CN105484406B

CN105484406B - A kind of adsorptive heat-storage diaphragm structure and preparation method thereof

Info

Publication number: CN105484406B
Application number: CN201610032161.8A
Authority: CN
Inventors: 梁夏; 许妙娜; 温佩嘉
Original assignee: Individual
Current assignee: Beijing Dingtaiheng Construction Co ltd
Priority date: 2016-01-19
Filing date: 2016-01-19
Publication date: 2017-07-28
Anticipated expiration: 2036-01-19
Also published as: CN105484406A

Abstract

The invention discloses a kind of adsorptive heat-storage diaphragm structure and preparation method thereof, including keel structure and the wear-resisting heat-conducting layer being arranged on keel structure upper and lower end face, the keel structure includes left keel and right keel, the right keel side is provided with support beam in the left keel, fixing groove is provided with the middle part of the right keel, the support beam is embedded on the inside of the fixing groove, above and below the support beam stand bar structure is being respectively arranged with the end face of both sides, the stand bar structure is Y-shaped, described stand bar structure one end is fixedly connected on the support beam upper and lower ends madial wall, its other end is fitted on two side walls opposite on the inside of the fixing groove, the present invention is by using the keel structure being mutually spliced to form, integrally-built anti-seismic performance can be improved, it is set not allow easy fracture under external force, absorbing and storing is carried out to indoor heat using adsorptive heat-storage material simultaneously, discharged when needed, it can realize that the collection of heat is neutralized to recycle, avoid wasting.

Description

A kind of adsorptive heat-storage diaphragm structure and preparation method thereof

Technical field

The present invention relates to a kind of adsorptive heat-storage diaphragm structure and its installation method.

Background technology

Floor construction generally uses concrete integrated cast structure, internally sets reinforced bar support structure, without heat accumulation function, When being acted on by external force, without the effect buffered to external force, it is easily broken off, indoor heat is easily by floor construction Transmitted, cause heat to scatter and disappear.

The content of the invention

It is an object of the invention to provide a kind of adsorptive heat-storage diaphragm structure and its installation method, prior art can be improved The problem of existing, by using the keel structure being mutually spliced to form, it is possible to increase integrally-built anti-seismic performance, makes it outside Do not allow easy fracture under power effect, while carrying out absorbing and storing to indoor heat using adsorptive heat-storage material, released when needed Put, can realize that the collection of heat is neutralized and recycle, it is to avoid waste.

The present invention is achieved through the following technical solutions：

A kind of adsorptive heat-storage diaphragm structure, including keel structure and the wear-resisting heat conduction that is arranged on keel structure upper and lower end face Rotating fields, described keel structure includes left keel and right keel, is set in described left keel towards described right keel side Support beam is equipped with, fixing groove is provided with the middle part of described right keel, described support beam is embedded on the inside of described fixing groove, Stand bar structure, Y-shaped, the described leg of described stand bar structure are being respectively arranged with above and below described support beam on the end face of both sides Structure one end is fixedly connected on described support beam upper and lower ends madial wall, and its other end is fitted on the inside of described fixing groove On two opposite side walls, right side wearing plate is being respectively arranged with above and below described right keel on the outer wall of both sides, on the described right side Keel are provided with Access Division close to described left keel side, the L-shaped structure in described Access Division, described Access Division with it is described Right keel upper and lower end face between form clamping space, the end face outside of described Access Division to described right keel outboard end The distance in face is equal to the thickness of described right side wearing plate, and a left side is respectively arranged with the end face of both sides up and down of described left keel Side wearing plate, described left side wearing plate is provided with step trough close to described right keel one end, and the step trough can be embedded in institute In the clamping space stated, the thickness of described left side wearing plate is equal to the thickness of described right side wearing plate, described step trough The packed layer being made with described Access Division between opposite end face filled with diatom ooze, in the both sides up and down of described left keel T-shaped groove is respectively arranged with end face, sliding block, described sliding block energy are provided with described left side wearing plate lower surface Enough to be slided along described groove, described right side wearing plate is bonded in by high temperature resistant binder on described right keel, institute The left keel stated are provided with half groove away from the described middle side part of right keel one, and half described groove side is provided with fixation Plate, described fixed plate is T-shaped, and described fixed plate one end is embedded on the inside of half described groove, and described fixed plate is another End is connected on the outside of half described groove and described fixed plate upper and lower end face and described left side wearing plate end face outside are contour, The recuperation layer that adsorptive heat-storage material is made is provided with the middle part of described left side wearing plate and described right side wearing plate.

