CN208293881U - A kind of building heat preservation blocks - Google Patents
A kind of building heat preservation blocks Download PDFInfo
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- CN208293881U CN208293881U CN201820368461.8U CN201820368461U CN208293881U CN 208293881 U CN208293881 U CN 208293881U CN 201820368461 U CN201820368461 U CN 201820368461U CN 208293881 U CN208293881 U CN 208293881U
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- block
- screw thread
- heat preservation
- accommodation groove
- insulation board
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Abstract
The utility model discloses a kind of building heat preservation blocks, including block body, it is in a horizontal state at the block medium position of block body and offers center grouting chamber, heat preservation core plate is provided in the vallecular cavity of upper insulation board accommodation groove, lower heat preservation core plate is provided in the vallecular cavity of lower insulation board accommodation groove, adaptation is provided with external screw thread rotating cylinder in the mantle cavity of each internal screw thread positioning sleeve, multiple plasma discharge apertures are circumferentially uniformly provided at the bottom position of external screw thread rotating cylinder on barrel, adaptation is provided with waterproof mortar course in the vallecular cavity of waterproof layer accommodation groove, slurry spatia is formed between grafting groove and grafting convex block, the side of slurry spatia, also perforation is provided with slip casting aperture on the block of corresponding block body.Heat preservation core plate positions illusive problem in the traditional building block of the utility model very good solution, avoids the generation of building block break-off caused by due to uncontrollable external force factor, enhances the security and stability of building block.
Description
Technical field
The utility model relates to build correlative technology field, specifically a kind of building heat preservation blocks.
Background technique
Building block is to utilize concrete, artificial bulk made of industrial waste (clinker, flyash etc.) or local material, shape
Size is bigger than brick, has equipment simple, builds fireballing advantage, has met wall reform in building industrialization development and has wanted
It asks.
Building block can be divided into solid block and building-block by face shaping.Hollow rate is less than 25% or imperforate building block
For solid block;Building block of the hollow rate more than or equal to 25% is building-block.Building-block have single square hole, single circular hole and
Three kinds of multiple rows of flat hole form, wherein multiple rows of flat hole is advantageous to keeping the temperature.It can be divided by position of the building block in group block with effect
Main building block and various auxiliary block of concrete.
According to material difference, common building block has normal concrete and architectural concrete small-sized hollow building block, light-weight aggregate mixed
Solidifying soil small-sized hollow building block, fly ash small hollow block, autoclave aerated concrete building block, steaming-free air-adding concrete segment are (again
Claim environment friendly lightweight concrete building block) and gypsum block.The biggish building block of water absorption rate cannot be used for soaking for a long time, often be handed over by dry and wet
It replaces or the construction site of Frozen-thawed cycled.
But traditional building block is in actual use, when being collided by uncontrollable external force factor, it is easy to
There is heat preservation core plate and position not firm problem, after adjacent two building blocks splicing, is easy to be detached between building block, it is whole
Body security and stability cannot ensure, influence long-time stable effect, and moreover, the waterproofness of traditional building block is equally poor,
The lost of life is serious, these problems all limit building block using safe, need to carry out the improvement in structure.
Utility model content
The purpose of this utility model is to provide a kind of building heat preservation blocks, to solve mentioned above in the background art ask
Topic.
To achieve the above object, the utility model provides the following technical solutions:
A kind of building heat preservation blocks, including block body are in a horizontal state at the block medium position of the block body
Center grouting chamber is offered, at the block upper position of the block body and block lower position is respectively arranged with heat preservation
Plate accommodation groove and lower insulation board accommodation groove are provided with heat preservation core plate, the lower guarantor in the vallecular cavity of the upper insulation board accommodation groove
Lower heat preservation core plate is provided in the vallecular cavity of warm plate accommodation groove, the plate body thickness of the upper heat preservation core plate is less than upper insulation board accommodation groove
Vallecular cavity depth and the plate body thickness of the lower heat preservation core plate be less than the vallecular cavity depth of lower insulation board accommodation groove, center grouting
Distinguish between the upper chamber of chamber and upper insulation board accommodation groove, between the lower chamber and lower insulation board accommodation groove of center grouting chamber
It leads slurry hole by several connections that interval same distance is evenly arranged to be interconnected together, the vestibule in slurry hole is led in the connection
Adaptation is fixedly installed internal screw thread positioning sleeve in interior sidewall surface, and adaptation is provided with external screw thread in the mantle cavity of each internal screw thread positioning sleeve
The cylinder section of rotating cylinder, the external screw thread rotating cylinder is set as T-shape and cylinder is set as hollow perforation form, described outer
Multiple plasma discharge apertures, the block body are uniformly provided with also along circumferencial direction on barrel at the bottom position of screw thread rotation cylinder
Block top end face and bottom end end face on also offer a waterproof layer accommodation groove respectively inwards, the waterproof layer accommodation groove
Adaptation is provided with waterproof mortar course in vallecular cavity, and the block left end end top position of the block body and bottom position are also divided
It is not outward extended with grafting convex block, the block right end end face of the block body corresponds on the same horizontal line line of grafting convex block
Grafting groove is inwardly offered, the vallecular cavity horizontal depth of the grafting groove is greater than the block horizontal length of grafting convex block, adjacent
Formation slurry spatia between grafting groove and grafting convex block after two block body splicings, the side of the slurry spatia,
Also perforation is provided with slip casting aperture on the block of corresponding block body.
