Disclosure of Invention
The invention provides an assembled sample house for outdoor scientific research, and aims to provide an active structure and solve the problem that the house is easy to damage in a strong wind environment.
In order to solve the technical problems, the technical scheme adopted by the invention is as follows:
the utility model provides an assembled sample room for outdoor scientific research, includes the door body, all connect limit fixedly connected with wallboard through the turning on the relative both sides of the door body, the wallboard has a plurality ofly, and adjacent two connect through the connector between the wallboard, the connector includes aluminum alloy shell, department is fixed with the mount in the middle of aluminum alloy shell's the inside, be equipped with two on the mount and support the piece, fixed mounting has the responder on the mount between supporting the piece, all be connected with on the both ends of responder and play the claw, the one end of bullet claw articulates on manual capstan winch through the couple, manual capstan winch is fixed on the lateral surface of wallboard.
The technical scheme of the invention is further improved as follows: the responder includes the casing, fixed welding between the middle department of casing and the mount, the equal piston connection in both ends department of casing has the connecting rod, the connecting rod is served and all is equipped with interior pole, two in the inside one of casing all be equipped with a plurality of bumps, two on the side that interior pole is close to each other all be equipped with a plurality of bumps, two sets of the bump sets up crisscross each other, the side that the bump was kept away from to interior pole is served and is equipped with the sound piece.
The technical scheme of the invention is further improved as follows: the elastic claw comprises a steel sheet, the middle of the steel sheet is fixedly connected with the welding block, connecting rods are arranged at two ends of the steel sheet, a hook edge is arranged at one end of the steel sheet, and a buckle edge is arranged at the other end of the steel sheet.
The technical scheme of the invention is further improved as follows: the sound piece is arc elastic sheet, and the thickness of its stiff end is the twice of tail end thickness.
The technical scheme of the invention is further improved as follows: the cross section of the hook edge is C-shaped, the curved edge of the hook edge extends towards the bending section, and the outer side face of the hook edge is provided with inverted teeth opposite to the direction of the curved edge.
The technical scheme of the invention is further improved as follows: the buckling edge is arranged inside the steel sheet, the buckling edge and the hook are buckled, the thickness of the buckling edge is three quarters of that of the steel sheet, and the rigidity of the buckling edge is larger than that of the steel sheet.
Due to the adoption of the technical scheme, compared with the prior art, the invention has the technical progress that:
1. the invention provides an assembled sample house for outdoor scientific research, which is characterized in that a wallboard is connected and fixed through a designed connector, the wallboard is inserted into an aluminum alloy shell and acts on a spring claw in the fixing process, so that the wallboard is deformed, two ends of the wallboard extend out and are pressed on two sides of the wallboard to form a grabbing effect, the design strengthens the connection strength between the wallboard and the wallboard without using sealing and extra parts, the assembled sample house is convenient to install, and can reserve a force for resisting the internal and external pressure difference in a strong wind environment when being matched with a manual winch for use, so that the probability of disintegration in the strong wind environment is reduced.
2. The invention provides an assembled sample house for outdoor scientific research, which is characterized in that a designed responder is used for reminding a user of installation, staggered inner rods are pushed by convex points to generate relative displacement when the assembled sample house is used, the inner rods automatically reset under the action of self elasticity after the convex points are staggered, the convex points mutually collide to generate sound, and the convex points with different staggered numbers ensure that the sound of the collision generated when the inner rods rebound is different.
Detailed Description
The present invention will be described in further detail with reference to the following examples:
example 1
As shown in fig. 1-2, the invention provides an assembled sample room for outdoor scientific research, which comprises adoor body 1, wherein two opposite side edges of thedoor body 1 are fixedly connected withwall plates 3 throughcorner connecting edges 2, thewall plates 3 are provided with a plurality of wall plates, twoadjacent wall plates 3 are connected through connectors 4, each connector 4 comprises analuminum alloy shell 41, afixing frame 42 is fixed in the middle of the inside of eachaluminum alloy shell 41, twoabutting blocks 43 are arranged on thefixing frame 42, aresponder 44 is fixedly arranged on thefixing frame 42 between theabutting blocks 43, two ends of theresponder 44 are connected withelastic claws 45, one end of eachelastic claw 45 is hung on amanual winch 6 through ahook 5, and themanual winch 6 is fixed on the outer side surface of thewall plate 3.
