CN112814148B - Wall body handing-over department notch structure in log house - Google Patents

Abstract

The invention discloses a groove opening structure at a wall body junction of a log house, which comprises a wall body main body, a junction groove body structure and a junction telescopic inner embedded groove, wherein the front surface of the wall body main body is fixedly connected with the junction groove body structure, the periphery of the junction groove body structure is fixedly connected with the junction telescopic inner embedded groove, one end of the junction telescopic inner embedded groove is fixedly connected with a wall body splicing mechanism, one end of the junction telescopic inner embedded groove is fixedly connected with the wall body splicing mechanism, the inner side of the top part of the wall body main body is fixedly connected with a right-angle steel which well reflects the verticality of the device, the junction size scale well reflects the skid resistance of the structure, the junction groove body structure effectively improves the junction stability of the structure, the junction telescopic inner embedded groove well reflects the adaptive adjustment flexibility of the structure, and the wall body splicing mechanism well reflects the splicing efficiency of the structure, the method is suitable for the use of log house structures and has wide development prospect in the future.

Description

Wall body handing-over department notch structure in log house

Technical Field

The invention belongs to the technical field of log house structures, and particularly relates to a groove opening structure at a wall body junction of a log house.

Background

The demand of the current international and domestic markets for the log houses is gradually increased, the countries such as Canada and Finland are traditional production countries of the log houses, products are mainly sold to Asian countries such as Western Europe, Japan, Korea and China, and the prior log house manufacturers mostly adopt a simple cross-shaped connection structure at the notch part of the wall connection part, namely the notch is a 90-degree angle.

Owing to need extend wall body length according to the area demand of difference, current log wall body is fixed dimension mostly, the extension needs splice in addition, prior art does not possess fine splicing mechanism, and because the situation that the wall body of size of difference carries out the handing-over exists, current handing-over mode, need carry out the adaptation customization one by one to the wall body of not unidimensional, the adaptation flexibility is not enough, current handing-over mode adopts simple "ten" word handing-over structure mostly simultaneously, the contact surface is short, poor stability, leak out easily and leak rain.

Therefore, how to design a groove structure at the wall body junction of a log house becomes a problem to be solved at present.

Disclosure of Invention

The invention aims to: in order to solve the problems that the prior art does not have a good splicing mechanism, is not enough in adaptation flexibility and poor in stability, and easily leaks air and rain, a groove opening structure at the joint of the wall body of the log house is provided.

The technical scheme adopted by the invention is as follows: a groove opening structure at a wall body junction of a log house comprises a wall body main body, a junction groove body structure and a junction telescopic inner embedded groove, wherein the front of the wall body main body is fixedly connected with the junction groove body structure, the rear outer wall of the junction groove body structure is connected with the front outer wall of the wall body main body, the periphery of the junction groove body structure is fixedly connected with the junction telescopic inner embedded groove, the inner side inner wall of the junction telescopic inner embedded groove is connected with the outer periphery outer wall of the junction groove body structure, one end of the junction telescopic inner embedded groove is fixedly connected with a wall body splicing mechanism, and the outer wall of one end of the wall body splicing mechanism is connected with the outer wall of the other end of the junction telescopic inner embedded groove;

the inner side of the cross-connecting groove body structure is fixedly connected with a cross-connecting through hole, the outer peripheral wall of the cross-connecting through hole is connected with the inner wall of the cross-connecting groove body structure, the inner side of the cross-connecting through hole is connected with a cross-connecting penetrating wall body in a penetrating way, the outer peripheral wall of the cross-connecting penetrating wall body is connected with the inner side inner wall of the cross-connecting through hole, the inner bottom of the cross penetrating wall body is fixedly connected with a fixed through groove, the outer peripheral wall of the fixed through groove is connected with the inner wall of the cross penetrating wall body, the inner side of the inner part of the fixed through groove is connected with a cross fixed preposed bayonet lock in a penetrating way, the outer peripheral wall of the cross fixed preposed bayonet lock is connected with the inner wall of the inner part of the fixed through groove, the top of the interior of the cross penetrating wall body is connected with a cross fixed rear bayonet lock in a penetrating manner, and the outer peripheral wall of the cross fixed rear bayonet lock is connected with the inner wall of the cross penetrating wall body;

