connecting end, and the lower surface of the half dovetail of the second door top beam 142 gradually inclines downward from the first door bottom beam connecting end to the second door bottom beam connecting end. After the structure is adopted, the first door top beam dovetail 1421 and the second door top beam dovetail 1422 can be connected with the first support column 111 and the third support column 121 more firmly, and the support force is further enhanced.

Preferably, the upper surface of the first doorsill dovetail 1431 gradually inclines upward from the second doorsill connection end to the first doorsill connection end, the lower surface of the first doorsill dovetail 1431 gradually inclines downward from the second doorsill connection end to the first doorsill connection end, the upper surface of the second doorsill dovetail 1432 gradually inclines upward from the first doorsill connection end to the second doorsill connection end, and the lower surface of the second doorsill dovetail 1432 gradually inclines downward from the first doorsill connection end to the second doorsill connection end, so that the first doorsill dovetail 1431 and the second doorsill dovetail can be more firmly connected with the first support column 111 and the second support column 112, and the support force is further enhanced.

Preferably, a first doorpost dovetail groove 1423 is formed in one side of the door top beam 142 close to the second door top beam connection end, a second doorpost dovetail groove 1433 is formed in one side of the door bottom beam 143 close to the second door top beam connection end, a first doorpost dovetail 1411 is formed in the upper end of the doorpost 141, a second doorpost dovetail 1412 is formed in the lower end of the doorpost 141, the first doorpost dovetail 1411 is embedded in the first doorpost dovetail groove 1423 for connection, and the second doorpost dovetail 1412 is embedded in the second doorpost dovetail groove 1433 for connection. By adopting the tongue-and-groove connection structure, the doorpost 141, the door top beam 142 and the door bottom beam 143 can be assembled and disassembled more conveniently and rapidly.

Preferably, the first gate post dovetail groove 1423 has a first gate post dovetail groove wall close to one side of the first gate top beam connection end and a second gate post dovetail groove wall close to one side of the second gate top beam connection end, the first gate post dovetail groove wall gradually inclines towards the first gate top beam connection end from bottom to top, the second gate post dovetail groove wall gradually inclines towards the second gate top beam connection end from bottom to top, the second gate post dovetail groove 1433 has a third gate post 141 dovetail groove wall close to one side of the first gate bottom beam connection end and a fourth gate post 141 dovetail groove wall close to one side of the second gate bottom beam 143 column connection end, the third gate post dovetail groove wall gradually inclines towards the first gate bottom beam connection end from top to bottom, the fourth gate post 141 dovetail groove wall gradually inclines towards the second gate bottom beam connection end from top to bottom, the first gate post dovetail joint surface attached to the first gate post dovetail groove wall 1411411411411411 is provided, and a second gate post dovetail joint surface jointed with the second gate post dovetail groove wall, wherein the second gate post dovetail 1412 is provided with a third gate post dovetail joint surface jointed with the third gate post dovetail groove wall and a fourth gate post dovetail joint surface jointed with the fourth gate post dovetail groove wall. By adopting the structure, the first gate post dovetail 1411 is more firmly connected with the first gate post dovetail groove 1423, and the second gate post dovetail 1412 is more firmly connected with the second gate post dovetail groove 1433.

Preferably, the window supporting frame 15 includes a window top beam 151, a window bottom beam 152, a window middle beam 153, a first window column 154, a second window column 155 and a third window column 156, one end of the window top beam 151 is connected with the upper end of the second supporting column 112, the other end of the window top beam 151 is connected with the upper end of the fourth supporting column 122, one end of the window bottom beam 152 is connected with the lower end of the second supporting column 112, the other end of the window bottom beam 152 is connected with the lower end of the fourth supporting column 122, the first window column 154 is parallel to the second window column 155, the first window column 154 is disposed at a side close to the second supporting column 112, the upper end of the first window column 154 is connected with the window top beam 151 and the lower end of the first window column 154 is connected with the window bottom beam 152, the second window column 155 is disposed at a side close to the fourth supporting column 122, the upper end of the second window column 155 is connected with the window top beam 151 and the lower end of the second window column 155 is connected with the window bottom beam 152, one end of the window center sill 153 is connected to the middle of the first window pillar 154 and the other end of the window center sill 153 is connected to the middle of the second window pillar 155, the upper end of the third window pillar 156 is connected to the window center sill 153 and the lower end of the third window pillar 156 is connected to the window sill 152. After adopting above-mentioned structure, window support frame 15 has certain supporting effect to outer wall body, further strengthens storehouse main part 1's compressive capacity, can set up sliding connection's austral window, sliding sash between roof beam 152 on roof beam 151 and the window in the window.

