CN204404879U - The supporting member structure of board-like heat recovery core and support structure assembly thereof - Google Patents

Abstract

The supporting member structure of board-like heat recovery core and a support structure assembly thereof, relate to support structure and the seal construction of board-like heat recovering heat exchanger, particularly heat recovery core; Also relate to the frock structure of unit, this case is by the structure of the supporting member and support body element that provide innovation, form the support structure unit of heat recovery core, in conjunction with the configuration of the potted component improved, better seal construction is provided, in conjunction with the configuration of the support body element in support structure assembly, provide the support structure assembly of more convenient assembling, dismounting, the more effective seal approach preventing air flow shortcircuit is provided.

Description

The supporting member structure of board-like heat recovery core and support structure assembly thereof

Technical field

This case belongs to air-conditioning technical field, relates to support structure and the seal construction of board-like heat recovering heat exchanger, particularly heat recovery core; Also relate to the frock structure of unit, particularly in unit, the frock of normal dismounting parts constructs, as heat recovery core, terminal box etc.

Background technology

Generally known, the operation principle of board-like heat recovering heat exchanger is by heat conduction, leads two strands of air-flows that wet stock separates reverse flow, one is the new wind be commonly called as, another stock is air draft or claims dirty wind, when there is temperature difference or psychrometric difference in both sides, heat or wet transmission will be there is, thus realize energy regenerating.

Close prior art, as published Chinese patent 200420029142.2 1 kinds of heat recovery type fresh air units.

Current problem demanding prompt solution is not only and is better avoided new wind and the mutual seepage of air draft how further, avoids air draft to pollute new wind.Further, being exactly the problem of the efficiency improving frock further: the requirement needing convenient for maintaining for dismounting position as common in heat recovery core, terminal box etc. in recuperation of heat unit, taking what measure to realize more convenient dismounting, is also the problem that the expectation of industry solves.

By the relevant effort of the known industry of prior art.

As published Chinese patent application CN200910221265, it describes a kind of plate-type heat recovery device, this invention comprises angle bead, seal, upper head plate, bottom plate and exchange core body, upper head plate and bottom plate lay respectively at the top and bottom exchanging core body, the number of angle bead and seal is all equal with gap bar, angle bead is positioned on the gap bar of exchange core body, the two ends of angle bead are separately fixed on upper head plate and bottom plate, seal is fixed on and exchanges between core body and angle bead, wherein: exchange core body and be formed by stacking by least two group fins set, the fin that fins set is engaged mutually by two panels corresponding sides is formed by stacking, the tow sides of fin are uniformly distributed with raised line, and the two ends of raised line are semicircle, and with columned boss on raised line, the corresponding boss in two adjacent fins superposes mutually.

And for example, published Chinese patent application application CN201310326871, it describes a kind of seal structure for heat exchanger, comprise strip of paper used for sealing, described strip of paper used for sealing growth strip structure, one sidewall of strip of paper used for sealing has many circular grooves, is positioned on another sidewall of strip of paper used for sealing and top and bottom sidewall and has many square grooves; Through hole is had in the middle part of strip of paper used for sealing.This strip of paper used for sealing by the effect of square groove, for controlling weld gap.

For another example, published Chinese patent CN200910306515, it describes a kind of core body of flat-plate heat exchanger for fresh air ventilator, comprise the plastic heat exchanger diaphragm of quadrangle, the top board identical with plastic heat exchanger diaphragm shapes, base plate and strip of paper used for sealing, upper surface at the near side (ns) place of two relative edges of odd number plastic heat exchanger diaphragm is fixedly connected with by the lower surface of strip of paper used for sealing with the near side (ns) place of two relative edges of even number plastic heat exchanger diaphragm, form the first gas channel, the upper surface at the near side (ns) place of the two other relative edge of even number plastic heat exchanger diaphragm is fixedly connected with by the lower surface of strip of paper used for sealing with the near side (ns) place of two relative edges of another odd number plastic heat exchanger diaphragm, form second gas channel interlaced with the first adjacent gas channel, top board is fixedly connected with uppermost plastic heat exchanger diaphragm by strip of paper used for sealing, base plate is fixedly connected with nethermost plastic heat exchanger diaphragm by strip of paper used for sealing.

