CN214884814U - Energy-saving panel subassembly for building with buffer structure - Google Patents

Abstract

The utility model provides an energy-conserving panel subassembly for building with buffer structure, its characterized in that includes panel B, panel A, right filler, left filler, buffer gear, right side filler is installed to panel B's left side wall, buffer gear is installed to the left side wall of right side filler, left filler is installed in buffer gear's left side, left side filler is installed at panel A's right side wall, the utility model discloses increase buffer gear, realized that buffer gear carries out the in-process that cushions panel B and panel A, the at utmost has reduced buffer gear and has damaged, has improved buffer gear buffering efficiency's effect, prolongs buffer gear's life, has guaranteed the stability in the panel subassembly use.

Description

Energy-saving panel subassembly for building with buffer structure

Technical Field

The utility model relates to an energy-conserving panel technical field for the building especially relates to an energy-conserving panel subassembly for building with buffer structure.

Background

The plate component is applied to the fields of building industry, transportation industry, industrial application and the like, and is used as a component of a wall, a box core layer or an environment-friendly plate, the energy-saving plate component is characterized in that a filler with small heat conductivity coefficient and good heat insulation performance is filled in a common plate component to form an integrated structure, and the integrated structure integrates the functions of bearing, heat preservation, fire prevention and water prevention, and in the long-time use process of the energy-saving plate component, external factors can collide the energy-saving plate component, so that the plate surface of the energy-saving plate component is sunken and damaged, external air and water vapor can enter the energy-saving plate component from the damaged plate surface, and the filler in the energy-saving plate component can not be used due to damp and oxidation, the overall performance of the energy-saving plate component is reduced, and the prior art provides the energy-saving plate component with a buffer structure for buildings, the buffering performance of the energy-saving plate component is improved;

the buffer structure of energy-conserving panel subassembly installs link mechanism about between two panels, be provided with the connecting rod of connecting through the pivot on link mechanism, when panel received external force when controlling, two panel extrusion each other make the connecting rod on the link mechanism contact each other, the produced extrusion force of two connecting rods of mutual contact is rotated the connecting rod through the pivot and is cushioned, thereby realize the cushioning effect of energy-conserving panel subassembly, in link mechanism buffering process, can cause the connecting rod frequent emergence collision among two link mechanism, and then cause the connecting rod among the link mechanism to damage because of the collision takes place, the efficiency of buffering has been reduced.

Disclosure of Invention

According to the technical problem, the utility model provides an energy-conserving panel subassembly for building with buffer structure, its characterized in that includes panel B, panel A, right filler, left filler, buffer gear, the left side wall of panel B installs right filler, the left side wall of right filler installs buffer gear, the left side of buffer gear installs left filler, the left filler installs the right side wall of panel A;

the buffer mechanism comprises a mounting plate, a fixed column, a lower sliding block, an upper mounting block, a lower mounting block, a sliding rod, an upper sliding block, a spring, a connecting block, an upper connecting rod, a lower connecting rod, a fixed block, a rotating shaft and a spring rod, wherein the mounting plate is mounted on the side wall of the left filler through a bolt, the upper mounting block is welded at the upper end of the mounting plate, the left end of the upper mounting block is mounted on the side wall of the left filler through a bolt, the lower mounting block is welded at the lower end of the mounting plate, the left end of the lower mounting block is mounted on the side wall of the left filler through a bolt, spring grooves are respectively formed in the side walls of the upper mounting block and the lower mounting block, one ends of the springs are welded in the two spring grooves, the fixed column is welded on the right side wall of the mounting plate, a through hole is formed in the fixed column, the sliding rod is welded in the through hole, and the upper sliding block and the lower sliding block are respectively arranged on the right side wall of the mounting plate, the lower sliding block is arranged at the lower side of the fixed column, the upper sliding block is arranged at the upper side of the fixed column, the upper end of the sliding rod penetrates through the upper sliding block and is welded with the other end of the spring, the lower end of the sliding rod penetrates through the lower sliding block and is welded with the other end of the spring, the upper sliding block and the lower sliding block are connected in a sliding manner through the sliding rod, connecting blocks are respectively welded at the tops of the upper sliding block and the lower sliding block, the connecting block at the top of the upper sliding block is connected with one end of an upper connecting rod through a rotating shaft, the connecting block at the top of the lower sliding block is connected with one end of a lower connecting rod through a rotating shaft, a fixed block is arranged on the side wall of the right filler through a bolt, a rotating shaft hole is formed in the fixed block, a rotating shaft is arranged in the rotating shaft hole, the other end of the upper connecting rod is arranged at the rear end of the rotating shaft, the other end of the lower rotating shaft is arranged at the front end of the rotating shaft, and a movable groove is formed in the right side wall of the fixed column, the movable groove is characterized in that the left end of the spring rod is arranged inside the movable groove, the right end of the spring rod is welded on the left side wall of the fixed block, the outer side wall of the spring rod is sleeved with the spring, one end of the spring is welded on the left side wall of the fixed block, and the other end of the spring is welded on the right side wall of the fixed column.