Preferably, the window top beam 151 has a first window top beam connecting end connected with the second supporting column 112 and a second window top beam connecting end connected with the fourth supporting column 122, the first window top beam connecting end is provided with a first window top beam half dovetail 1511 extending outwards, the second window top beam connecting end is provided with a second window top beam half dovetail 1512 extending outwards, the second supporting column 112 is provided with a first window top beam half dovetail 1123 embedded with the first window top beam half dovetail 1511, and the fourth supporting column 122 is provided with a second window top beam half dovetail 1223 embedded with the second window top beam half dovetail 1512. By adopting the structure, the window top beam 151, the second supporting column 112 and the fourth supporting column 122 can be assembled and disassembled more conveniently and quickly.

Preferably, the lower surface of the first window top beam half dovetail 1511 is extended and gradually inclined downwards from the second window top beam connecting end to the first window top beam connecting end, the lower surface of the second window top beam half dovetail 1512 is extended and gradually inclined downwards from the first window top beam connecting end to the second window top beam connecting end, the lower groove wall of the first window top beam half dovetail 1123 is attached to the lower surface of the first window top beam half dovetail 1511, and the lower groove wall of the second window top beam half dovetail 1223 is attached to the lower surface of the second window top beam half dovetail 1512. By adopting the structure, the left and right movement of the window top beam 151 can be limited, and the window top beam 151 is prevented from being separated from the first window top beam half dovetail groove 1123 and the second window top beam half dovetail groove 1223, so that the window top beam 151 is more firmly installed, and the structural strength of the window support frame 15 is enhanced.

The window sill 152 has a first window sill connection end connected with the second support column 112 and a second window sill connection end connected with the fourth support column 122, the first window sill connection end is provided with a first window sill dovetail 1521 extending outwards, the second window sill connection end is provided with a second window sill dovetail 1522 extending outwards, the second support column 112 is provided with a first window sill dovetail 1124 jogged with the first window sill dovetail 1521, and the fourth support column 122 is provided with a second window sill dovetail 1224 jogged with the second window sill dovetail 1522. By adopting the structure, the window bottom beam 152 is more convenient to disassemble and assemble, and the installation time is saved.

Preferably, a first window column dovetail groove 1513 is arranged on the lower surface of the first window top beam connecting end, a second window column dovetail groove 1514 is arranged on the lower surface of the second top beam connecting end, a third window column dovetail groove 1523 is arranged on the upper surface of the first window sill connecting end, a fourth window column dovetail groove 1524 is arranged on the upper surface of the second window sill connecting end, an upward convex first window column dovetail 1541 is arranged at the upper end of the first window column 154, a downward convex third window column dovetail 1542 is arranged at the lower end of the first window column 154, the first window column dovetail 1 is in fit connection with the first window column dovetail groove 1513, the third window column dovetail 1522 is in fit connection with the third window column dovetail groove 1543, an upward convex second window column dovetail 1551 is arranged at the upper end of the second window column 155, a downward convex fourth window column dovetail 1552 is arranged at the lower end of the second window column 1551, and the second window column dovetail groove 1514 are in fit connection, the fourth window column dovetail 1552 is in mating connection with the fourth window column dovetail slot 1524. After adopting above-mentioned structure for first window post 154 and second window post 155 are connected with window roof beam 151 and window sill 152 through tongue and groove connection structure, and the dismouting is more convenient.

Preferably, a first window column dovetail groove wall is arranged on one side, close to the first window top beam connecting end, of the first window column dovetail groove 1513, a second window column dovetail groove 1514 wall is arranged on one side, far away from the first window top beam connecting end, of the first window column dovetail groove, the first window column dovetail groove wall gradually inclines towards the first window top beam connecting end from bottom to top, the second window column dovetail groove wall gradually inclines towards the second window top beam connecting end from bottom to top, a third window column dovetail groove wall is arranged on one side, close to the first window bottom beam connecting end, of the second window column dovetail groove 1514, a fourth window column dovetail groove wall is arranged on one side, far away from the first window bottom beam connecting end, of the third window column dovetail groove 1523, a fifth window column dovetail groove wall is arranged on one side, close to the first window top beam connecting end, of the third window column dovetail groove wall gradually inclines towards the first window bottom beam connecting end, and a sixth window column dovetail groove wall is arranged on one side, far away from the first window top beam connecting end, fifth window post forked tail cell wall is by supreme slope to first window roof beam link gradually down, sixth window post forked tail cell wall is by supreme slope to second window roof beam link gradually down, fourth window post forked tail 1524 is close to first window sill link one side and is equipped with seventh window post forked tail cell wall and keeps away from first window sill link one side and is equipped with eighth window post forked tail cell wall, seventh window post forked tail cell wall from top to bottom slopes to first window sill link gradually, eighth window post forked tail cell wall from top to bottom slopes to second window sill link gradually. First window column dovetail 1541 has the first window column dovetail binding face with the laminating of first window column dovetail cell wall and with the second dovetail binding face of the laminating of second window column dovetail cell wall, second window column dovetail 1551 has the third window column dovetail binding face with the laminating of third window column dovetail cell wall and with the fourth dovetail binding face of the laminating of fourth window column dovetail cell wall, third window column dovetail 1542 has the fifth window column dovetail binding face with the laminating of fifth window column dovetail cell wall and with the sixth dovetail binding face of the laminating of sixth window column dovetail cell wall, fourth window column dovetail 1552 has the seventh window column dovetail binding face with the laminating of seventh window column dovetail cell wall and with the eighth window column dovetail binding face of the laminating of eighth window column dovetail cell wall. With the above structure, the first window column 154 and the second window column 155 can be prevented from being separated from the window header 151 and the window sill 152, so that the first window column 154 and the second window column 155 are more firmly installed.