the inner side of the cross-connecting telescopic embedded groove is fixedly connected with a telescopic adjusting cavity, the outer peripheral wall of the telescopic adjusting cavity is connected with the inner wall of the cross-connecting telescopic embedded groove, the inner side of the telescopic adjusting cavity is fixedly connected with a penetrating wall body, the outer peripheral wall of the penetrating wall body is connected with the inner wall of the telescopic adjusting cavity in a lap joint manner, the bottom end of the penetrating wall body is movably connected with a pressing top plate, the bottom end of the pressing top plate is connected with the top end outer wall of the penetrating wall body, two sides of the inner part of the penetrating wall body are movably connected with side plate pressing springs, the outer peripheral wall of each side plate pressing spring is connected with the inner wall of the penetrating wall body, one end of each side plate pressing spring is movably connected with a wall body pressing clamping rod, the outer wall of one end of each wall body pressing clamping rod is connected with the outer wall of the other end of each side plate pressing spring, and the other end of each side plate pressing spring is embedded and connected with a spring pressing and springing-opening piece, the outer wall of one end of the spring pressing and ejecting piece is connected with the outer wall of the other end of the side plate pressing spring, an ejecting fixing nut is connected to one side of the spring pressing and ejecting piece in a nested mode, and the inner side wall of the ejecting fixing nut is connected with the outer wall of one side of the spring pressing and ejecting piece;

the inner side of the wall splicing mechanism is fixedly connected with a splicing wall, the outer peripheral wall of the splicing wall is connected with the inner side inner wall of the wall splicing mechanism, the other side of the inner part of the wall splicing mechanism is fixedly connected with a splicing wall, the outer peripheral wall of the splicing wall is connected with the inner side inner wall of the wall splicing mechanism, one end of the splicing wall is fixedly connected with a splicing insertion plate, one end outer wall of the splicing insertion plate is connected with the outer other end wall of the splicing wall, the outer peripheral nesting of the splicing insertion plate is connected with a splicing inner embedded groove, the inner side inner wall of the splicing inner embedded groove is connected with the outer peripheral wall of the splicing insertion plate, two sides of the splicing wall are penetratively connected with clamping through holes, the outer peripheral wall of each clamping through hole is connected with the inner side inner wall of the splicing wall, the inner side embedding of the inner side of each clamping through hole is connected with a clamping fixed clamping column, the outer peripheral wall of each clamping through fixed clamping column is connected with the inner side inner wall of each clamping through hole, the top of the popping fixing clamp column is connected with a sleeved fastening clamp strip in a nesting mode, and the inner side wall of the sleeved fastening clamp strip is connected with the outer wall of the top of the popping fixing clamp column.

Preferably, inside one side fixedly connected with hand laminating atress line of handing-over cell body structure, the peripheral outer wall of hand laminating atress line links to each other with the inside inner wall of handing-over cell body structure.

Preferably, the inner side of the top of the wall body main body is fixedly connected with a right-angle steel, and the outer wall of the bottom of the right-angle steel is connected with the outer wall of the top of the wall body main body.

Preferably, one side top fixedly connected with handing-over size scale of wall body main part, the one end outer wall of handing-over size scale links to each other with the other end outer wall of wall body main part.

Preferably, one side bottom fixedly connected with antiskid ground pad of wall body main part, antiskid ground pad's top outer wall links to each other with the bottom outer wall of wall body main part.

Preferably, a containing side groove is embedded and connected to the middle part of one side of the wall body, and the outer wall of the containing side groove is connected with the inner wall of the wall body.

Preferably, handing-over cell body structure is by inside inboard fixedly connected with handing-over through hole, and the inside inboard handing-over of handing-over through hole penetrates the wall body, and the fixed trough that runs through of the inside bottom of wall body is penetrated in the handing-over, and the fixed leading bayonet lock of handing-over that fixedly runs through the inside inboard of groove and the fixed rearmounted bayonet lock of handing-over that passes through the inside top of wall body combine together to form.

Preferably, the scalable embedded groove of handing-over is by inside inboard flexible regulation chamber, and the wall body that penetrates of the inside inboard in flexible regulation chamber penetrates the roof that compresses tightly of wall body bottom, penetrates the curb plate pressure spring of the inside both sides of wall body, and the wall body of curb plate pressure spring one end compresses tightly the kelly, and the spring-loaded spring of the curb plate pressure spring other end is flicked the piece and is formed by the spring-loaded spring open fixation nut that flicks one side.