As a further solution of the present invention: the upper insulation board accommodation groove, lower insulation board accommodation groove and center fill
It is arranged in parallel between any two to starch chamber.
The vertical section cylinder circumference external screw thread shape of the external screw thread rotating cylinder as a further solution of the present invention,
The body internal screw thread form of shape and internal screw thread positioning sleeve is mutually adapted.
The vertical section barrel lenght of the external screw thread rotating cylinder is greater than interior spiral shell as a further solution of the present invention,
The set body length of line positioning sleeve.
Added between the waterproof mortar course and block body by several as a further solution of the present invention,
Strengthening tendons are mutually permanently connected together.
Compared with prior art, the utility model has the beneficial effects that the utility model passes through to traditional fixed form
Insulation board accommodation groove and heat preservation core plate improve, and when actually carrying out the walling of insulation blocks, upper heat preservation core plate correspondence is put
Set in upper insulation board accommodation groove and after lower heat preservation core plate is correspondingly placed in lower insulation board accommodation groove, by external screw thread rotating cylinder into
The slow rotation process of row, since the external screw thread shape of external screw thread rotating cylinder and the internal screw thread form of internal screw thread positioning sleeve are mutually adapted
And internal screw thread positioning sleeve adaptation is fixed at connection and leads in the vestibule interior sidewall surface in slurry hole, postrotational external screw thread rotating cylinder bottom
End can act directly in heat preservation core plate and lower heat preservation core plate, can just make under the support of outer screw thread rotation cylinder
Upper heat preservation core plate is fixed in insulation board accommodation groove and lower heat preservation core plate is fixed in lower insulation board accommodation groove, later worker's division
Fu injects a large amount of liquid mortar into center grouting chamber, and liquid mortar can rapidly enter in the barrel chamber of external screw thread rotating cylinder,
After at the arrival plasma discharge aperture of barrel chamber channel, since multiple plasma discharge apertures are provided at the bottom position of external screw thread rotating cylinder
On barrel circumferencial direction, liquid mortar at this time can pass through plasma discharge aperture and enter upper insulation board accommodation groove and the accommodating of lower insulation board
It in the residual gap of slot, and then realizes and could quickly fill up operation, all gaps are filled up grouting behind shaft or drift lining operation and stopped, entire operation process letter
Just, heat preservation core plate positions illusive problem to folk prescription in the traditional building block of very good solution, further enhances the safety of building block
Stability;And when two adjacent block bodies carry out splicing build set after, master worker can be from slip casting aperture between slurry
A certain amount of liquid mortar is injected in gap chamber, effectively increases the connective stability between adjacent block, and bonding strength increases
By force, it is real to meet further building trade for the generation for avoiding building block break-off caused by due to uncontrollable external force factor
Border application demand;In addition, improving the waterproof performance of traditional architecture building block by the waterproof mortar course added, it is effectively extended
The practical application service life.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of building heat preservation blocks.
Fig. 2 is that internal screw thread positioning sleeve and external screw thread rotating cylinder are used cooperatively schematic diagram in a kind of building heat preservation blocks.