Further, it is hollow structure to be better achieved on the inside of the present invention, described left keel, in described left keel It is internally provided with reinforcement.

Further, for the present invention is better achieved, described left side wearing plate and described right side wearing plate are stone Black plate is made.

Further, for the present invention is better achieved, described stand bar structure is provided with bending away from described support beam Portion, plane where described kink is parallel to each other with both sides end face above and below described support beam, and described kink is away from institute The side end face of support beam one stated is fitted on two side walls opposite on the inside of described fixing groove.

Further, for the present invention is better achieved, the invention also discloses a kind of installation of adsorptive heat-storage diaphragm structure Method, comprises the following steps：

S1：Support beam on left keel is embedded into the fixing groove in the middle part of right keel, left keel and right keel are adjusted Relative position, determines the depth of support beam insertion；

S2：Right side wearing plate is installed, high temperature resistant binder is being coated on the end face of both sides above and below right keel, by right side wearing plate It is bonded on high temperature resistant binder, treats that its solidification is stable；

S3：Access Division is installed, L-shaped Access Division is welded on right keel, makes to be formed between Access Division and right keel Clamping space；

S4：Left side wearing plate is installed, the sliding block on the wearing plate of left side is embedded on left keel along groove length direction On end face, left side wearing plate is provided with step trough side and is embedded in the clamping space formed between Access Division and right keel, Left side wearing plate is set to be relatively fixed by Access Division on left keel；

S5：Diatom ooze is filled, diatom ooze is filled in Access Division away from the opposite end face in described right side wearing plate one end Form packed layer on opposite end face with step trough, diatom ooze is filled up completely with cavity structure, until packed layer end face outside with Left side wearing plate end face outside is contour；

S6：Mounting plate, makes left side wearing plate away from right side wearing plate one end and left keel away from right keel one end end Face is flushed, and fixed plate T-shaped structure lower end is embedded into half groove, fixed plate is fitted on the side wall of left keel.

The present invention compared with prior art, has the advantages that：

The present invention constitutes wear-resisting heat-conducting layer by left side wearing plate and right side wear-resisting plate structure, it is made as heat-conducting medium With while wear-resisting heat-conducting layer can be made using ceramics, graphite cake or other structures, can having wear-resisting thermal conductivity Energy, while the present invention inside left side wearing plate and right side wearing plate by setting adsorptive heat-storage material, can be indoors When heat is higher, absorbing and storing is carried out to heat, discharged again when needed, it is possible to increase the utilization ratio of indoor airflow, The wasting of resources is avoided, while being defined using the left side wearing plate that can be slided relatively, and using fixed plate to its position, energy Good stability is enough made it have, meanwhile, more convenient to install, storage and transport also more facilitate；The present invention by using Two the left keel and right keel structure that mutually splice, while playing support integrally-built effect, can be played to vertical Direction and horizontal direction active force enter the effect of row buffering, so that with more preferable antihunt action, while being realized using Access Division Left side wearing plate and right side wearing plate are mounted opposite, the height structure such as keep both, so that whole diaphragm structure outward appearance It is more attractive in appearance, using the moisture sorption effect of diatom ooze, realize the effect improved to room air.

Brief description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be attached to what is used required in embodiment Figure is briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, therefore is not construed as pair The restriction of scope, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to this A little accompanying drawings obtain other related accompanying drawings.

Fig. 1 is overall structure diagram of the present invention.

Wherein：101. left keel, 102. right keel, 103. support beams, 104. fixing grooves, 105. stand bar structure, 106. is right Side wearing plate, 107. Access Divisions, 108. left side wearing plates, 109. reinforcements, 110. sliding blocks, 11. kinks, 112. packed layers, 113. clamping space, 114. half grooves, 115. fixed plates, 116. recuperation layers.

Embodiment

The present invention is described in further detail with reference to specific embodiment, but embodiments of the present invention are not limited to This.