In the embodiment, the whole shape of the invention can be freely adjusted by designing a plurality ofwall boards 3, and the installation can be completed only by using the connector 4, thehook 5 and themanual winch 6, so that not only can the relative occupied space of the invention during transportation be adjusted, and the transportation is more convenient, but also the tensioning operation of the adjacent connector 4 can be completed only by using themanual winch 6 to pull theelastic claw 45 through thehook 5 during use, so that the connection between thewall boards 3 and the connector 4 is more stable, the connection strength is increased, and after thewall boards 3 are inserted into thealuminum alloy shell 41, the deformation of theelastic claw 45 can grab thewall boards 3, and the connection between the connector 4 and thewall boards 3 is more stable.
Example 2
As shown in fig. 1 to 4, on the basis ofembodiment 1, the present invention provides a technical solution: theresponder 44 comprises a shell a1, the middle of the shell a1 and afixed frame 42 are fixedly welded, connecting rods a2 are connected to two ports of the shell a1 in a piston mode, inner rods a4 are arranged at one ends, located inside the shell a1, of the connecting rods a2, a plurality of salient points a5 are arranged on one side faces, close to each other, of the two inner rods a4, two groups of the salient points a5 are arranged in a staggered mode, a castellation a6 is arranged at one end, far away from the salient points a5, of the inner rod a4, the castration a6 is an arc-shaped elastic sheet, the thickness of the fixed end of the castration a is twice of the thickness of the tail end, theelastic claw 45 comprises a steel sheet b1, the middle of the steel sheet b1 and the welded block a3 are fixedly connected, connecting rods a2 are arranged at two ends of the steel sheet b1, a hooked edge b3 is.
In the embodiment, through the designed fixed connection between the welding block a3 and the steel sheet b1, when the middle of the steel sheet b1 is pressed by thewallboard 3, the steel sheet b can contract, and the bending section b2 is matched, so that the two ends of the steel sheet b1 can be ejected out of thealuminum alloy shell 41 under the action of the lever principle and pressed on the side edge of thewallboard 3 to complete grabbing, meanwhile, the protruding points a5 staggered on the two inner rods a4 can also apply pulling force to the steel sheet b1, so that the rebounding force applied to thewallboard 3 by the steel sheet b1 is reduced, and the sound-producing piece a6 is designed to produce sound under the action of vibration generated when the protruding points a5 travel in a staggered manner, so that a user knows the installation strength in time, and the probability of being installed in place is reduced.
Example 3
As shown in fig. 2-3, on the basis ofembodiments 1 and 2, the present invention provides a technical solution: the cross section of the hook edge b3 is C-shaped, the curved edge of the hook edge b3 extends towards the bending section b2, and the outer side face of the hook edge b3 is provided with inverted teeth opposite to the direction of the curved edge.
In this embodiment, when the steel sheet b1 is squeezed and the hooked edge b3 is protruded and pressed on the side edge of thewall panel 3 by the lever principle, the contact surface between the C-shaped hooked edge b3 and thewall panel 3 is larger and moves more toward the edge of thewall panel 3 under the pushing force of the steel sheet b1, and the inverted teeth on the outer side surface of the C-shaped hooked edge b3 are used to increase the friction strength between the two, so that the hooked edge b3 can drive thewall panel 3 to move, thereby increasing the connection strength between the whole connector 4 and thewall panel 3.
Example 4
As shown in fig. 2 and 4, on the basis ofembodiments 1 and 2, the present invention provides a technical solution: the buckling edge b4 is arranged inside the steel sheet b1, the buckling edge b4 is buckled with thehook 5, the thickness of the buckling edge b4 is three quarters of the thickness of the steel sheet b1, and the rigidity of the buckling edge b4 is larger than that of thesteel sheet b 1.
In this embodiment, the connector 4 is integrally connected with thehook 5 through the designed buckling edge b4, the buckling edge b4 is designed to be rigid so that thehook 5 can be hooked with thehook 5, thehook 5 is not easily deformed when pulled by themanual winch 6, the thickness of the hook is smaller than that of the steel sheet b1, the hook is easily distinguished from the steel sheet b1 body when being installed, thehook 5 is conveniently buckled on the buckling edge b4 through thealuminum alloy shell 41, and the installation difficulty is reduced.
The working principle of the assembled sample house for outdoor scientific research is described in detail below.
