CN205369634U

CN205369634U - Adsorb heat accumulation diaphragm structure

Info

Publication number: CN205369634U
Application number: CN201620047723.1U
Authority: CN
Inventors: 吴倩倩
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-01-19
Filing date: 2016-01-19
Publication date: 2016-07-06
Anticipated expiration: 2026-01-19

Abstract

The utility model discloses an adsorb heat accumulation diaphragm structure, including keel structure and setting wear -resisting heat -conducting layer structure on the terminal surface about keel structure, keel structure includes left fossil fragments and right keel a left side fossil fragments towards right keel one side is provided with props up a supporting beam the right keel middle part is provided with the fixed slot, it is in to prop up the supporting beam embedding the fixed slot is inboard be provided with the stabilizer blade structure about the supporting beam on the terminal surface of both sides respectively, the stabilizer blade structure is Y shape, stabilizer blade structure one end fixed connection be in on propping up the upper and lower both ends of supporting beam inside wall, its other end laminating is in on two lateral walls in opposite directions of fixed slot inboard, the utility model discloses a keel structure who adopts concatenation each other to form can improve overall structure's anti -seismic performance, makes its be difficult to the fracture under the exogenic action, adopts simultaneously to adsorb heat storage materials and adsorb the storage to indoor heat, releases when needs, can realize thermally concentrating and recycling, avoids extravagant.

Description

A kind of adsorptive heat-storage diaphragm structure

Technical field

The present invention relates to a kind of adsorptive heat-storage diaphragm structure.

Background technology

Floor construction generally adopts concrete cast structure, arranges reinforced bar support structure in inside, does not have heat accumulation function, when being subject to External Force Acting, not there is the effect that external force is cushioned, it is easy to fracture, indoor heat transmits easily by floor construction, causes heat loss.

Summary of the invention

It is an object of the invention to provide a kind of adsorptive heat-storage diaphragm structure and installation method thereof, prior art Problems existing can be improved, by adopting the keel structure being mutually spliced to form, integrally-built anti-seismic performance can be improved, make it be not easy fracture under external force, adopt adsorptive heat-storage material that indoor heat is carried out absorbing and storing simultaneously, discharge when needed, it is capable of concentration and the recycling of heat, it is to avoid waste.

The present invention is achieved through the following technical solutions:

nullA kind of adsorptive heat-storage diaphragm structure，Including keel structure and be arranged on the wear-resisting heat-conducting layer on keel structure upper and lower end face，Described keel structure includes left Os Draconis and right Os Draconis，At described left Os Draconis, described right Os Draconis side is provided with support beam，It is provided with fixing groove in the middle part of described right Os Draconis，The described beam that supports is embedded in inside described fixing groove，Described support beam upper and lower both sides end face is respectively arranged with stand bar structure，Described stand bar structure is Y-shaped，Described stand bar structure one end is fixedly connected on described medial wall, support beam upper and lower two ends，Its other end is fitted in inside described fixing groove on two sidewalls in opposite directions，Described right Os Draconis upper and lower both sides outer wall is respectively arranged with right side wearing plate，At described right Os Draconis, described left Os Draconis side is provided with Access Division，The L-shaped structure in described Access Division，Clamping space is formed between the upper and lower end face of described Access Division and described right Os Draconis，The end face outside of described Access Division to the distance of described right Os Draconis end face outside equal to the thickness of described right side wearing plate，The end face of both sides up and down of described left Os Draconis is respectively arranged with left side wearing plate，Described left side wearing plate is provided with step trough near described right Os Draconis one end，This step trough can be embedded in described clamping space，The thickness of described left side wearing plate is equal to the thickness of described right side wearing plate，It is filled with, between described step trough and described Access Division end face in opposite directions, the packed layer that diatom ooze is made，The end face of both sides up and down of described left Os Draconis is respectively arranged with T-shaped groove，Described wearing plate lower surface, left side is provided with slide block，Described slide block can slide along described groove，Described right side wearing plate is bonded on described right Os Draconis by high temperature resistant binder，Described left Os Draconis are provided with half groove away from described right Os Draconis one middle side part，Half described groove side is provided with fixing plate，Described fixing plate is T-shaped，Described fixing plate one end is embedded in inside half described groove，The described fixing plate other end is connected to outside half described groove and described fixing plate upper and lower end face is contour with described left side wearing plate end face outside，It is provided with, in the middle part of described left side wearing plate and described right side wearing plate, the recuperation layer that adsorptive heat-storage material is made.