Preferably, the wall body splicing mechanism is formed by jointly combining a splicing wall on one side inside, an access wall on the other side inside, a splicing clamping plate at one end of the splicing wall, splicing embedded grooves on the periphery of the splicing clamping plate, clamping through holes on two sides of the access wall, and a popping fixing clamping column on the inner side inside the clamping through hole and a sleeved fastening clamping strip at the top of the popping fixing clamping column.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. in the invention, the cross-connection groove body structure is formed by fixedly connecting a cross-connection through hole on the inner side of the cross-connection through hole, wherein the cross-connection through hole penetrates into a wall body, the cross-connection through hole penetrates into a fixed through groove at the bottom inside the wall body, a cross-connection fixed front bayonet lock on the inner side inside the fixed through groove and a cross-connection fixed rear bayonet lock on the top inside the wall body are combined together, most of the existing cross-connection modes adopt a simple cross-shaped cross-connection structure, the contact surface is short, the stability is poor, the wind and rain are easy to leak, and through the arrangement of the cross-connection groove body structure, this structure will be handed over and penetrate the wall body of treating handing-over along the handing-over through hole in vivo, will hand over fixed leading bayonet lock and the fixed rearmounted bayonet lock of handing-over after will pass over and penetrate the handing-over through fixed through-groove and penetrate the handing-over and penetrate and form "worker" font fixedly in the wall body after that, utilize the stability of worker's shape, the effectual handing-over stability that improves this structure.

2. In the invention, the cross-over telescopic inner caulking groove is formed by combining a telescopic adjusting cavity at the inner side, a wall penetrating through the inner side of the telescopic adjusting cavity, a pressing top plate penetrating through the bottom end of the wall, side plate pressing springs penetrating through two sides inside the wall, a wall pressing clamping rod at one end of each side plate pressing spring, a spring pressing ejection piece at the other end of each side plate pressing spring and an ejection fixing nut at one side of the spring pressing ejection piece, because the cross-over condition of the walls with different sizes exists, the existing cross-over mode needs to carry out one-to-one adaptation customization on the walls with different sizes, the adaptation flexibility is insufficient, by arranging the cross-over telescopic inner caulking groove, a hollow telescopic adjusting cavity is arranged inside the cross-over telescopic inner caulking groove, the wall penetrates through the telescopic adjusting cavity, and the side plate pressing springs arranged at two sides inside the wall control the ejection through the wall pressing clamping rod, and the roof that compresses tightly at interlock top compresses tightly fixedly penetrating the wall body, and the staff only needs to open the fixation nut with the bullet and embolia the wall body and compress tightly the kelly in fixed after that, can utilize compressing tightly of multiunit high elasticity spring to carry out the adaptation fixed to the wall body that penetrates, need not in addition the customization to fine embodiment the adaptation of this structure and adjusted the flexibility.

3. In the invention, the wall body splicing mechanism is formed by combining a splicing embedded groove at the periphery of the splicing embedded plate, clamping through holes at two sides of the access wall, a popping fixed clamping column at the inner side of the clamping through hole and a sleeved fastening clamping strip at the top of the popping fixed clamping column together, wherein the splicing embedded groove is arranged at one side of the inner part of the splicing embedded plate, the splicing embedded groove is arranged at the periphery of the splicing embedded plate, the popping fixed clamping column is arranged at the position of the clamping through hole, and the sleeved fastening clamping strip is sleeved in the popping fixed clamping column, the reinforcing work is completed, so that the fastening and splicing of the logs are completed, the labor is saved rapidly, and the splicing efficiency of the structure is well embodied.

4. In the invention, the top of one side of the wall body is fixedly connected with the cross-over size scale, the outer wall at one end of the cross-over size scale is connected with the outer wall at the other end of the wall body, because the structure is an embedded installation structure, workers need to control the embedding distance in real time, by setting the cross-over size scale, the cross-over size scale is a good real-time display scale, the workers can well conveniently control the embedding size, thereby well embodying the size control convenience of the structure, the bottom end of one side of the wall body is fixedly connected with the anti-skid grounding pad, the top outer wall of the anti-skid grounding pad is connected with the bottom outer wall of the wall body, when the wall body is in a partially smooth ground, the anti-skid grounding pad is easy to slide, the cross-over is influenced, and by setting the anti-skid grounding pad, the anti-skid grounding pad is made of uneven grounding wear-resistant materials, the contact area with the ground can be well increased, thereby well embodying the skid resistance of the structure.

5. In the invention, a containing side groove is embedded and connected in the middle part of one side of a wall body, the outer wall of the containing side groove is connected with the inner wall of the wall body, a worker is required to carry related splicing tools with him when splicing, the worker is inconvenient to carry the splicing tools with him, the containing side groove is a containing structure embedded in a log wall body, the worker can place the related tools into the containing side groove for temporary storage, so that the containing convenience of the structure is well embodied, the inner side of the top of the wall body is fixedly connected with right-angle steel, the outer wall of the bottom of the right-angle steel is connected with the outer wall of the top of the wall body, when the wall body is connected, the verticality of the connection needs to be detected in real time, the existing wall body does not have an autonomous vertical correction structure, and the right-angle steel is a right-angle clamping piece through the arrangement of the right-angle steel, through the card in handing-over mouth position, can make things convenient for the staff to confirm vertical angle in real time to fine embodiment the device's verticality.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the cross-over tank structure of the present invention;

FIG. 3 is a cross-sectional view of the cross-sectional retractable insert groove of the present invention;

FIG. 4 is an enlarged schematic view of the invention at A;

fig. 5 is a schematic sectional structure view of the wall splicing mechanism of the present invention.