Preferably, one side of the first window column 154, which is far away from the second support column 112, is provided with a first window center sill dovetail groove 1543, one side of the second window column 155, which is far away from the fourth support column 122, is provided with a second window center sill dovetail groove 1553, the window center sill 153 has a first window center sill connection end connected with the first window column 154 and a second window center sill connection end connected with the second window column 155, the first window center sill connection end is provided with a first window center sill dovetail 1531 in embedded connection with the first window center sill dovetail groove 1543, and the second window center sill connection end is provided with a second window center sill dovetail 1532 in embedded connection with the second window center sill 153. After adopting above-mentioned structure, the window center sill 153 is connected with first window post 154 and second window post 155 through the tongue-and-groove structure for the dismouting of window center sill 153 is convenient and fast more.

Preferably, the first window center sill dovetail groove 1543 has a first window center sill dovetail groove wall close to one side of the window top beam 151 and a second window center sill dovetail groove wall close to one side of the window bottom beam 152, the first window center sill dovetail groove wall gradually inclines upward from the notch to the groove bottom, the second window center sill dovetail groove wall gradually inclines downward from the notch to the groove bottom, the second window center sill dovetail groove 1553 has a third window center sill dovetail groove wall close to one side of the window top beam 151 and a fourth window center sill dovetail groove wall close to one side of the window bottom beam, the third window center sill dovetail groove wall gradually inclines upward from the notch to the groove bottom, the fourth window center sill dovetail groove wall gradually inclines downward from the notch to the groove bottom, the first window center sill dovetail 1531 has a first window center sill dovetail joint surface to be joined with the first window center sill dovetail groove wall and a second window center sill dovetail joint surface to be joined with the second window center sill dovetail groove wall, the second window center sill dovetail 1532 has a third window center sill dovetail mating face that mates with the third window center sill dovetail slot wall and a fourth window center sill dovetail mating face that mates with the fourth window center sill dovetail slot wall. After adopting above-mentioned structure, can prevent that window center sill 153 from deviating from in first window center sill dovetail 1543 and second window center sill dovetail 1553 for window center sill 153 connects more firmly, strengthens the structural strength of window support frame 15.

Preferably, a fifth window column dovetail 1561 is arranged at the upper end of the third window column 156, a sixth window column dovetail 1562 is arranged at the lower end of the third window column 156, a fifth window column dovetail groove 1533 in fit connection with the fifth window column dovetail 1561 is arranged on the lower surface of the window center sill 153, and a sixth window column dovetail groove 1525 in fit connection with the sixth window column dovetail 1562 is arranged on the upper surface of the window sill 152. By adopting the tongue-and-groove structural connection, the third window column 156 can be more conveniently and quickly disassembled.

Preferably, the fifth window pillar dovetail groove 1533 has a ninth window pillar dovetail groove wall close to the first window center sill connection end side and a tenth window pillar dovetail groove wall close to the second window center sill connection end side, the ninth window pillar dovetail groove wall gradually inclines toward the first window center sill connection end from bottom to top, the tenth window pillar dovetail groove wall gradually inclines toward the second window center sill connection end from bottom to top, the fifth window pillar dovetail 1561 has a ninth window pillar dovetail joint surface joined to the ninth window pillar dovetail groove wall and a tenth window pillar dovetail joint surface joined to the tenth window pillar dovetail groove wall, the sixth window pillar dovetail groove 1525 has an eleventh window pillar dovetail groove wall close to the first window bottom sill connection end side and a twelfth window pillar dovetail groove wall close to the second window bottom sill connection end side, the eleventh window pillar dovetail groove wall gradually inclines toward the first window bottom sill connection end side from top to bottom, the twelfth window column dovetail groove wall is gradually inclined to one side of the second window sill connecting end from top to bottom, and the sixth window column dovetail 1562 is provided with an eleventh window column dovetail joint surface jointed with the eleventh window column dovetail groove wall and a twelfth dovetail joint surface jointed with the twelfth window column dovetail groove wall. With the above structure, the third window pillar 156 can be prevented from coming off, so that the third window pillar 156 is more firmly mounted, thereby enhancing the structural strength of the window support frame 15.