Further, for realizing the present invention better, it is hollow structure inside described left Os Draconis, is internally provided with reinforcement at described left Os Draconis.

Further, for realizing the present invention better, described left side wearing plate and described right side wearing plate are graphite cake and make.

Further, for realizing the present invention better, described stand bar structure is provided with kink away from described support beam, described kink place plane and described support beam upper and lower both sides end face are parallel to each other, and described kink supports on two sidewalls that beam one side end face is fitted in inside described fixing groove in opposite directions away from described.

Further, for realizing the present invention better, the invention also discloses the installation method of a kind of adsorptive heat-storage diaphragm structure, comprise the following steps:

S1: the beam that supports on left Os Draconis is embedded in the fixing groove in the middle part of right Os Draconis, regulates left Os Draconis and the relative position of right Os Draconis, it is determined that support the degree of depth that beam embeds；

S2: install right side wearing plate, is coated with high temperature resistant binder on the end face of right Os Draconis upper and lower both sides, is bonded on high temperature resistant binder by right side wearing plate, treats that it solidifies stable；

S3: install Access Division, be welded on right Os Draconis L-shaped Access Division, makes formation clamping space between Access Division and right Os Draconis；

S4: install left side wearing plate, along groove length direction, the slide block on the wearing plate of left side is embedded on left Os Draconis upper surface, left side wearing plate is provided with step trough side and is embedded between Access Division and right Os Draconis in the clamping space of formation, make left side wearing plate be relatively fixed on left Os Draconis by Access Division；

S5: fill diatom ooze, diatom ooze is filled in Access Division and forms packed layer away from described wearing plate one end, right side end face in opposite directions and step trough end face in opposite directions, diatom ooze is made to be filled up completely with cavity structure, until packed layer end face outside is contour with left side wearing plate end face outside；

S6: mounting plate, makes left side wearing plate away from wearing plate one end, right side and left Os Draconis away from right Os Draconis one end end face, is embedded in half groove fixing plate T-shaped structure lower end, makes fixing plate be fitted on the sidewall of left Os Draconis.

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 to use as heat-conducting medium, pottery can be adopted simultaneously, graphite cake or other structures make wear-resisting heat-conducting layer, can have wear-resisting heat conductivility, the present invention by arranging adsorptive heat-storage material inside left side wearing plate and right side wearing plate simultaneously, can when indoor heat be higher, heat is carried out absorbing and storing, discharge again when needed, the utilization ratio of indoor airflow can be improved, avoid the wasting of resources, adopt can the left side wearing plate of relative sliding simultaneously, and adopt fixing plate that its position is defined, good stability can be made it have, simultaneously, more convenient to install, storage and transport are also convenient；The present invention is by adopting the left Os Draconis of two mutual splicings and right keel structure, while playing the integrally-built effect of support, the effect that both vertically and horizontally active force is cushioned can be played, thus having better antihunt action, adopt Access Division to realize left side wearing plate and being mounted opposite of right side wearing plate simultaneously, make the height structures such as both maintenances, so that whole diaphragm structure outward appearance is more attractive in appearance, utilize the moisture sorption effect of diatom ooze, it is achieved the effect that room air is improved.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, the accompanying drawing used required in embodiment will be briefly described below, it is to be understood that, the following drawings illustrate only certain embodiments of the present invention, therefore the restriction to scope it is not construed as, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other relevant accompanying drawings according to these accompanying drawings.

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

Wherein: 101. left Os Draconis, 102. right Os Draconis, 103. support beam, 104. fixing groove, 105. stand bar structure, wearing plate on the right side of in the of 106., 107. Access Division, wearing plate on the left of in the of 108., 109. reinforcements, 110. slide block, 11. kinks, 112. packed layers, 113. clamping space, 114. half groove, 115. fixing plates, 116. recuperation layers.

Detailed description of the invention

Below in conjunction with specific embodiment, the present invention is described in further detail, but embodiments of the present invention are not limited to this.