Fig. 3 is the docking structure schematic diagram of two neighboring building heat preservation blocks.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Please refer to Fig. 1-3, in the utility model embodiment, a kind of building heat preservation blocks, including block body 1, the block
It is in a horizontal state at the block medium position of block body 1 and offers center grouting chamber 2, the block upper bit of the block body 1
The place of setting and block lower position are respectively arranged with insulation board accommodation groove 3 and lower insulation board accommodation groove 5, and the upper insulation board holds
It is arranged in parallel between any two to set slot 3, lower insulation board accommodation groove 5 and center grouting chamber 2, the upper insulation board accommodation groove 3
It is provided with heat preservation core plate 4 in vallecular cavity, lower heat preservation core plate 6, the upper guarantor are provided in the vallecular cavity of the lower insulation board accommodation groove 5
The plate body thickness of vallecular cavity depth and the lower heat preservation core plate 6 that the plate body thickness of warm core plate 4 is less than upper insulation board accommodation groove 3 is less than
The vallecular cavity depth of lower insulation board accommodation groove 5, between the upper chamber and upper insulation board accommodation groove 3 of center grouting chamber 2, center
Several companies being evenly arranged respectively by being spaced same distance between the lower chamber and lower insulation board accommodation groove 5 of grouting chamber 2
Admittance starches hole 7 and is interconnected together, and adaptation in the vestibule interior sidewall surface in slurry hole 7 is led in the connection, and to be fixedly installed internal screw thread fixed
Position covers 8, and adaptation is provided with external screw thread rotating cylinder 9, the cylinder of the external screw thread rotating cylinder 9 in the mantle cavity of each internal screw thread positioning sleeve 8
Body section is set as T-shape and cylinder is set as hollow perforation form, the vertical section barrel lenght of the external screw thread rotating cylinder 9
Greater than the set body length of internal screw thread positioning sleeve 8, the vertical section cylinder circumference external screw thread shape of the external screw thread rotating cylinder 9 and interior spiral shell
The body internal screw thread form of line positioning sleeve 8 is mutually adapted, also along circle on barrel at the bottom position of the external screw thread rotating cylinder 9
Circumferential direction is uniformly provided with multiple plasma discharge apertures 10, passes through the insulation board accommodation groove and heat preservation core plate to traditional fixed form in this way
It improves, when actually carrying out the walling of insulation blocks, upper heat preservation core plate 4 is correspondingly placed in upper insulation board accommodation groove 3
And after lower heat preservation core plate 6 is correspondingly placed in lower insulation board accommodation groove 5, external screw thread rotating cylinder 9 is subjected to slow rotation process, by
It is mutually adapted and internal screw thread positioning sleeve 8 in the external screw thread shape of external screw thread rotating cylinder 9 and the internal screw thread form of internal screw thread positioning sleeve 8
Adaptation is fixed at connection and leads in the vestibule interior sidewall surface in slurry hole 7, and postrotational 9 bottom end of external screw thread rotating cylinder can directly be made
With in upper heat preservation core plate 4 and lower heat preservation core plate 6, upper heat preservation core can be just made under the support of outer screw thread rotation cylinder 9
Plate 4 is fixed in insulation board accommodation groove 3 and lower heat preservation core plate 6 is fixed in lower insulation board accommodation groove 5, later master worker to
A large amount of liquid mortar is injected in center grouting chamber 2, liquid mortar can rapidly enter in the barrel chamber of external screw thread rotating cylinder 9, suitable
Barrel chamber channel arrive at plasma discharge aperture 10 at after, due to multiple plasma discharge apertures 10 be provided with external screw thread rotating cylinder 9 bottom end position
It sets on place's barrel circumferencial direction, liquid mortar at this time can pass through plasma discharge aperture 10 and enter upper insulation board accommodation groove 3 and lower guarantor
It in the residual gap of warm plate accommodation groove 5, and then realizes and could quickly fill up operation, all gaps are filled up grouting behind shaft or drift lining operation and stopped, entirely
Operating process is simple and convenient, and heat preservation core plate positions illusive problem in the traditional building block of very good solution, further enhances
The security and stability of building block.
A waterproof layer accommodating is also offered on the block top end face and bottom end end face of the block body 1 respectively inwards
Slot, adaptation is provided with waterproof mortar course 11, the waterproof mortar course 11 and block body 1 in the vallecular cavity of the waterproof layer accommodation groove
Between be mutually permanently connected together by several reinforcing ribs 12, traditional architecture is improved by the waterproof mortar course 11 added
The waterproof performance of building block effectively extends its practical application life.
It is convex that the block left end end top position of the block body 1 and bottom position are also outward extended with grafting respectively
Block 15, the block right end end face of the block body 1, corresponding grafting convex block 15 same horizontal line line on inwardly offer grafting
Groove 13, the vallecular cavity horizontal depth of the grafting groove 13 are greater than the block horizontal length of grafting convex block 15, two neighboring building block
Formation slurry spatia 16 between grafting groove 13 and grafting convex block 15 after the splicing of ontology 1, the side of the slurry spatia 16,
Also perforation is provided with slip casting aperture 14 on the block of corresponding block body 1, in this way when two adjacent block bodies 1 are spliced
It builds after setting, master worker can inject a certain amount of liquid mortar into slurry spatia 16 from slip casting aperture 14, effectively improve
Connective stability between adjacent block, bonding strength greatly enhance, and avoid block caused by due to uncontrollable external force factor
The generation of block break-off meets further building trade practical application request.
Above-described is only the embodiments of the present invention, the common sense such as well known specific structure and/or characteristic in scheme
It does not describe excessively herein.It should be pointed out that for those skilled in the art, before not departing from the utility model structure
It puts, several modifications and improvements can also be made, these also should be considered as the protection scope of the utility model, these all will not shadow
Ring effect and patent practicability that the utility model is implemented.This application claims protection scope should be in its claim
Subject to appearance, the records such as specific embodiment in specification can be used for explaining the content of claim.