Preferably, the first side support frame 11, the door support frame 14, the second side support frame 12 and the window support frame 15 are made of recombined bamboo materials, so that the shock-absorbing support structure has better toughness and shock resistance, and the pressure resistance of the shock-absorbing support structure is greatly improved.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (29)

1. The utility model provides an interior support body in safety storehouse of moving away to avoid possible earthquakes which characterized in that, including first side support frame, door support frame, second side support frame and the window support frame that connects gradually, first side support frame, door support frame, second side support frame and window support frame are connected with the outer wall body in safety storehouse respectively.

2. The internal support frame body of a seismic safety bin of claim 1, wherein: first side support frame includes the first support column and the second support column of vertical setting, connects in the first back timber of first support column and second support column upper end and connects in the first handle crossbeam between first support column and second support column, first handle crossbeam is parallel in the below of first back timber.

3. The internal support frame body of a seismic safety bin of claim 2, wherein: the upper surface of the first support column is provided with a first top beam mounting groove, one side of the first support column connected with the first handle beam is provided with a first beam connecting groove, the upper surface of the second support column is provided with a second top beam mounting groove, one side of the second support column connected with the first handle beam is provided with a second beam connecting groove, the first top beam is provided with a first top beam connecting end connected with the first support column and a second top beam connecting end connected with the second support column, the first top beam connecting end is provided with a first top beam connecting tenon extending outwards, the second top beam connecting end is provided with a second top beam connecting tenon extending outwards, the first top beam connecting tenon is embedded into the first top beam mounting groove for connection, the second top beam connecting tenon is embedded into the second top beam mounting groove for connection, the first handle beam is provided with a first beam connecting end connected with the first support column and a second beam connecting end connected with the second support column, the first beam connecting end is provided with a first beam connecting tenon, the second beam connecting end is provided with a second beam connecting tenon, the first beam connecting tenon is embedded into the first beam connecting groove for connection, and the second beam connecting tenon is embedded into the second beam connecting groove for connection.

4. The internal support frame body of a seismic safety bin of claim 3, wherein: the first supporting column is provided with a right side surface of the first supporting column which is jointed with the outer wall body, the first top beam mounting groove is arranged at the intersection angle between the right side surface of the first supporting column and the upper surface of the first supporting column, the first top beam mounting groove comprises a first horizontal groove wall extending horizontally and a first vertical groove wall extending vertically, the first vertical groove wall extends from the first supporting column to the second supporting column and gradually inclines towards the right side surface of the first supporting column, the second supporting column is provided with a right side surface of the second supporting column which is jointed with the outer wall body, the second top beam mounting groove is arranged at the intersection angle between the right side surface of the second supporting column and the upper surface of the second supporting column, the second top beam mounting groove comprises a second horizontal groove wall extending horizontally and a second vertical groove wall extending vertically, the second vertical groove wall extends from the second support column towards the first support column and gradually inclines towards the right side face of the second support column.

5. The internal support frame body of a seismic safety bin of claim 4, wherein: the first cross beam connecting groove is provided with a first cross beam connecting groove wall close to one side of the first top beam and a second cross beam connecting groove wall far away from one side of the first top beam, the first cross beam connecting groove wall extends from a position close to the first handle cross beam to a position far away from the first handle cross beam and gradually inclines upwards, the second cross beam connecting groove wall extends from a position close to the first handle cross beam to a position far away from the first handle cross beam and gradually inclines downwards, the second cross beam connecting groove is provided with a third cross beam connecting groove wall close to one side of the first top beam and a fourth cross beam connecting groove wall far away from one side of the first top beam, the third cross beam connecting groove wall extends from a position close to the first handle cross beam to a position far away from the first handle cross beam and gradually inclines upwards, and the fourth cross beam connecting groove wall extends from a position close to the first handle cross beam to a position far away from the first handle cross beam and, the first beam connecting tenon is provided with a first beam connecting tenon inclined plane which is jointed with the first beam connecting groove wall and a second beam connecting tenon inclined plane which is jointed with the second beam connecting groove wall, and the second beam connecting tenon is provided with a third beam connecting tenon inclined plane which is jointed with the third beam connecting groove wall and a fourth beam connecting tenon inclined plane which is jointed with the fourth beam connecting groove wall.