As shown in fig. 1-4, when the invention is used, firstly, the installation shape is determined, then thewall plate 3 and the connector 4 are assembled, the bending part is installed and fixed through thecorner connecting edge 2, in the installation process, when thewall plate 3 is inserted into the connector 4, the side edge of thewall plate 3 presses the middle part of theelastic claw 45, the bending section b2 in theelastic claw 45 pushes the middle section of the steel sheet b1 and generates adaptive rotary displacement under the limitation of theabutting block 43, so that the two ends of the steel sheet b1 are also pushed by the bending section b2, the hook edge b3 and the buckle edge b4 generate displacement, so as to extend out thealuminum alloy shell 41 to be pressed on the edge of thewall plate 3, then themanual capstan 6 is rotated to enable thehook 5 connected with the wall plate to approach each other, at the moment, thehook 5 pulls the buckle edge b4 to generate displacement, at the moment, the pulling force applied to the buckle edge b4 is directly transmitted to the steel sheet b1, at the moment, the joint of the steel sheet b1 and the welding block a3 limits the middle section of the steel sheet b1, and plays a role of a fulcrum, so that the steel sheets b1 on two sides of the welding block a3 form reverse motion, namely, the bending section b2 where the hooked edge b3 is located is closer to theabutting block 43, the bent section b2 where the hooked edge b3 is located further rotates due to interaction of the two, so that the hooked edge b3 further extends out, because the cross section of the hooked edge b3 is in a C shape, and inverted teeth are arranged on the outer side of the hooked edge b3, the contact surface between the hooked edge b3 and thewallboard 3 is increased, meanwhile, the hooked edge b3 tends to move towards the edge of thewallboard 3, because of the inverted teeth, thewallboard 3 also tends to move along with the hooked edge b3, and further stands upright in thealuminum alloy shell 41, and the effect of increasing the connecting force between the;
when the steel sheet b1 receives the pushing force from thewallboard 3, the steel sheet b is transmitted to the connecting rod a2 through the welding block a3, so that the connecting rod a2 retracts into the shell a1, at this time, the connecting rod a2 drives the inner rod a4 to move, the two inner rods a4 move in a staggered mode, the convex points a5 arranged on the inner rods a move repeatedly in a squeezing, displacing and disengaging mode until the inner rod a4 stops, when the convex points a5 disengage, the inner rod a4 deformed in a pressing mode vibrates in a resetting mode and is transmitted to the soundchip a6, when the vibration is transmitted to the tail end of the soundchip a6, the vibration amplitude is increased, a whistle is generated, when the convex points a5 reset, impact sounds are generated on the inner rod a4, impact sounds generated by the convex points a5 with different staggered numbers are different, so that a user can clearly distinguish the degree of inserting thewallboard 3 into thealuminum alloy shell 41 and confirm the connection strength, and in addition, in the situation that the convex points a5, under the influence of the elastic force of the inner rod a4, the staggered salient points a5 are not easy to separate, so that the inner rod a4 drives the connecting rod a2 to be in a relatively stable state, the resilience of the steel sheet b1 is increased, the thrust of the steel sheet b1 to thewallboard 3 is reduced, and the connection strength between the connector 4 and thewallboard 3 is further enhanced;
after the wall is installed, the pulling rope of themanual winch 6 applies a pulling force tending to the outer side of the wall to the connector 4 because themanual winch 6 is positioned on the outer side of the wall, and the stronger the pulling force is due to the design of theelastic claw 45, the higher the connection strength between the connector 4 and thewall plate 3 is, so that the connection structure between thewall plate 3 and the connector 4 is not collapsed, so that the whole installedwall plate 3 approaches to an inward convex state under the action of themanual winch 6 and the connector 4, when strong wind blows on the wall, the air in the wall is directly pressed on the surface of the wall and faces to the outside of the wall, the tending force can play a role in resisting the positive air pressure, and the larger the difference between the internal pressure and the external pressure is, the larger the counterforce the tending force can provide is, the design is used for providing a buffer space for the air in the wall to expand, the probability of disintegration due to pressure difference is reduced.
The present invention has been described in general terms in the foregoing, but it will be apparent to those skilled in the art that modifications and improvements can be made thereto based on the present invention. Therefore, modifications or improvements are within the scope of the invention without departing from the spirit of the inventive concept.