The labels in the figure are: 1. wall body, 2, handing-over cell body structure, 201, the handing-over through hole, 202, the wall body is penetrated in the handing-over, 203, fixed through groove, 204, the fixed leading bayonet lock of handing-over, 205, the fixed rearmounted bayonet lock of handing-over, 206, hand laminating atress line, 3, the scalable interior caulking groove of handing-over, 301, flexible regulation chamber, 302, penetrate the wall body, 303, compress tightly the roof, 304, curb plate pressure spring, 305, wall body compresses tightly the kelly, 306, spring compresses tightly the bullet piece, 307, flick the fixation nut, 4, wall body concatenation mechanism, 401, the wall of piecing together, 402, insert the wall, 403, the concatenation card is gone into the board, 404, the interior caulking groove of concatenation, 405, the screens is perforated, 406, pop out the fixation card post, 407, embolia fastening card strip, 5, decide right angle steel, 6, handing-over size scale, 7, the slipmat, 8, accomodate the side groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-5, the present invention provides a technical solution: a groove opening structure at a wall body junction of a log house comprises a wall body main body 1, a junction groove body structure 2 and a junction telescopic inner embedded groove 3, wherein the front of the wall body main body 1 is fixedly connected with the junction groove body structure 2, the rear outer wall of the junction groove body structure 2 is connected with the front outer wall of the wall body main body 1, the periphery of the junction groove body structure 2 is fixedly connected with the junction telescopic inner embedded groove 3, the inner side inner wall of the junction telescopic inner embedded groove 3 is connected with the peripheral outer wall of the junction groove body structure 2, one end of the junction telescopic inner embedded groove 3 is fixedly connected with a wall body splicing mechanism 4, and the outer wall of one end of the wall body splicing mechanism 4 is connected with the outer wall of the other end of the junction telescopic inner embedded groove 3;

the inner side of the cross-over groove body structure 2 is fixedly connected with a cross-over through hole 201, the outer peripheral wall of the cross-over through hole 201 is connected with the inner wall of the cross-over groove body structure 2, the inner side of the cross-over through hole 201 is connected with a cross-over penetrating wall body 202 in a penetrating mode, the outer peripheral wall of the cross-over penetrating wall body 202 is connected with the inner wall of the cross-over penetrating through hole 201 in a penetrating mode, the inner bottom of the cross-over penetrating wall body 202 is fixedly connected with a fixed penetrating groove 203, the outer peripheral wall of the fixed penetrating groove 203 is connected with the inner wall of the cross-over penetrating wall body 202 in a penetrating mode, the inner side of the fixed penetrating groove 203 is connected with a cross-over fixed preposed bayonet 204 in a penetrating mode, the outer peripheral wall of the cross-over fixed preposed bayonet 204 is connected with the inner wall of the cross-over penetrating wall body 203, the top of the cross-over fixed postpositioned bayonet 205 is connected with the inner wall of the cross-over penetrating wall body 202 in a penetrating mode;

the inner side of the cross-over telescopic inner embedded groove 3 is fixedly connected with a telescopic adjusting cavity 301, the outer peripheral wall of the telescopic adjusting cavity 301 is connected with the inner wall of the cross-over telescopic inner embedded groove 3, the inner side of the telescopic adjusting cavity 301 is fixedly connected with a penetrating wall body 302, the outer peripheral wall penetrating the wall body 302 is connected with the inner side wall of the telescopic adjusting cavity 301 in a lap joint manner, the bottom end penetrating the wall body 302 is movably connected with a pressing top plate 303, the outer bottom end wall of the pressing top plate 303 is connected with the outer top end wall penetrating the wall body 302, two inner sides penetrating the wall body 302 are movably connected with side plate pressing springs 304, the outer peripheral wall of the side plate pressing springs 304 is connected with the inner side wall penetrating the wall body 302, one end of the side plate pressing springs 304 is movably connected with a wall body pressing clamping rod 305, one end of the wall body pressing clamping rod 305 is connected with the outer end wall of the side plate pressing springs 304, and the other end of the side plate pressing springs 304 is embedded and connected with a spring pressing spring opening part 306, the outer wall of one end of the spring pressing and ejecting piece 306 is connected with the outer wall of the other end of the side plate pressing spring 304, one side of the spring pressing and ejecting piece 306 is connected with an ejecting and ejecting fixing nut 307 in a nested mode, and the inner side wall of the ejecting and ejecting fixing nut 307 is connected with the outer wall of one side of the spring pressing and ejecting piece 306;