6. The internal support frame body of a seismic safety bin of claim 5, wherein: the first handle cross beam is provided with a plurality of openings, and the openings extend upwards to the upper surface of the first handle cross beam and form openings.

7. The internal support frame body of a seismic safety bin of claim 6, wherein: the second side support frame includes the third support column and the fourth support column of vertical setting, connects in the second back timber of third support column and second support column upper end and connects the second handle crossbeam between third support column and second support column, second handle crossbeam is in the below of second back timber in parallel.

8. The internal support frame body of a seismic safety bin of claim 7, wherein: the upper surface of the third supporting column is provided with a third top beam mounting groove, one side of the third supporting column connected with the second handle beam is provided with a third beam connecting groove, the upper surface of the fourth supporting column is provided with a fourth top beam mounting groove, one side of the fourth supporting column connected with the second handle beam is provided with a fourth beam connecting groove, the second top beam is provided with a third top beam connecting end connected with the third supporting column and a fourth top beam connecting end connected with the third supporting column, the third top beam connecting end is provided with a third top beam connecting tenon extending outwards, the fourth top beam connecting end is provided with a fourth top beam connecting tenon extending outwards, the third top beam connecting tenon is embedded into the third top beam mounting groove to be connected, the second handle beam is provided with a third beam connecting end connected with the third supporting column and a fourth beam connecting end connected with the fourth supporting column, the third crossbeam link is equipped with the third crossbeam tenon, the fourth crossbeam link is equipped with the fourth crossbeam tenon, the third crossbeam tenon embedding third crossbeam spread groove is connected, the fourth crossbeam tenon embedding fourth crossbeam spread groove is connected.

9. The internal support frame body of a seismic safety bin of claim 8, wherein: the third supporting column is provided with a left side surface of the third supporting column which is jointed with the outer wall body, the third top beam mounting groove is arranged at the intersection angle of the left side surface of the third supporting column and the upper surface of the third supporting column, the third top beam mounting groove comprises a third horizontal groove wall extending horizontally and a third vertical groove wall extending vertically, the third vertical groove wall extends from the third supporting column to the fourth supporting column and gradually inclines towards the left side surface of the third supporting column, the fourth supporting column is provided with a left side surface of the fourth supporting column which is jointed with the outer wall body, the fourth top beam mounting groove is arranged at the intersection angle of the right side surface of the fourth supporting column and the upper surface of the fourth supporting column, the fourth top beam mounting groove comprises a fourth horizontal groove wall extending horizontally and a fourth vertical groove wall extending vertically, the fourth vertical groove wall extends from the fourth supporting column towards the third supporting column and gradually inclines towards the right side face of the fourth supporting column.

10. The internal support frame body of a seismic safety bin of claim 9, wherein: the third cross beam connecting groove is provided with a fifth cross beam connecting groove wall close to one side of the second top beam and a sixth cross beam connecting groove wall far away from one side of the second top beam, the fifth cross beam connecting groove wall extends from a position close to the second handle cross beam to a position far away from the second handle cross beam and gradually inclines upwards, the sixth cross beam connecting groove wall extends from a position close to the second handle cross beam to a position far away from the second handle cross beam and gradually inclines downwards, the fourth cross beam connecting groove is provided with a seventh cross beam connecting groove wall close to one side of the second top beam and an eighth cross beam connecting groove wall far away from one side of the second top beam, the seventh cross beam connecting groove wall extends from a position close to the second handle cross beam to a position far away from the second handle cross beam and gradually inclines upwards, and the eighth cross beam connecting groove wall extends from a position close to the second handle cross beam to a position far away from the second handle cross beam and gradually inclines downwards, the third beam connecting tenon is provided with a fifth beam inclined connecting tenon inclined plane which is jointed with the fifth beam connecting groove wall and a sixth beam connecting tenon inclined plane which is jointed with the sixth beam connecting groove wall, and the fourth beam connecting tenon is provided with a seventh beam connecting tenon inclined plane which is jointed with the seventh beam connecting groove wall and an eighth beam connecting tenon inclined plane which is jointed with the eighth beam connecting groove wall.

11. The internal support frame body of a seismic safety bin of claim 10, wherein: and a plurality of through holes are formed in the second handle cross beam corresponding to the opening holes.

12. The internal support frame body of a seismic safety bin of claim 11, wherein: interior support body still includes the excellent fastener of handle of a plurality of handle stick and fixed handle stick, the one end of handle stick is inserted in the perforation and other end card goes into in the opening, the cooperation of the excellent fastener embedding opening of handle and the lower extreme of the excellent fastener of handle and handle stick support the top.