Embodiment 1:

nullAs shown in Figure 1，A kind of adsorptive heat-storage diaphragm structure，Including keel structure and be arranged on the wear-resisting heat-conducting layer on keel structure upper and lower end face，Described keel structure includes left Os Draconis 101 and right Os Draconis 102，Support beam 103 it is provided with towards described right Os Draconis 102 side at described left Os Draconis 101，Fixing groove 104 it is provided with in the middle part of described right Os Draconis 102，The described beam 103 that supports is embedded in inside described fixing groove 104，Described support beam about 103 both sides end face is respectively arranged with stand bar structure 105，Described stand bar structure 105 is Y-shaped，Described stand bar structure 105 one end is fixedly connected on described medial wall, support beam about 103 two ends，Its other end is fitted in inside described fixing groove 104 on two sidewalls in opposite directions，Described right Os Draconis about 102 both sides outer wall is respectively arranged with right side wearing plate 106，At described right Os Draconis 102, described left Os Draconis 101 side is provided with Access Division 107，The described L-shaped structure in Access Division 107，Clamping space 113 is formed between the upper and lower end face of described Access Division 107 and described right Os Draconis 102，The end face outside of described Access Division 107 to the distance of described right Os Draconis 102 end face outside equal to the thickness of described right side wearing plate 106，The end face of both sides up and down of described left Os Draconis 101 is respectively arranged with left side wearing plate 108，Described left side wearing plate 108 is provided with step trough near described right Os Draconis 102 one end，This step trough can be embedded in described clamping space 113，The thickness of described left side wearing plate 108 is equal to the thickness of described right side wearing plate 106，It is filled with, between described step trough and described Access Division 107 end face in opposite directions, the packed layer 112 that diatom ooze is made，The end face of both sides up and down of described left Os Draconis 101 is respectively arranged with T-shaped groove，Described left side wearing plate 108 lower surface is provided with slide block 110，Described slide block 110 can slide along described groove，Described right side wearing plate 106 is bonded on described right Os Draconis 102 by high temperature resistant binder，Described left Os Draconis 101 are provided with half groove 114 away from described right Os Draconis 102 1 middle side part，Half described groove 114 side is provided with fixing plate 115，Described fixing plate 115 is T-shaped，Described fixing plate 115 one end is embedded in inside half described groove 114，Described fixing plate 115 other end is connected to outside half described groove 114 and described fixing plate 115 upper and lower end face is contour with described left side wearing plate 108 end face outside，It is provided with, in the middle part of described left side wearing plate 108 and described right side wearing plate 106, the recuperation layer 116 that adsorptive heat-storage 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 to use as heat-conducting medium, pottery can be adopted simultaneously, graphite cake or other structures make wear-resisting heat-conducting layer, can have wear-resisting heat conductivility, the present invention by arranging adsorptive heat-storage material inside left side wearing plate and right side wearing plate simultaneously, can when indoor heat be higher, heat is carried out absorbing and storing, discharge again when needed, the utilization ratio of indoor airflow can be improved, avoid the wasting of resources, adopt can the left side wearing plate of relative sliding simultaneously, and adopt fixing plate that its position is defined, good stability can be made it have, simultaneously, more convenient to install, storage and transport are also convenient；When being subject to horizontal direction active force, left side wearing plate can slide along groove, it is to avoid and between Access Division, generation rigid shock causes damage.By arranging left Os Draconis and right Os Draconis, support beam is embedded in fixing groove, realize being connected with each other between left Os Draconis and right Os Draconis, pass through stand bar structure, make between support beam and fixing groove to produce deformation under active force in the vertical direction, by Access Division structure, it is capable of being connected realizing between left side wearing plate with right Os Draconis, the present invention adopts interface arrangment, make realization etc. between left side wearing plate and right side wearing plate highly fixing, when being subject to vertical direction active force, the buffering to active force is realized by left Os Draconis and right Os Draconis and stand bar structure, when being subject to horizontal direction active force, left side wearing plate can move relative to right side wearing plate, make it will not damage under active force, simultaneously, support beam to move along fixing groove, realize the buffering to active force, play anti seismic efficiency.

In order to alleviate the weight of structure, meanwhile, the shock resistance of structure is kept, in the present embodiment, it is preferable that be hollow structure inside described left Os Draconis 101, be internally provided with reinforcement 109 at described left Os Draconis 101.