For another example, published Chinese patent application CN201410329682, it describes a kind of heat recovery type fresh air unit, comprise cuboid casing, its one end is provided with fresh inlet arranged side by side and wind exhausting outlet, the other end is provided with air draft import arranged side by side and the outlet of new wind, and is respectively equipped with blower fan in described new wind outlet and wind exhausting outlet place, and these two blower fans are positioned at the side of casing.Described body side is close to described blower fan place and is provided with dismountable maintenance of fan plate; Middle part in described casing is longitudinally provided with slide assemblies, movable installation heat exchanging core on it, and is provided with dismountable core body access panel at the corresponding described heat exchanging core place of body side; The two ends of described casing are provided with dismountable front and back access panel.

Also have.

Exchange as Chinese patent CN201120426313 discloses a kind of Double-layered total-heat fresh-air, comprise housing, the both sides of housing are respectively equipped with left air inlet, right air inlet and left air outlet, right air outlet, wherein, heat exchanging core and lower heat exchanging core is provided with in described housing, on, isolated by dividing plate between lower heat exchanging core, on, the inlet side of lower heat exchanging core is equipped with filter and lower filter respectively, on a left side for upper heat exchanging core and lower heat exchanging core, right both sides install a left conveying fan and right conveying fan respectively, left, right conveying fan matches with left air outlet and right air outlet separately.

As Chinese patent 201120494755.3 discloses a kind of heat reclamation device, it comprises casing, be housed in the core body in casing and location-plate, casing comprises upper substrate, infrabasal plate, first input port, first row exports, second input port and second row outlet, core body comprises end face, bottom surface, first input face, first row is appeared, second input face, second row is appeared and primary sealing area, core body is arranged between upper substrate and infrabasal plate, and seal between end face and upper substrate, seal between bottom surface and infrabasal plate, first input port is communicated with the first input face, first row outlet first row is appeared, second input port is communicated with the second input face, second row outlet second row is appeared, location-plate is removably fixed on primary sealing area, between upper substrate and infrabasal plate, and location-plate respectively with primary sealing area, seal between upper substrate and infrabasal plate.Object is that allowing heat reclamation device have reliable structural behaviour contacts sealing property with good.

As Chinese patent 201420210006.7 discloses a kind of fresh air ventilator with sliding inserted type heat exchanging core, energy exchange chamber sidewall is provided with fixing chute, exchange core body and be provided with the slide plate suitable with fixing chute, fixing chute side is provided with the first strip elastic steel sheet, and fixing chute opposite side is provided with the second strip elastic steel sheet inconsistent with the first strip elastic steel sheet.Directly exchange core body upper slide can be aimed at the fixing chute that energy exchange cavity wall is provided with, then just directly exchange core body can be pushed energy exchange chamber along fixing chute, at this moment, be arranged on fixing chute energy exchange chamber first strip elastic steel sheet and the second strip elastic steel sheet will by slide plate locking, so just effectively can prevent from exchanging core body to skid off from energy exchange chamber, and the function of certain damping stabilization can also be played.

Prior art has no following technical solution and comes out: namely,

By the seal construction of the support structure and improvement that configure board-like heat recovery core, single and double seal construction is particularly provided, solve and avoid new wind and the mutual seepage of air draft, avoid air draft to pollute the problem of new wind, can realize improving frock efficiency further simultaneously, particularly for the common dismounting position such as heat recovery core, terminal box, the technical scheme realizing more convenient dismounting has no appearance.

Summary of the invention

This case problem to be solved is to overcome the above-mentioned defect that aforementioned techniques exists, and provides a kind of support structure unit of board-like heat recovery core, and supporting member section structure, and has the recuperation of heat unit of support structure assembly of board-like heat recovery core.This case is by the structure of the supporting member and support body element that provide innovation, form the support structure unit of heat recovery core, in conjunction with the configuration of the potted component improved, better seal construction is provided, in conjunction with the configuration of the support body element in support structure assembly, the support structure assembly more assembled, dismantle is provided, prevents air flow shortcircuit with more effective, solve the difficult problem that new wind is polluted in air draft further.

The primary and foremost purpose of this case is to provide a kind of section structure of supporting member, take this supporting member preparing board-like heat recovery core, for assembling the structure of frame in the end frame portion of joining rack body member, form the support structure unit of board-like heat recovery core, to realize spacing, the aligning structure effect of support structure unit.Application supporting member section bar object effectively can improve production capacity, more benefits industrialization.