a splicing wall 401 is fixedly connected to one side inside the wall splicing mechanism 4, the outer peripheral wall of the splicing wall 401 is connected with the inner side inner wall of the wall splicing mechanism 4, the other side inside the wall splicing mechanism 4 is fixedly connected with an access wall 402, the outer peripheral wall of the access wall 402 is connected with the inner side inner wall of the wall splicing mechanism 4, one end of the splicing wall 401 is fixedly connected with a splicing clamping plate 403, the outer wall of one end of the splicing clamping plate 403 is connected with the outer wall of the other end of the splicing wall 401, the outer periphery of the splicing clamping plate 403 is connected with a splicing inner embedded groove 404 in a nested manner, the inner side inner wall of the splicing inner embedded groove 404 is connected with the outer peripheral wall of the splicing clamping plate 403, clamping through holes 405 are penetratingly connected to two sides of the access wall 402, the outer peripheral wall of the clamping through hole 405 is connected with the inner side inner wall of the access wall 402, a pop-up fixing clamping column 406 is embedded and connected to the inner side of the clamping through hole 405, the pop-up fixing column 406 is connected with the inner side wall of the clamping through hole 405, the top of the ejection fixing clip column 406 is connected with a sleeved fastening clip strip 407 in a nesting manner, and the inner side wall of the sleeved fastening clip strip 407 is connected with the top outer wall of the ejection fixing clip column 406.

Preferably, handing-over cell body structure 2's inside one side fixedly connected with hand laminating atress line 206, the peripheral outer wall of hand laminating atress line 206 links to each other with handing-over cell body structure 2's inside inner wall, when handing-over the wall body, need the staff to hold to carry out the atress, current log outer wall is comparatively crude, the staff atress contact of being not convenient for, through setting up hand laminating atress line 206, hand laminating atress line 206 is fine hand laminating material, the sculpture has the anti-skidding line that prevents the slippage, fine having made things convenient for the staff to carry out the atress contact, fine embodiment the atress convenience of this structure.

Preferably, the inboard fixedly connected with in top of wall body main part 1 decides right angle steel 5, the bottom outer wall of deciding right angle steel 5 links to each other with the top outer wall of wall body main part 1, when handing-over the wall body, need detect the straightness that hangs down of handing-over in real time, current wall body does not possess independently vertical correction structure, through setting up right angle steel 5, decide right angle steel 5 is the right angle fastener, through the card in handing-over mouth position, can make things convenient for staff real-time definite vertical angle, thereby fine embodiment the device's verticality.

Preferably, one side top fixedly connected with handing-over size scale 6 of wall body main part 1, the one end outer wall of handing-over size scale 6 links to each other with wall body main part 1's other end outer wall, because this structure is embedding mounting structure, the staff need carry out real-time control to the embedding distance, through setting up handing-over size scale 6, handing-over size scale 6 is fine real-time display scale, the convenient staff that can be fine carries out the accuse to the embedding size to fine embodiment the size control convenience of this structure.

Preferably, one side bottom fixedly connected with anti-skidding ground mat 7 of wall body main part 1, the top outer wall of anti-skidding ground mat 7 links to each other with the bottom outer wall of wall body main part 1, when the wall body is in the smooth ground surface of part, causes the slip easily, the going on of influence handing-over, through setting up anti-skidding ground mat 7, anti-skidding ground mat 7 is unevenness's ground connection wear-resisting material, increase and the area of contact on ground that can be fine to fine embodiment the antiskid nature of this structure.

Preferably, one side middle part embedding of wall body 1 is connected with accomodates the side channel 8, the outer wall of accomodating the side channel 8 links to each other with the inside inner wall of wall body 1, need the staff to hand-carry relevant concatenation apparatus when splicing, certain inconvenience has been brought for the staff with hand, accomodate the side channel 8 through setting up, accomodate the side channel 8 for the structure of accomodating of embedding in the log wall, the staff can be kept in accomodating the side channel 8 with relevant apparatus placement, thereby the fine convenience of accomodating of this structure of having embodied.