The utility model has the advantages that: the utility model discloses increase buffer gear, replace the current mode that realizes the buffering through two link mechanism, the in-process that buffer gear cushioned panel B and panel A has been realized, the at utmost has reduced buffer gear and has damaged, buffer gear buffering efficiency's effect has been improved, panel B and panel A receive the factor of external force to the direction removal that is close to each other, the left end of going up connecting rod and lower connecting rod can remove to opposite direction respectively, it slides to opposite direction respectively at the sliding shaft with lower slider to drive the top shoe, at this moment at the top shoe, the bottom shoe, the phenomenon that the fixed block can not bump under the effect of spring self elasticity that the fixed block is connected respectively, consequently, buffer gear is at the buffering in-process, the phenomenon of collision damage can not appear, prolong buffer gear's life, the stability in the panel subassembly use has been guaranteed.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the position A of the present invention;

FIG. 3 is an enlarged view of the position B of the present invention;

fig. 4 is a schematic view of the fixing column and the sliding rod of the present invention.

As shown in the figure: 1-plate B, 11-plate A, 2-mounting plate, 21-fixing column, 22-lower sliding block, 23-upper mounting block, 24-lower mounting block, 25-sliding rod, 26-upper sliding block, 27-spring, 28-connecting block, 29-upper connecting rod, 210-lower connecting rod, 211-fixing block, 212-rotating shaft, 213-spring rod, 214-movable groove, 3-right filler and 31-left filler.

Detailed Description

Example 1

The utility model provides an energy-conserving panel subassembly for building with buffer structure, its characterized in that includes panel B1, panel A11, right filler 3, left filler 31, buffer gear, and right filler 3 is installed to the left side wall of panel B1, and buffer gear is installed to the left side wall of right filler 3, and left filler 31 is installed in buffer gear's left side, and left filler is installed at the right side wall of panel A11;

the buffer mechanism comprises a mounting plate 2, fixing columns 21, a lower sliding block 22, an upper mounting block 23, a lower mounting block 24, a sliding rod 25, an upper sliding block 26, springs 27, a connecting block 28, an upper connecting rod 29, a lower connecting rod 210, a fixing block 211, a rotating shaft 212 and a spring rod 213, wherein the mounting plate 2 is mounted on the side wall of a left filler 31 through bolts, the upper mounting block 23 is welded at the upper end of the mounting plate 2, the left end of the upper mounting block 23 is mounted on the side wall of the left filler 31 through bolts, the lower mounting block 24 is welded at the lower end of the mounting plate 2, the left end of the lower mounting block 24 is mounted on the side wall of the left filler 31 through bolts, spring 27 grooves are respectively formed in the side walls of the upper mounting block 23 and the lower mounting block 24, one ends of the springs 27 are welded in the two spring 27 grooves, the fixing columns 21 are welded on the right side wall of the mounting plate 2, through holes are formed in the fixing columns 21, and the sliding rod 25 is welded in the through holes, the right side wall of the mounting plate 2 is respectively provided with an upper slider 26 and a lower slider 22, the lower slider 22 is arranged at the lower side of the fixed column 21, the upper slider 26 is arranged at the upper side of the fixed column 21, the upper end of a sliding rod 25 penetrates through the upper slider 26 and is welded with the other end of a spring 27, the lower end of the sliding rod 25 penetrates through the lower slider 22 and is welded with the other end of the spring 27, the upper slider 26 and the lower slider 22 are connected in a sliding manner through the sliding rod 25, connecting blocks 28 are respectively welded at the tops of the upper slider 26 and the lower slider 22, the connecting block 28 at the top of the upper slider 26 is connected with one end of an upper connecting rod 29 through a rotating shaft, the connecting block 28 at the top of the lower slider 22 is connected with one end of a lower connecting rod 210 through a rotating shaft, the side wall of the right filler 3 is provided with a fixed block 211 through a bolt, a rotating shaft 212 hole is formed in the fixed block 211, a rotating shaft 212 is arranged in the hole, and the other end of the upper connecting rod 29 is arranged at the rear end of the rotating shaft 212, the other end of lower pivot 212 is installed to the front end of pivot 212, and movable groove 214 has been seted up to the right side wall of fixed column 21, and the inside of movable groove 214 is provided with the left end of spring lever 213, and the right-hand member welding of spring lever 213 is on the left side wall of fixed block 211, and spring 27 has been cup jointed to the lateral wall of spring lever 213, and the one end welding of spring 27 is on the left side wall of fixed block 211, and the other end welding of spring 27 is on the right side wall of fixed column 21.