Embodiment 1：

As shown in figure 1, a kind of adsorptive heat-storage diaphragm structure, including keel structure and it is arranged on keel structure upper and lower end face Wear-resisting heat-conducting layer, described keel structure includes left keel 101 and right keel 102, described left keel 101 towards The described side of right keel 102 is provided with support beam 103, and the described middle part of right keel 102 is provided with fixing groove 104, described Support beam 103 be embedded in the described inner side of fixing groove 104, set respectively on the end face of both sides about 103 in described support beam There is stand bar structure 105, described stand bar structure 105 is Y-shaped, described one end of stand bar structure 105 is fixedly connected on described branch Support on the upper and lower ends madial wall of beam 103, its other end is fitted on two opposite side walls of the described inner side of fixing groove 104, Described right keel are respectively arranged with right side wearing plate 106 on the outer wall of both sides about 102, in described right keel 102 close to institute The side of left keel 101 stated is provided with Access Division 107, the described L-shaped structure in Access Division 107, described Access Division 107 and institute Form clamping space 113 between the upper and lower end face for the right keel 102 stated, the end face outside of described Access Division 107 is to described The distance of the right end face outside of keel 102 is equal to the thickness of described right side wearing plate 106, in described left keel about 101 Left side wearing plate 108 is respectively arranged with the end face of both sides, described left side wearing plate 108 is close to described one end of right keel 102 Step trough is provided with, the step trough can be embedded in described clamping space 113, described thickness of left side wearing plate 108 etc. In the thickness of described right side wearing plate 106, it is filled between the opposite end face of described step trough and described Access Division 107 The packed layer 112 that diatom ooze is made, T-shaped groove is respectively arranged with the end face of both sides up and down of described left keel 101, Sliding block 110 is provided with the described lower surface of left side wearing plate 108, described sliding block 110 can be slided along described groove Dynamic, described right side wearing plate 106 is bonded in by high temperature resistant binder on described right keel 102, described left keel 101 The described middle side part of right keel 102 1 is provided with half groove 114, the described side of half groove 114 is provided with fixed plate 115, described fixed plate 115 is T-shaped, and described one end of fixed plate 115 is embedded in the described inner side of half groove 114, described The other end of fixed plate 115 is connected to the described outside of half groove 114 and the described upper and lower end face of fixed plate 115 and described left side The end face outside of wearing plate 108 is contour, and described left side wearing plate 108 and the described middle part of right side wearing plate 106 are provided with suction The recuperation layer 116 that attached heat-storing material is made.

The present invention constitutes wear-resisting heat-conducting layer by left side wearing plate and right side wear-resisting plate structure, it is made as heat-conducting medium With while wear-resisting heat-conducting layer can be made using ceramics, graphite cake or other structures, can having wear-resisting thermal conductivity Energy, while the present invention inside left side wearing plate and right side wearing plate by setting adsorptive heat-storage material, can be indoors When heat is higher, absorbing and storing is carried out to heat, discharged again when needed, it is possible to increase the utilization ratio of indoor airflow, The wasting of resources is avoided, while being defined using the left side wearing plate that can be slided relatively, and using fixed plate to its position, energy Good stability is enough made it have, meanwhile, more convenient to install, storage and transport also more facilitate；By horizontal direction During active force, left side wearing plate can be slided along groove, it is to avoid rigid shock is produced between Access Division and causes to damage.Pass through Left keel and right keel are set, support beam is embedded in fixing groove, the interconnection between left keel and right keel is realized, By stand bar structure, make that deformation will not be produced under vertical direction active force between support beam and fixing groove, tied by Access Division Structure, can realize will realize connection between left side wearing plate and right keel, the present invention uses interface arrangment so that left side wearing plate Realize etc. that height is fixed between the wearing plate of right side, when by vertical direction active force, by left keel and right keel and Stand bar structure realizes the buffering to active force, and when by horizontal direction active force, left side wearing plate can be wear-resisting with respect to right side Plate is moved, and it is not damaged under active force, meanwhile, support beam can also be moved along fixing groove, be realized to active force Buffering, plays anti seismic efficiency.

In order to mitigate the weight of structure, meanwhile, the shock resistance of holding structure, in the present embodiment, it is preferable that described The left inner side of keel 101 is hollow structure, and reinforcement 109 is internally provided with described left keel 101.

In order to improve the anti-wear performance of left side wearing plate and right side wearing plate, while good thermal conductivity is made it have, this In embodiment, it is preferable that described left side wearing plate 108 and described right side wearing plate 106 are that graphite cake is made.

In order to increase the contact area between stand bar structure and fixing groove, make structure between left keel and right keel more steady It is fixed, in the present embodiment, it is preferable that described stand bar structure 105 is provided with kink 111 away from described support beam 103, described The place plane of kink 111 and described support beam about 103 both sides end face be parallel to each other, described kink 111 is remote The described side end face of support beam 103 1 is fitted on two opposite side walls of the described inner side of fixing groove 104.