The another object of this case is to provide a kind of support structure unit of board-like heat recovery core, by supporting member prepared by aforementioned supporting member section bar, form the support structure unit of board-like heat recovery core, object is to provide a kind of support structure assembly that can form single sealing or double containment, realization prevents air flow shortcircuit, solves the problem that new wind is polluted in air draft.

An object again of this case is to provide a kind of recuperation of heat unit with the support structure assembly of board-like heat recovery core, by the support structure assembly of aforementioned board-like heat recovery core, also has the fast assembling structure of fastening of terminal box, form one not only more convenient frock, also there is the board-like recuperation of heat unit of the support structure assembly of single sealing or double containment structure, based on aforementioned object basis, also be the frock structure that normal dismounting parts such as heat recovery core, terminal box etc. in unit are provided, realize quick and easy tool structure, effectively to improve the efficiency of assembling of unit.

This case supporting member technical solution problem is taked following technical scheme to realize, the supporting member structure of a kind of board-like heat recovery core provided according to this case, described supporting member comprises substrate, neck, bizet, wherein, described supporting member substrate 8-9-3 has the protruding 8-9-3-1 of supporting member contraposition; Described supporting member neck 8-9-4: the hollow channel 8-9-0 along described supporting member substrate being upwards supporting member, this supporting member hollow channel wherein has the part forming supporting member neck, first neck sidewall 8-9-41 of this supporting member neck is parallel corresponding with the second neck sidewall 8-9-42, and perpendicular to supporting member substrate.

This case solves supporting member technical problem and following technical scheme can also be taked to realize further:

The supporting member structure of aforesaid board-like heat recovery core, wherein, the preset pitch width 8-9-4b between described first neck sidewall and the second neck sidewall, adapts to for mating with each spacing edge-cut 8-1-b assembled on edge of support body element;

The supporting member structure of aforesaid board-like heat recovery core, wherein, described supporting member bizet 8-9-5: described supporting member bizet is made up of the first filter slideway 8-9-5-1 and the second filter 8-9-5-2 and core body slideway 8-9-5-3.

The supporting member structure of aforesaid board-like heat recovery core, wherein, described first filter slideway is identical with the second filter slideway structure, is separately positioned on the both sides of core body slideway.

The supporting member structure of aforesaid board-like heat recovery core, wherein, described core body slideway 8-9-5-3 is for summit with the first hypotenuse wall (8-9-5-11) in supporting member hollow channel and the second hypotenuse wall 8-9-5-21 joint, extend along described second hypotenuse wall, core body slideway the first side wall 8-9-5-31 is set; Along described first hypotenuse wall extended core body slideway second sidewall 8-9-5-32; Described core body slideway the first side wall and core body slideway second sidewall form the passage holding core body and slip into along this.

The supporting member structure of aforesaid board-like heat recovery core, wherein, core body slideway the first side wall arranges core body slideway first sealing strip jaw 8-9-5-311, core body slideway second sidewall arranges core body slideway second sealing strip jaw 8-9-5-321.

The supporting member structure of aforesaid board-like heat recovery core, wherein, described core body slideway the first side wall and the core body slideway second sidewall formed angle that crosses is called core body slideway angle, this core body slideway angle predetermined angle, for adapting to the incline cornerite angle automatching of heat recovery core.

The incline cornerite of described heat recovery core refers to every angle between two adjacent core body side surfaces 61-1,61-2 of heat recovery core.

The supporting member structure of aforesaid board-like heat recovery core, wherein, the formation of described first filter slideway 8-9-5-1 is: it has the first filter slideway the first side wall 8-9-5-13, first filter slideway second sidewall 8-9-5-12, forms 8-9-5-11 bottom the first filter slideway by aforesaid first hypotenuse wall between this two side.

The supporting member structure of aforesaid board-like heat recovery core, wherein, the formation of described second filter slideway 8-9-5-2 is: it has the second filter slideway the first side wall (8-9-5-23), second filter slideway second sidewall 8-9-5-22, forms 8-9-5-21 bottom the second filter slideway by aforesaid second hypotenuse wall between this two side.