Preferably, the cross-over groove body structure 2 is formed by combining a cross-over through hole 201 fixedly connected with the inner side, a cross-over penetrating wall body 202 penetrating through the inner side of the cross-over through hole 201, a fixed through groove 203 penetrating through the bottom inside the wall body 202 in a cross-over mode, a cross-over fixed preposed bayonet 204 penetrating through the inner side inside the fixed through groove 203 and a cross-over fixed postpositive bayonet 205 penetrating through the top inside the wall body 202 in a cross-over mode, most of the existing cross-over modes adopt a simple cross-shaped cross-over structure, the contact surface is short, the stability is poor, wind and rain are easily leaked out, and by arranging the cross-over groove body structure 2, the structure penetrates the cross penetrating wall 202 into the wall to be crossed along the cross penetrating hole 201, then, the cross-over fixing preposed bayonet 204 and the cross-over fixing postpositive bayonet 205 penetrate into the wall body 202 through the fixing through groove 203 to form I-shaped fixing, and the cross-over stability of the structure is effectively improved by utilizing the stability of the I-shaped fixing.

Preferably, the cross-over telescopic inner caulking groove 3 is formed by combining a telescopic adjusting cavity 301 on the inner side of the cross-over telescopic adjusting cavity 301, a penetrating wall 302 on the inner side of the telescopic adjusting cavity 301, a pressing top plate 303 penetrating the bottom end of the wall 302, side plate pressing springs 304 penetrating the two sides of the wall 302, a wall pressing clamping rod 305 at one end of each side plate pressing spring 304, a spring pressing opening part 306 at the other end of each side plate pressing spring 304 and an opening fixing nut 307 on one side of the spring pressing opening part 306, because the cross-over condition of the wall bodies with different sizes exists, the existing cross-over mode needs to customize the wall bodies with different sizes in a one-to-one matching mode, the matching flexibility is insufficient, by arranging the cross-over telescopic inner caulking groove 3, the hollow telescopic adjusting cavity 301 is arranged inside the cross-over telescopic inner caulking groove 3, the penetrating wall body 302 penetrates through the telescopic adjusting cavity 301, the side plate pressing springs 304 arranged on the two sides inside of the wall body 302 control the opening through the wall pressing clamping rod 305, and the top of the linkage compresses tightly the roof 303 to penetrating wall 302 fixedly, then the staff only need to open the fixation nut 307 of bullet and embolia the wall compresses tightly in the kelly 305 fixedly, can utilize the stiction of multiunit high elasticity spring to carry out the adaptation to the wall that penetrates and fix, need not other customization to fine embodiment the adaptation of this structure and adjusted the flexibility.

Preferably, the wall splicing mechanism 4 is formed by combining a splicing wall 401 on one side inside, an access wall 402 on the other side inside, a splicing clamping plate 403 at one end of the splicing wall 401, a splicing embedded groove 404 at the periphery of the splicing clamping plate 403, clamping through holes 405 at two sides of the access wall 402, a popping-out fixing clamping column 406 at the inner side inside the clamping through hole 405 and a sleeved fastening clamping strip 407 at the top of the popping-out fixing clamping column 406, because the length of the wall needs to be extended according to different area requirements, most of the existing log walls are fixed in size and need to be spliced additionally, the existing technology has no good splicing mechanism, through arranging the wall splicing mechanism 4, the splicing wall 401 is clamped into the splicing embedded groove 404 of the access wall 402 through the splicing clamping plate 403 during splicing, the popping-out fixing clamping column 406 in a compressed state is popped out at the position of the clamping through hole 405, thereby achieving the effect of further clamping, then, the sleeved fastening clamp strips 407 are sleeved into the ejected fixing clamp columns 406 to complete the reinforcing work, so that the fastening and splicing of the logs are completed, the operation is fast and labor-saving, and the splicing efficiency of the structure is well embodied.

The working principle is as follows: firstly, the anti-skid grounding pad 7 is arranged, and the anti-skid grounding pad 7 is made of uneven grounding wear-resistant materials, so that the contact area with the ground can be well increased, and the anti-skid property of the structure is well embodied;

then, by arranging the accommodating side groove 8, the accommodating side groove 8 is an accommodating structure embedded in the log wall body, and a worker can place related tools into the accommodating side groove 8 for temporary storage, so that the accommodating convenience of the structure is well embodied;

then, by arranging the cross-connection groove body structure 2, the cross-connection penetrating wall body 202 penetrates into the wall body to be cross-connected along the cross-connection through hole 201, and then the cross-connection fixed front bayonet 204 and the cross-connection fixed rear bayonet 205 penetrate into the wall body 202 through the fixed through groove 203 to form I-shaped fixation, so that the cross-connection stability of the structure is effectively improved by utilizing the stability of I-shaped;