Example 2

The utility model discloses when using, at first settle the panel subassembly by the manual work in the position of treating the installation, receive external collision when panel B1 and panel A11, when colliding with, panel B1 and panel A11 extrude to the direction that is close to each other under the effect of external force, panel B1 and panel A11's lateral wall can extrude fixed block 211 this moment, fixed block 211 drives respectively to the opposite direction removal of connecting rod 29 and lower connecting rod 210 through pivot 212, through the effect of upper connecting rod 29 and lower connecting rod 210 this moment, can drive upper sliding block 26 and lower sliding block 22 and slide to opposite position respectively on the slide shaft, make the phenomenon that upper sliding block 26 and lower sliding block 22 can not take place the contact, through upper sliding block 26, lower sliding block 22, the spring 27 that fixed block 211 connects respectively, can be with the buffering that produces between panel B1 and panel A11, simultaneously at the upper sliding block 26 that has cushioned through spring 27, The lower sliding block 22 and the fixed block 211 cannot collide, the buffering process of the application is completed at the moment, and the self characteristics of the left filler 31 and the right filler 3 of the rigid polyurethane foam improve the heat preservation and fireproof performance of the plate assembly.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. The utility model discloses each part that mentions is the common technique in prior art, and the technical personnel of this trade should understand, the utility model discloses do not receive the restriction of above-mentioned embodiment, the description only is the explanation in above-mentioned embodiment and the description the principle of the utility model, under the prerequisite that does not deviate from the spirit and the scope of the utility model, the utility model discloses still can have various changes and improvement, these changes and improvement all fall into the protection of claim the utility model is within the scope. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (2)

1. The energy-saving building board assembly with the buffer structure is characterized by comprising a board B, a board A, a right filler, a left filler and a buffer mechanism, wherein the right filler is installed on the left side wall of the board B;

the buffer mechanism comprises a mounting plate, a fixed column, a lower sliding block, an upper mounting block, a lower mounting block, a sliding rod, an upper sliding block, a spring, a connecting block, an upper connecting rod, a lower connecting rod, a fixed block, a rotating shaft and a spring rod, wherein the mounting plate is mounted on the side wall of the left filler through a bolt, the upper mounting block is welded at the upper end of the mounting plate, the left end of the upper mounting block is mounted on the side wall of the left filler through a bolt, the lower mounting block is welded at the lower end of the mounting plate, the left end of the lower mounting block is mounted on the side wall of the left filler through a bolt, spring grooves are respectively formed in the side walls of the upper mounting block and the lower mounting block, one ends of the springs are welded in the two spring grooves, the fixed column is welded on the right side wall of the mounting plate, a through hole is formed in the fixed column, the sliding rod is welded in the through hole, and the upper sliding block and the lower sliding block are respectively arranged on the right side wall of the mounting plate, the lower sliding block is arranged at the lower side of the fixed column, the upper sliding block is arranged at the upper side of the fixed column, the upper end of the sliding rod penetrates through the upper sliding block and is welded with the other end of the spring, the lower end of the sliding rod penetrates through the lower sliding block and is welded with the other end of the spring, the upper sliding block and the lower sliding block are connected in a sliding manner through the sliding rod, connecting blocks are respectively welded at the tops of the upper sliding block and the lower sliding block, the connecting block at the top of the upper sliding block is connected with one end of an upper connecting rod through a rotating shaft, the connecting block at the top of the lower sliding block is connected with one end of a lower connecting rod through a rotating shaft, a fixed block is arranged on the side wall of the right filler through a bolt, a rotating shaft hole is formed in the fixed block, a rotating shaft is arranged in the rotating shaft hole, the other end of the upper connecting rod is arranged at the rear end of the rotating shaft, the other end of the lower rotating shaft is arranged at the front end of the rotating shaft, and a movable groove is formed in the right side wall of the fixed column, the movable groove is characterized in that the left end of the spring rod is arranged inside the movable groove, the right end of the spring rod is welded on the left side wall of the fixed block, the outer side wall of the spring rod is sleeved with the spring, one end of the spring is welded on the left side wall of the fixed block, and the other end of the spring is welded on the right side wall of the fixed column.

2. The energy-saving building board assembly with a buffering structure as claimed in claim 1, wherein the left filler and the right filler are made of polyurethane rigid foam respectively.

Images