The supporting member structure of aforesaid board-like heat recovery core, wherein, the structure of the first side wall of the first filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint for summit, sidewall is extended to form along described second hypotenuse wall 8-9-5-21, that its front is arranged is core body slideway the first side wall 8-9-5-31, the back side of this core body slideway the first side wall is the filter slideway the first side wall 8-9-5-13 of the first filter slideway 8-9-5-1, this filter slideway the first side wall is arranged filter slideway first sealing strip jaw 8-9-5-131.

The supporting member structure of aforesaid board-like heat recovery core, wherein, the structure of the first side wall of the second filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint for summit, sidewall is extended to form along described first hypotenuse wall 8-9-5-11, that its front is arranged is core body slideway second sidewall 8-9-5-32, the back side of this core body slideway second sidewall is the filter slideway the first side wall 8-9-5-23 of the second filter slideway 8-9-5-2, this filter slideway the first side wall is arranged filter slideway first sealing strip jaw 8-9-5-231.

The supporting member structure of aforesaid board-like heat recovery core, wherein, the structure of the second sidewall of first, second filter slideway described: in first, second hypotenuse wall bottom of the hollow channel of supporting member, namely the intersection side of this first hypotenuse wall 8-9-5-11 and the first neck sidewall 8-9-41 is stretched and is arranged the first filter slideway second sidewall 8-9-5-12.

The supporting member structure of aforesaid board-like heat recovery core, wherein, the intersection side of this second hypotenuse wall 8-9-5-21 and the second neck sidewall 8-9-42 is stretched and is arranged the second filter slideway second sidewall 8-9-5-22.

The supporting member structure of aforesaid board-like heat recovery core, wherein, described first, second filter slideway second sidewall 8-9-5-12,8-9-5-22 are mutually corresponding with described first, second filter slideway the first side wall 8-9-5-13,8-9-5-23, form the passage holding leaf filter and insert along this filter slideway.

So far, the effect that the structure of supporting member brings includes but not limited to:

Described supporting member arranges the protruding 8-9-3-1 of contraposition on substrate, can mate corresponding with the alignment grooves 8-1-12-10 assembled in support body element on the spacing edge-cut of edge.

What the structure configuration of described supporting member neck not only formed supporting member bizet stands to support, also have, spacing edge-cut width 8-1-b on the width 8-9-4b of supporting member neck and the assembling edge of support body element matches, and forms the another limit configuration of supporting member and support body element whereby.

Thus, supporting member can form spacing, alignment feature with the end frame of support body element, can realize aiming at station structure and imitate when supporting member is assembled with support body element.

The structure configuration of described supporting member bizet is not only the structure that heat recovery core and filter provide support, also has the structure of frock and the structure of sealing.

The angle configurations of supporting member core body slideway is suitable with the incline cornerite angle automatching of core body, and this is just for heat recovery core can provide construction measure along the smooth and easy installation of core body slideway of supporting member.Further, the core body going for having different incline cornerite angle for supporting member provides construction measure.Include but not limited to that heat recovery core is positive tetrahedron prismatic structure, or hexahedron prismatic structure.

Seal approach in described supporting member crown configurations: at core body slideway and the filter slideway configuration sealing strip jaw of described supporting member.Form supporting member can realize sealing structure to the adjacent side of heat recovery core.By this, defining the technical measures that can realize multiaspect support and multi-faceted sealing by supporting member to each incline of heat recovery core, is also single seal construction of supporting member alleged by this case.

The supporting member structure of aforesaid board-like heat recovery core, wherein, the second sidewall of first, second filter slideway described is set to straight plate structure respectively.

The supporting member structure of aforesaid board-like heat recovery core, wherein, second sidewall of first, second filter slideway described is set to respectively: described first filter slideway second sidewall is arranged the first filter slideway second sealing strip jaw 8-9-5-121, described second filter slideway second sidewall is arranged the second filter slideway second sealing strip jaw 8-9-5-221.

Thus, the seal approach in described supporting member crown configurations provides measure further:

Second sidewall configuration of first, second filter slideway provides the different embodiments of seal approach in supporting member crown configurations, be exactly to filter just, the back of the body multidimensional seal on two sides and the structure of single facer.

By this, defining and can realize multi-faceted, multiaspect to heat recovery core and filter by supporting member and support and technical measures that are multi-faceted, multidimensional seal, is also the double containment structure of supporting member alleged by this case.