next, by arranging the cross-over telescopic inner embedded groove 3, a hollow telescopic adjusting cavity 301 is arranged inside the cross-over telescopic inner embedded groove 3, the penetrating wall body 302 penetrates through the telescopic adjusting cavity 301, side plate compression springs 304 arranged on two sides inside the penetrating wall body 302 control the ejection through a wall body compression clamping rod 305, and a compression top plate 303 at the top is connected to compress and fix the penetrating wall body 302, then a worker only needs to sleeve an ejection fixing nut 307 into the wall body compression clamping rod 305 for fixing, the compression of multiple groups of high-elasticity springs can be used for carrying out adaptation fixing on the penetrating wall body, and additional customization is not needed, so that the adaptation adjusting flexibility of the structure is well embodied;

finally, through setting up wall body concatenation mechanism 4, during the concatenation, to piece together wall 401 through the concatenation income board 403 card income in the concatenation embedded groove 404 of access wall 402, the card income in-process, be in the pop-up fixing clip post 406 of compression state, pop out at screens perforation 405 position, thereby reach the effect of further looks card, will embolia fastening clip strip 407 and embolia and pop-up fixing clip post 406 after that, accomplish the reinforcement work, thereby the fastening concatenation to the log has been accomplished, and swiftly laborsaving, the fine concatenation high efficiency that has embodied this structure, this is exactly the theory of operation of the wall body handing-over department notch structure in this kind of log house.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a wall body handing-over department notch structure in log house, includes wall body main part (1), handing-over cell body structure (2) and handing-over scalable embedded groove (3), its characterized in that: the front of the wall body main body (1) is fixedly connected with a cross-over groove body structure (2), the rear outer wall of the cross-over groove body structure (2) is connected with the front outer wall of the wall body main body (1), the periphery of the cross-over groove body structure (2) is fixedly connected with a cross-over telescopic inner embedded groove (3), the inner side inner wall of the cross-over telescopic inner embedded groove (3) is connected with the outer peripheral outer wall of the cross-over groove body structure (2), one end of the cross-over telescopic inner embedded groove (3) is fixedly connected with a wall body splicing mechanism (4), and the outer wall of one end of the wall body splicing mechanism (4) is connected with the outer wall of the other end of the cross-over telescopic inner embedded groove (3);

the inner side of the cross-connection groove body structure (2) is fixedly connected with a cross-connection through hole (201), the outer peripheral wall of the cross-connection through hole (201) is connected with the inner wall of the cross-connection groove body structure (2), the inner side of the cross-connection through hole (201) is connected with a cross-connection penetrating wall body (202) in a penetrating mode, the outer peripheral wall of the cross-connection penetrating wall body (202) is connected with the inner wall of the cross-connection through hole (201), the cross-connection penetrates through the inner bottom of the inner portion of the wall body (202) and is fixedly connected with a fixed through groove (203), the outer peripheral wall of the fixed through groove (203) is connected with the inner wall of the cross-connection penetrating wall body (202) in a penetrating mode, the inner side of the fixed through groove (203) is connected with a cross-connection fixed front bayonet (204) in a penetrating mode, the outer peripheral wall of the cross-connection fixed front bayonet (204) is connected with the inner wall body (202) in a penetrating mode, and the inner top of the cross-connection wall body (202) is connected with a cross-connection fixed rear bayonet (205), the outer peripheral wall of the cross fixed rear bayonet (205) is connected with the inner wall of the cross penetrating wall (202);

the inside inboard fixedly connected with of handing-over scalable inner caulking groove (3) is flexible adjusts chamber (301), the peripheral outer wall of flexible regulation chamber (301) links to each other with the inside inner wall of handing-over scalable inner caulking groove (3), the inside inboard fixedly connected with of flexible regulation chamber (301) penetrates wall body (302), the peripheral outer wall that penetrates wall body (302) links to each other with the inboard inner wall overlap joint of flexible regulation chamber (301), the bottom swing joint that penetrates wall body (302) has compressing roof (303), the bottom outer wall that compresses tightly roof (303) links to each other with the top outer wall that penetrates wall body (302), the inside both sides swing joint that penetrates wall body (302) has curb plate pressure spring (304), the peripheral outer wall of curb plate pressure spring (304) links to each other with the inboard inner wall that penetrates wall body (302), the one end swing joint of curb plate pressure spring (304) has wall body pressure card pole (305), the outer wall of one end of the wall pressing clamping rod (305) is connected with the outer wall of the other end of the side plate pressing spring (304), the other end of the side plate pressing spring (304) is connected with a spring pressing and ejecting piece (306) in an embedded mode, the outer wall of one end of the spring pressing and ejecting piece (306) is connected with the outer wall of the other end of the side plate pressing spring (304), an ejecting and ejecting fixing nut (307) is connected to one side of the spring pressing and ejecting piece (306) in a nested mode, and the inner side inner wall of the ejecting and ejecting fixing nut (307) is connected with the outer wall of one side of the spring pressing and ejecting piece (306);