Claims (5)
1. a kind of building heat preservation blocks, including block body (1), which is characterized in that position in the block of the block body (1)
The place of setting, which is in a horizontal state, offers center grouting chamber (2), at the block upper position of the block body (1) and block lower portion
The place of setting is respectively arranged with insulation board accommodation groove (3) and lower insulation board accommodation groove (5), the slot of the upper insulation board accommodation groove (3)
It is provided in chamber heat preservation core plate (4), is provided with lower heat preservation core plate (6) in the vallecular cavity of the lower insulation board accommodation groove (5), it is described
The plate body thickness of upper heat preservation core plate (4) is less than the vallecular cavity depth of upper insulation board accommodation groove (3) and the plate of the lower heat preservation core plate (6)
Body thickness is less than the vallecular cavity depth of lower insulation board accommodation groove (5), and the upper chamber of center grouting chamber (2) and upper insulation board hold
Set between slot (3), pass through respectively between the lower chamber and lower insulation board accommodation groove (5) of center grouting chamber (2) interval it is identical away from
It leads slurry hole (7) from several connections being evenly arranged to be interconnected together, the vestibule interior sidewall surface of slurry hole (7) is led in the connection
Upper adaptation is fixedly installed internal screw thread positioning sleeve (8), and adaptation is provided with external screw thread rotation in the mantle cavity of each internal screw thread positioning sleeve (8)
The cylinder section of rotating cylinder (9), the external screw thread rotating cylinder (9) is set as T-shape and cylinder is set as hollow perforation form, institute
It states and is uniformly provided with multiple plasma discharge apertures (10) also along circumferencial direction on barrel at the bottom position of external screw thread rotating cylinder (9),
A waterproof layer accommodation groove, institute are also offered respectively inwards on the block top end face and bottom end end face of the block body (1)
It states adaptation in the vallecular cavity of waterproof layer accommodation groove to be provided with waterproof mortar course (11), the block left end end face of the block body (1)
Top position and bottom position are also outward extended with grafting convex block (15) respectively, the block right end end of the block body (1)
Face, corresponding grafting convex block (15) same horizontal line line on inwardly offer grafting groove (13), the grafting groove (13)
Vallecular cavity horizontal depth is greater than the block horizontal length of grafting convex block (15), grafting groove after two neighboring block body (1) splicing
(13) slurry spatia (16) are formed between grafting convex block (15), the side of the slurry spatia (16), corresponding building block sheet
Also perforation is provided with slip casting aperture (14) on the block of body (1).
2. a kind of building heat preservation blocks according to claim 1, which is characterized in that the upper insulation board accommodation groove (3), under
Insulation board accommodation groove (5) and center grouting chamber (2) are arranged in parallel between any two.
3. a kind of building heat preservation blocks according to claim 1, which is characterized in that the external screw thread rotating cylinder (9) is erected
Straight section cylinder circumference external screw thread shape and the body internal screw thread form of internal screw thread positioning sleeve (8) are mutually adapted.
4. a kind of building heat preservation blocks according to claim 3, which is characterized in that the external screw thread rotating cylinder (9) is erected
Straight section barrel lenght is greater than the set body length of internal screw thread positioning sleeve (8).
5. a kind of building heat preservation blocks according to claim 1, which is characterized in that the waterproof mortar course (11) and building block
It is mutually permanently connected together between ontology (1) by several reinforcing ribs (12).
Priority Applications (1)
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CN201820368461.8U CN208293881U (en) | 2018-03-19 | 2018-03-19 | A kind of building heat preservation blocks |
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CN201820368461.8U CN208293881U (en) | 2018-03-19 | 2018-03-19 | A kind of building heat preservation blocks |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110284648A (en) * | 2019-05-22 | 2019-09-27 | 上海港城建筑安装工程有限公司 | A kind of high-strength assembly building block of self-heat conserving |
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- 2018-03-19 CN CN201820368461.8U patent/CN208293881U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN110284648A (en) * | 2019-05-22 | 2019-09-27 | 上海港城建筑安装工程有限公司 | A kind of high-strength assembly building block of self-heat conserving |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
TR01 | Transfer of patent right |
Effective date of registration: 20190417 Address after: 052300 East Zhangkou Village, Tianjiazhuang Township, Xinji City, Shijiazhuang City, Hebei Province Patentee after: Hebei Meimei Innovative Materials Technology Co., Ltd. Address before: 272000 No. eleven, east two unit, building 10, Chengyang manor community, Rencheng District, Jining, Shandong, China. Patentee before: Jining Ze Ze Mdt InfoTech Ltd |
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TR01 | Transfer of patent right |