13. The internal support frame of a seismic safety bin of claim 12, wherein: the door support frame includes the gatepost, door back timber and door floorbar, the one end and the first support column upper end of door back timber are connected, and the other end and the third support column upper end of door back timber are connected, the one end and the first support column lower extreme of door floorbar are connected, and the other end and the third support column lower extreme of door floorbar are connected, the upper end and the gatepost of gatepost are connected and the lower extreme and the gatepost are connected, the gatepost is parallel with the third support column and establish the side at the third support column.

14. The internal support frame body of a seismic safety bin of claim 13, wherein: the door back timber has the first door back timber link of being connected with first support column and the second door back timber link of being connected with the third support column, first door back timber link is equipped with first door back timber dovetail, the second door back timber link is equipped with the second door back timber dovetail, first support column is equipped with the first door back timber dovetail with first door back timber dovetail gomphosis, the third support column is equipped with the second door back timber dovetail with second door back timber dovetail gomphosis, the door floorbar has the first door floorbar link of being connected with first support column and the second door floorbar link of being connected with the third support column, first door floorbar link is equipped with first door floorbar dovetail, second door floorbar link is equipped with the second door floorbar dovetail, first support column is equipped with the first door floorbar dovetail of being connected with first door floorbar dovetail gomphosis, and the third support column is provided with a second door sill dovetail groove which is embedded with the second door sill dovetail tenon.

15. The internal support frame of a seismic safety bin of claim 14, wherein: the upper surface of first door back timber dovetail is by second door back timber link to first door back timber link direction tilt up gradually, the lower surface of first door back timber dovetail is by second door back timber link to first door back timber link direction downward sloping gradually, the upper surface of second door back timber dovetail is by first door back timber link to second door back timber link direction tilt up gradually, the lower surface of the half dovetail of second door back timber is by first door sill link to second door sill link direction downward sloping gradually.

16. The internal support frame body of a seismic safety bin of claim 15, wherein: the upper surface of first door floorbar dovetail is by second floorbar link to first floorbar link direction tilt up gradually, the lower surface of first doorbar dovetail is by second floorbar link to first floorbar link direction downward sloping gradually, the upper surface of second doorbar dovetail is by first floorbar link to second doorbar link direction tilt up gradually, the lower surface of second doorbar dovetail is by first floorbar link to second doorbar link direction downward sloping gradually.

17. The internal support frame of a seismic safety bin of claim 16, wherein: the door back timber is equipped with first gatepost dovetail in the one side that is close to second gatepost back timber link, the door floorbar is equipped with the second gatepost dovetail in the one side that is close to second gatepost back timber link, the lower extreme that the upper end of gatepost was equipped with first gatepost dovetail and gatepost is equipped with the second gatepost dovetail, first gatepost dovetail embedding first gatepost dovetail internal connection, second gatepost dovetail embedding second gatepost dovetail internal connection.

18. The internal support frame body of a seismic safety bin of claim 17, wherein: the first gate post dovetail groove is provided with a first gate post dovetail groove wall close to one side of the first gate top beam connecting end and a second gate post dovetail groove wall close to one side of the second gate top beam connecting end, the first gate post dovetail groove wall gradually inclines to the first gate top beam connecting end from bottom to top, the second gate post dovetail groove wall gradually inclines to the second gate top beam connecting end from bottom to top, the second gate post dovetail groove is provided with a third gate post dovetail groove wall close to one side of the first gate bottom beam connecting end and a fourth gate post dovetail groove wall close to one side of the second gate bottom beam connecting end, the third gate post dovetail groove wall gradually inclines to the first gate bottom beam connecting end from top to bottom, the fourth gate post dovetail groove wall gradually inclines to the second gate bottom beam connecting end from top to bottom, and the first gate post dovetail is provided with a first gate post dovetail joint surface jointed with the first gate post dovetail groove wall, and a second gate post dovetail joint surface jointed with the second gate post dovetail groove wall, wherein the second gate post dovetail is provided with a third gate post dovetail joint surface jointed with the third gate post dovetail groove wall and a fourth gate post dovetail joint surface jointed with the fourth gate post dovetail groove wall.