the wall splicing mechanism is characterized in that a splicing wall (401) is fixedly connected to one side of the interior of the wall splicing mechanism (4), a peripheral outer wall of the splicing wall (401) is connected with an inner side inner wall of the wall splicing mechanism (4), an access wall (402) is fixedly connected to the other side of the interior of the wall splicing mechanism (4), a peripheral outer wall of the access wall (402) is connected with an inner side inner wall of the wall splicing mechanism (4), one end of the splicing wall (401) is fixedly connected with a splicing insertion plate (403), one end outer wall of the splicing insertion plate (403) is connected with the other end outer wall of the splicing wall (401), a splicing inner embedded groove (404) is connected with the periphery of the splicing insertion plate (403) in a nested manner, the inner side inner wall of the splicing inner embedded groove (404) is connected with the peripheral outer wall of the splicing insertion plate (403), clamping through holes (405) are connected to two sides of the access wall (402), the outer wall of the periphery of the clamping through hole (405) is connected with the inner wall of the access wall (402), the inner side of the inner portion of the clamping through hole (405) is connected with a popup fixing card column (406) in an embedded mode, the outer wall of the periphery of the popup fixing card column (406) is connected with the inner wall of the clamping through hole (405), the top of the popup fixing card column (406) is connected with an embedded fastening card strip (407) in an embedded mode, and the inner wall of the inner side of the embedded fastening card strip (407) is connected with the outer wall of the top of the popup fixing card column (406).

2. A log house wall intersection rebate structure according to claim 1, wherein: handing-over cell body structure (2) inside one side fixedly connected with hand laminating atress line (206), the peripheral outer wall of hand laminating atress line (206) links to each other with the inside inner wall of handing-over cell body structure (2).

3. A log house wall intersection rebate structure according to claim 1, wherein: the wall body is characterized in that a right-angle steel (5) is fixedly connected to the inner side of the top of the wall body main body (1), and the outer wall of the bottom of the right-angle steel (5) is connected with the outer wall of the top of the wall body main body (1).

4. A log house wall intersection rebate structure according to claim 1, wherein: one side top fixedly connected with handing-over size scale (6) of wall body main part (1), the one end outer wall of handing-over size scale (6) links to each other with the other end outer wall of wall body main part (1).

5. A log house wall intersection rebate structure according to claim 1, wherein: one side bottom fixedly connected with antiskid grounding pad (7) of wall body main part (1), the top outer wall of antiskid grounding pad (7) links to each other with the bottom outer wall of wall body main part (1).

6. A log house wall intersection rebate structure according to claim 1, wherein: the wall body is characterized in that a storage side groove (8) is embedded and connected to the middle of one side of the wall body main body (1), and the outer wall of the storage side groove (8) is connected with the inner wall of the wall body main body (1).

7. A log house wall intersection rebate structure according to claim 1, wherein: handing-over cell body structure (2) are by inside inboard fixedly connected with handing-over through hole (201), and the handing-over of handing-over through hole (201) inside inboard penetrates wall body (202), and the handing-over penetrates fixed leading bayonet lock (204) of handing-over of wall body (202) inside bottom and the fixed rearmounted bayonet lock (205) of handing-over that the fixed leading bayonet lock (204) that passes through the inside inboard of groove (203) and handing-over penetrate wall body (202) inside top make up jointly and form.

8. A log house wall intersection rebate structure according to claim 1, wherein: handing-over scalable embedded groove (3) are by inside inboard flexible regulation chamber (301), the inside inboard wall body (302) that penetrates of flexible regulation chamber (301), the roof (303) that compresses tightly that penetrates wall body (302) bottom, the curb plate pressure spring (304) of penetrating wall body (302) inside both sides, the wall body of curb plate pressure spring (304) one end compresses tightly kelly (305), the spring of curb plate pressure spring (304) other end compresses tightly to pop open piece (306) and spring and compresses tightly to pop open fixation nut (307) of popping open piece (306) one side and make up jointly and form.

9. A log house wall intersection rebate structure according to claim 1, wherein: wall body concatenation mechanism (4) are by the concatenation wall (401) of inside one side, access wall (402) of inside opposite side, the concatenation income board (403) of concatenation wall (401) one end, and the concatenation is gone into in board (403) outlying concatenation caulking groove (404), inserts the screens perforation (405) of wall (402) both sides, and the screens is perforated (405) the inside inboard fixed card post (406) of popping out and is popped out embolia fastening card strip (407) at fixed card post (406) top and make up jointly and form.

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