In order to improve the anti-wear performance of left side wearing plate and right side wearing plate, make it have good heat conductivity, in the present embodiment, it is preferable that described left side wearing plate 108 and described right side wearing plate 106 are graphite cake and make simultaneously.

In order to increase the contact area between stand bar structure and fixing groove, make structure between left Os Draconis and right Os Draconis more stable, in the present embodiment, preferably, described stand bar structure 105 is provided with kink 111 away from described support beam 103, described kink 111 place plane and described support beam 103 about both sides end face are parallel to each other, and described kink 111 is fitted in inside described fixing groove 104 on two sidewalls in opposite directions away from described support beam 103 1 side end face.

Embodiment 2:

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

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, any amendment of making, equivalent replacement, improvement etc., should be included within protection scope of the present invention.

Claims

null1. an adsorptive heat-storage diaphragm structure，Including keel structure and be arranged on the wear-resisting heat-conducting layer on keel structure upper and lower end face，It is characterized in that: described keel structure includes left Os Draconis (101) and right Os Draconis (102)，Support beam (103) it is provided with towards described right Os Draconis (102) side at described left Os Draconis (101)，Described right Os Draconis (102) middle part is provided with fixing groove (104)，Described support beam (103) is embedded in described fixing groove (104) inner side，Described support beam (103) up and down both sides end face are respectively arranged with stand bar structure (105)，Described stand bar structure (105) is Y-shaped，Described stand bar structure (105) one end is fixedly connected on described support beam (103) medial wall, two ends up and down，Its other end is fitted on two sidewalls in opposite directions of described fixing groove (104) inner side，Described right Os Draconis (102) up and down both sides outer wall are respectively arranged with right side wearing plate (106)，At described right Os Draconis (102), described left Os Draconis (101) side is provided with Access Division (107)，Described Access Division (107) L-shaped structure，Clamping space (113) is formed between the upper and lower end face of described Access Division (107) and described right Os Draconis (102)，The end face outside of described Access Division (107) to the distance of described right Os Draconis (102) end face outside equal to the thickness of described right side wearing plate (106)，The end face of both sides up and down of described left Os Draconis (101) is respectively arranged with left side wearing plate (108)，Described left side wearing plate (108) is provided with step trough near described right Os Draconis (102) one end，This step trough can be embedded in described clamping space (113)，The thickness of described left side wearing plate (108) is equal to the thickness of described right side wearing plate (106)，It is filled with, between described step trough and described Access Division (107) end face in opposite directions, the packed layer (112) that diatom ooze is made，The end face of both sides up and down of described left Os Draconis (101) is respectively arranged with T-shaped groove，Described left side wearing plate (108) lower surface is provided with slide block (110)，Described slide block (110) can slide along described groove，Described right side wearing plate (106) is bonded on described right Os Draconis (102) by high temperature resistant binder，Described left Os Draconis (101) are provided with half groove (114) away from described right Os Draconis (102) middle side part，Described half groove (114) side is provided with fixing plate (115)，Described fixing plate (115) is T-shaped，Described fixing plate (115) one end is embedded in described half groove (114) inner side，Described fixing plate (115) other end is connected to described half groove (114) outside and described fixing plate (115) upper and lower end face is contour with described left side wearing plate (108) end face outside，Described left side wearing plate (108) and described right side wearing plate (106) middle part are provided with the recuperation layer (116) that adsorptive heat-storage material is made.
2. a kind of adsorptive heat-storage diaphragm structure according to claim 1, it is characterised in that: described left Os Draconis (101) inner side is hollow structure, is internally provided with reinforcement (109) at described left Os Draconis (101).
3. a kind of adsorptive heat-storage diaphragm structure according to claim 1, it is characterised in that: described left side wearing plate (108) and described right side wearing plate (106) are graphite cake and make.
4. a kind of adsorptive heat-storage diaphragm structure according to claim 1, it is characterized in that: described stand bar structure (105) is provided with kink (111) away from described support beam (103), described kink (111) place plane and described support beam (103) both sides end face up and down is parallel to each other, and described kink (111) is fitted on two sidewalls in opposite directions of described fixing groove (104) inner side away from described support beam (103) side end face.