19. The internal support frame of a seismic safety bin of claim 18, wherein: the window supporting frame comprises a window top beam, a window bottom beam, a window middle beam, a first window column, a second window column and a third window column, one end of the window top beam is connected with the upper end of the second supporting column, the other end of the window top beam is connected with the upper end of the fourth supporting column, one end of the window bottom beam is connected with the lower end of the second supporting column, the other end of the window bottom beam is connected with the lower end of the fourth supporting column, the first window column and the second window column are arranged in parallel, the first window column is arranged at one side close to the second supporting column, the upper end of the first window column is connected with the window top beam, the lower end of the first window column is connected with the window bottom beam, the second window column is arranged at one side close to the fourth supporting column, the upper end of the second window column is connected with the window top beam, the lower end of the second window column is connected with the window bottom beam, one end of the window middle beam is connected with the middle part of the first window column, and the other end, the upper end of the third window column is connected with the window middle beam, and the lower end of the third window column is connected with the window bottom beam.

20. The internal support frame of a seismic safety bin of claim 19, wherein: the window back timber has the first window back timber link of being connected with the second support column and the second window back timber link of being connected with the fourth support column, first window back timber link is equipped with the half dovetail of first window back timber of outside extension, second window back timber link is equipped with the half dovetail of second window back timber of outside extension, the second support column is equipped with the half dovetail of first window back timber with the half dovetail gomphosis of first window back timber, the fourth support column is equipped with the half dovetail of second window back timber with the half dovetail gomphosis of second window back timber.

21. The internal support frame of a seismic safety bin of claim 20, wherein: the lower surface of the first window top beam half dovetail is extended to the first window top beam connecting end direction by the second window top beam connecting end and inclines downwards gradually, the lower surface of the second window top beam half dovetail is extended to the second window top beam connecting end direction by the first window top beam connecting end and inclines downwards gradually, the lower cell wall of the first window top beam half dovetail with the lower surface laminating of the first window top beam half dovetail, the lower cell wall of the second window top beam half dovetail with the lower surface laminating of the second window top beam half dovetail.

22. The internal support frame body of a seismic safety bin of claim 21, wherein: the window sill has a first window sill connecting end connected with the second supporting column and a second window sill connecting end connected with the fourth supporting column, the first window sill connecting end is provided with a first window sill dovetail joint extending outwards, the second window sill connecting end is provided with a second window sill dovetail joint extending outwards, the second supporting column is provided with a first window sill dovetail groove embedded with the first window sill and the second window sill, and the fourth supporting column is provided with a second window sill dovetail groove embedded with the second window sill and the second dovetail joint.

23. The internal support frame of a seismic safety bin of claim 22, wherein: the lower surface of the first window top beam connecting end is provided with a first window column dovetail groove, the lower surface of the second top beam connecting end is provided with a second window column dovetail groove, the upper surface of the connecting end of the first window bottom beam is provided with a third window column dovetail groove, the upper surface of the connecting end of the second window bottom beam is provided with a fourth window column dovetail groove, the upper end of the first window column is provided with a first window column dovetail tenon which protrudes upwards, and the lower end of the first window column is provided with a third window column dovetail tenon which protrudes downwards, the first window column dovetail joint is in fit connection with the first window column dovetail groove, the third window column dovetail joint is in fit connection with the third window column dovetail groove, the upper end of the second window column is provided with a second window column dovetail joint which protrudes upwards, the lower end of the second window column is provided with a fourth window column dovetail joint which protrudes downwards, the second window column dovetail joint is in fit connection with the second window column dovetail groove, and the fourth window column dovetail joint is in fit connection with the fourth window column dovetail groove.

24. The internal support frame body of a seismic safety bin of claim 23, wherein: the first window column dovetail groove is provided with a first window column dovetail groove wall at one side close to the first window top beam connecting end and a second window column dovetail groove wall at one side far away from the first window top beam connecting end, the first window column dovetail groove wall gradually inclines towards the first window top beam connecting end from bottom to top, the second window column dovetail groove wall gradually inclines towards the second window top beam connecting end from bottom to top, the second window column dovetail groove is provided with a third window column dovetail groove wall at one side close to the first window bottom beam connecting end and a fourth window column dovetail groove wall at one side far away from the first window bottom beam connecting end, the third window column dovetail groove wall gradually inclines towards the first window bottom beam connecting end from top to bottom, the fourth window column dovetail groove wall gradually inclines towards the second window bottom beam connecting end from top to bottom, one side of the third window column dovetail groove close to the first window top beam connecting end is provided with a fifth window column dovetail groove wall and one side far away from the first window top beam connecting end is provided with a sixth window column dovetail groove wall, the fifth window column dovetail groove wall gradually inclines towards the first window top beam connecting end from bottom to top, the sixth window column dovetail groove wall gradually inclines towards the second window top beam connecting end from bottom to top, a seventh window column dovetail groove wall is arranged on one side, close to the first window bottom beam connecting end, of the fourth window column dovetail groove, an eighth window column dovetail groove wall is arranged on one side, away from the first window bottom beam connecting end, of the fourth window column dovetail groove, the seventh window column dovetail groove wall gradually inclines towards the first window bottom beam connecting end from top to bottom, the eighth window column dovetail groove wall gradually inclines towards the second window bottom beam connecting end from top to bottom, the first window column dovetail is provided with a first window column dovetail joint surface attached to the first window column dovetail groove wall and a second dovetail joint surface attached to the second window column dovetail groove wall, the second window column dovetail joint surface is provided with a third window column dovetail joint surface attached to the third window column dovetail groove wall and a fourth dovetail joint surface attached to the fourth window column dovetail groove wall, the third window column dovetail joint has a fifth window column dovetail joint surface jointed with the fifth window column dovetail groove wall and a sixth dovetail joint surface jointed with the sixth window column dovetail groove wall, and the fourth window column dovetail joint has a seventh window column dovetail joint surface jointed with the seventh window column dovetail groove wall and an eighth window column dovetail joint surface jointed with the eighth window column dovetail groove wall.