The supporting member structure of aforesaid board-like heat recovery core, wherein, first, second sealing strip jaw of core body slideway structure of described core body slideway (8-9-5-3) is identical.

The supporting member structure of aforesaid board-like heat recovery core, wherein, described each sealing strip jaw all configures core body slideway jaw necking down 8-9-5-321-1, form the sealing strip installation cavity 8-9-5-321-10 of sealing strip jaw whereby, base portion 10-1 installed by the sealing strip that sealing bar installation cavity is used for accommodating potted component 10.

The supporting member structure of aforesaid board-like heat recovery core, wherein, configuration filter slideway jaw necking down 8-9-5-131-1 on described first filter slideway first sealing strip jaw, form the sealing strip installation cavity 8-9-5-131-10 of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating potted component.

The supporting member structure of aforesaid board-like heat recovery core, wherein, configuration filter slideway jaw necking down 8-9-5-121-1 on described first filter slideway second sealing strip jaw, form the sealing strip installation cavity 8-9-5-121-10 of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating sealing strip.

The supporting member structure of aforesaid board-like heat recovery core, wherein, configuration filter slideway jaw necking down 8-9-5-231-1 on first sealing strip jaw of described second filter slideway, form the sealing strip installation cavity 8-9-5-231-10 of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating potted component.

The supporting member structure of aforesaid board-like heat recovery core, wherein, configuration filter slideway jaw necking down 8-9-5-221-1 on second sealing strip jaw of described second filter slideway, form the sealing strip installation cavity 8-9-5-221-10 of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating sealing strip.

Thus, the seal approach in described supporting member crown configurations provides measure further:

Sealing strip jaw structure configuration in described supporting member " can be overflow " after providing and the fluffy body of sealing strip bizet can being made to block the installation base portion of potted component by the necking down of core body slideway jaw and be gone out jaw, like this, when core body advances along slideway, when potted component is subject to core body extruding, potted component can realize the technique effect spreading sealing " felt " layer overflow on slideway as " felt mattress ".

The technical solution problem of the support structure assembly of this case heat recovery core is taked following technical scheme to realize, according to a kind of support structure assembly with the heat recovery core of aforementioned arbitrary supporting member that this case provides, comprise support body element 8-1 and be installed on the supporting member 8-9 on this support body element, wherein, the spacing assembling edge 8-1-11 of support body element middle-end frame, 8-1-12 ... heat recovery core support structure unit is formed with the supporting member be arranged on the spacing assembling edge of described end frame, wherein, the spacing assembling edge of support body element middle-end frame is: the end frame 8-1-1 on support body element, 8 '-1-1 has assembling edge 8-1-11, 8-1-12 described assembling edge configures spacing edge-cut 8-1-11-1, 8-1-12-1, 8-1-13-1, there is the assembling edge 8-1-11 of spacing edge-cut, 8-1-12 ... define the spacing assembling edge of support body element middle-end frame,

Each spacing edge-cut on described assembling edge all arranges alignment grooves 8-1-12-10;

Spacing edge-cut width 8-1-b on each assembling edge of support body element and described supporting member first neck sidewall mate with the width 8-9-4b between the second neck sidewall and adapt to.

The support structure assembly of aforesaid heat recovery core, wherein, described support body element 8-1 has first end frame and the second end frame, is connected to form prism-shaped support body element between first end frame and the second end frame by incline post 8-1-0;

The support structure assembly of aforesaid heat recovery core, wherein, described first end frame 8-1-1,8 '-1-1 are by each assembling edge 8-1-11,8-1-12 ... surround the framework periphery of end frame; On described assembling edge, spacing edge-cut 8-1-11-1,8-1-12-1,8-1-13-1 of combining are mated in configuration with supporting member, and each assembles spacing edge-cut width 8-1-b distance on edge and mates quite with the width distance 8-9-4b of hollow channel of the supporting member being installed on this; Described second end frame is identical with first end edge frame structure.

The support structure assembly of aforesaid heat recovery core, wherein, also have, supplemental support body 912 is installed between the framework of first end frame and the second end frame, is packed on the 4th assembling edge 8-1-14 of first end frame and the second end frame; Described supplemental support body has supporting member and installs base portion 912-1.