Embodiment 2：

The present embodiment is on the basis of embodiment 1, and the invention also discloses a kind of installation side of adsorptive heat-storage diaphragm structure Method, comprises the following steps：

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.Within the spirit and principles of the invention, that is made any repaiies Change, equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims

1. a kind of adsorptive heat-storage diaphragm structure, including keel structure and the wear-resisting heat-conducting layer that is arranged on keel structure upper and lower end face Structure, it is characterised in that：Described keel structure includes left keel (101) and right keel (102), in described left keel (101) described right keel (102) side is provided with support beam (103), be provided with the middle part of described right keel (102) Fixing groove (104), described support beam (103) is embedded on the inside of described fixing groove (104), in described support beam (103) Stand bar structure (105), Y-shaped, the described stand bar structure of described stand bar structure (105) are respectively arranged with the end face of both sides up and down (105) one end is fixedly connected on described support beam (103) upper and lower ends madial wall, and its other end is fitted in described fixation On the inside of groove (104) on two opposite side walls, being respectively arranged with above and below described right keel (102) on the outer wall of both sides, right side is resistance to Nog plate (106), Access Division (107) is provided with described right keel (102) close to described left keel (101) side, described Access Division (107) L-shaped structure, formed between described Access Division (107) and the upper and lower end face of described right keel (102) Clamping space (113), end face outside of described Access Division (107) to the described distance of right keel (102) end face outside etc. In the thickness of described right side wearing plate (106), a left side is respectively arranged with the end face of both sides up and down of described left keel (101) Side wearing plate (108), described left side wearing plate (108) is provided with step trough close to described right keel (102) one end, the rank Terraced groove can be embedded in described clamping space (113), and the thickness of described left side wearing plate (108) is resistance to equal to described right side It is made between the thickness of nog plate (106), the opposite end face of described step trough and described Access Division (107) filled with diatom ooze Packed layer (112), T-shaped groove is respectively arranged with the end face of both sides up and down of described left keel (101), described Left side wearing plate (108) lower surface on be provided with sliding block (110), described sliding block (110) can be slided along described groove Dynamic, described right side wearing plate (106) is bonded in by high temperature resistant binder on described right keel (102), described left dragon Bone (101) is provided with half groove (114) away from the described middle side part of right keel (102) one, in described half groove (114) side Fixed plate (115) is provided with, described fixed plate (115) is T-shaped, described fixed plate (115) one end is embedded in described half On the inside of groove (114), described fixed plate (115) other end is connected on the outside of described half groove (114) and described fixation Plate (115) upper and lower end face and described left side wearing plate (108) end face outside are contour, in described left side wearing plate (108) and The recuperation layer (116) that adsorptive heat-storage material is made is provided with the middle part of described right side wearing plate (106)；Described stand bar structure (105) described support beam (103) is provided with kink (111), plane where described kink (111) with it is described Both sides end face is parallel to each other support beam (103) up and down, and described kink (111) is away from the described side of support beam (103) one Face is fitted on two side walls opposite on the inside of described fixing groove (104).

2. a kind of adsorptive heat-storage diaphragm structure according to claim 1, it is characterised in that：In described left keel (101) Side is hollow structure, and reinforcement (109) is internally provided with described left keel (101).

3. a kind of adsorptive heat-storage diaphragm structure according to claim 1, it is characterised in that：Described left side wearing plate And described right side wearing plate (106) is that graphite cake is made (108).

4. a kind of preparation method of adsorptive heat-storage diaphragm structure as claimed in claim 1, it is characterised in that：Including following step Suddenly：

S1：Support beam on left keel is embedded into the fixing groove in the middle part of right keel, the relative of left keel and right keel is adjusted Position, determines the depth of support beam insertion；

S2：Right side wearing plate is installed, high temperature resistant binder is being coated on the end face of both sides above and below right keel, right side wearing plate is bonded On high temperature resistant binder, treat that its solidification is stable；

S3：Access Division is installed, L-shaped Access Division is welded on right keel, makes to form clamping between Access Division and right keel Space；

S4：Left side wearing plate is installed, the sliding block on the wearing plate of left side is embedded in left keel upper surface along groove length direction On, left side wearing plate is provided with step trough side and is embedded in the clamping space formed between Access Division and right keel, makes a left side Side wearing plate is relatively fixed on left keel by Access Division；

S5：Diatom ooze is filled, diatom ooze is filled in Access Division away from the opposite end face in described right side wearing plate one end and rank Packed layer is formed on the opposite end face of terraced groove, diatom ooze is filled up completely with cavity structure, until packed layer end face outside and left side Wearing plate end face outside is contour；

S6：Mounting plate, makes left side wearing plate neat away from right keel one end end face with left keel away from right side wearing plate one end It is flat, fixed plate T-shaped structure lower end is embedded into half groove, fixed plate is fitted on the side wall of left keel.