25. The internal support frame of a seismic safety bin of claim 24, wherein: one side that the second support column was kept away from to first window post is equipped with first window centre sill dovetail, one side that the fourth support column was kept away from to second window post is equipped with second window centre sill dovetail, the second window centre sill has the first window centre sill link of being connected with first window post and the second window centre sill link of being connected with second window post, first window centre sill link is equipped with the first window centre sill dovetail of being connected with first window centre sill dovetail gomphosis, second window centre sill link is equipped with the second window centre sill dovetail of being connected with second window centre sill spread groove gomphosis.

26. The internal support frame of a seismic safety bin of claim 25, wherein: the first window center sill dovetail groove has a first window center sill dovetail groove wall close to one side of the window top beam and a second window center sill dovetail groove wall close to one side of the window bottom beam, the first window center sill dovetail groove wall is gradually inclined upwards from the notch to the groove bottom, the second window center sill dovetail groove wall is gradually inclined downwards from the notch to the groove bottom, the second window center sill dovetail groove has a third window center sill dovetail groove wall close to one side of the window top beam and a fourth window center sill dovetail groove wall close to one side of the window bottom beam, the third window center sill dovetail groove wall is gradually inclined upwards from the notch to the groove bottom, the fourth window center sill dovetail groove wall is gradually inclined downwards from the notch to the groove bottom, the first window center sill dovetail has a first window center sill dovetail surface attached to the first window center sill dovetail groove wall and a second window center sill dovetail attachment surface attached to the groove wall in the second window, the second window center sill dovetail has a third window center sill dovetail attached to the third window center sill dovetail groove wall The binding surface and with the fourth window middle beam dovetail binding surface of the dovetail cell wall laminating in the fourth window.

27. The internal support frame of a seismic safety bin of claim 26, wherein: the upper end of third window post is equipped with fifth window post dovetail and the lower extreme of third window post is equipped with sixth window post dovetail, the lower surface of roof beam is equipped with the fifth window post dovetail of being connected with fifth window post dovetail cooperation in the window, the upper surface of window floorbar is equipped with the sixth window post dovetail of being connected with sixth window post dovetail cooperation.

28. The internal support frame of a seismic safety bin of claim 27, wherein: the fifth window column dovetail groove is provided with a ninth window column dovetail groove wall close to one side of the first window middle beam connecting end and a tenth window column dovetail groove wall close to one side of the second window middle beam connecting end, the ninth window column dovetail groove wall gradually inclines towards the first window middle beam connecting end from bottom to top, the tenth window column dovetail groove wall gradually inclines towards the second window middle beam connecting end from bottom to top, the fifth window column dovetail groove is provided with a ninth window column dovetail joint surface jointed with the ninth window column dovetail groove wall and a tenth window column dovetail joint surface jointed with the tenth window column dovetail groove wall, the sixth window column dovetail groove is provided with an eleventh window column dovetail groove wall close to one side of the first window bottom beam connecting end and a twelfth window column dovetail groove wall close to one side of the second window bottom beam connecting end, and the eleventh window column dovetail groove wall gradually inclines towards one side of the first window bottom beam connecting end from top to bottom, the twelfth window column dovetail groove wall gradually inclines to one side of the second window sill connecting end from top to bottom, and the sixth dovetail is provided with an eleventh window column dovetail joint surface attached to the eleventh window column dovetail groove wall and a twelfth dovetail joint surface attached to the twelfth window column dovetail groove wall.

29. The internal support frame of a seismic safety bin according to any one of claims 1-28, wherein: the first side edge support frame, the door support frame, the second side edge support frame and the window support frame are made of recombined bamboo materials.

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