The support structure assembly of aforesaid heat recovery core, wherein, the both sides of the 4th assembling edge at described supplemental support body place are the first assembling edge and the 3rd assembling edge, and this first assembling edge and the 3rd spacing edge-cut assembled on edge configure one or two;

Described first assembling edge 8-1-11 and the 3rd assembling edge 8-1-13 is configured to the structure of whole section; Or, two-stage structure separated during described first assembling edge 8 '-1-11 and the 3rd assembling edge 8 '-1-13 is configured to.

The support structure assembly of aforesaid heat recovery core, wherein, each described assembling edge is set to the elongate configuration of the orthogonal one-tenth dihedral in both sides, the both sides of this orthogonal one-tenth dihedral wherein limit are the support body assembling limit 8-1-12-a for being fixedly mounted with supporting member, and another limit is that the support body for only supporting supporting member end only supports limit 8-1-12-b.

The support structure assembly of aforesaid heat recovery core, wherein, also has potted component in the support structure assembly of described heat recovery core, for being arranged on the sealing strip jaw of supporting member, forms seal construction;

Described potted component has sealing strip and installs base portion 10-1, and adjacent sealing bar is installed base portion and arranged sealing strip bizet (10-2); The structure that base portion becomes can insert the sealing strip jaw of supporting member installed by described sealing strip, and the sealing strip installation cavity for the sealing strip jaw with supporting member mates and combines.

The support structure assembly of aforesaid heat recovery core, wherein, described sealing strip bizet 10-2 is set to be implanted in the fluffy body structure that base portion installed by sealing strip; Described fluffy body is configured to perpendicular hair or the felt of hairbrush shape; The height of described sealing strip bizet be set to sealing strip install 1 times of base portion height h1 or 2 times or 3 times or 2-3 doubly between.

The technical solution problem of this case recuperation of heat unit is taked following technical scheme to realize, according to a kind of recuperation of heat unit that this case provides, comprise heat recovery core 6, first filter 5-1 and the second filter 5-2, and core body installing rack 8, described heat recovery core and first, second filter are installed by core body installing rack, wherein, described core body installing rack is formed by the support structure assembly of heat recovery core, the support structure assembly of described heat recovery core has heat recovery core support structure unit, specifically:

The supporting member 8-9 that the support structure assembly of described heat recovery core comprises support body element (8-1) and is installed on this support body element; Wherein:

Described heat recovery core support structure unit comprises spacing assembling edge 8-1-11,8-1-12 of support body element middle-end frame ... with the supporting member be arranged on the spacing assembling edge of described end frame; Wherein, the spacing assembling edge of support body element middle-end frame is: end frame 8-1-1,8 '-1-1 on support body element have assembling edge 8-1-11,8-1-12 ... described assembling edge configures spacing edge-cut 8-1-11-1,8-1-12-1,8-1-13-1, there is assembling edge 8-1-11,8-1-12 of spacing edge-cut ... define the spacing assembling edge of support body element middle-end frame;

Each spacing edge-cut on described assembling edge all arranges alignment grooves 8-1-12-10;

Wherein, supporting member 8-9 comprises substrate, neck, bizet.

Supporting member is set to A-A to the identical rectangular section bar of arbitrary cross-sectional configuration.

Wherein, described supporting member substrate 8-9-3 has the protruding 8-9-3-1 of supporting member contraposition; Described supporting member fixedly mounts by this supporting member substrate and support body element;

Wherein, described supporting member neck 8-9-4: the hollow channel 8-9-0 along described supporting member substrate being upwards supporting member, this supporting member hollow channel wherein has the part forming supporting member neck, first neck sidewall 8-9-41 of this supporting member neck is parallel corresponding with the second neck sidewall 8-9-42, and perpendicular to supporting member substrate 8-9-3;

Width 8-9-4b between described first neck sidewall and the second neck sidewall, mates with each spacing edge-cut width 8-1-b assembled on edge of support body element and adapts to;

Described supporting member bizet 8-9-5: described supporting member bizet is made up of the first filter slideway 8-9-5-1 and the second filter 8-9-5-2 and core body slideway 8-9-5-3; Described first filter slideway is identical with the second filter slideway structure, is separately positioned on the both sides of core body slideway;

Described core body slideway 8-9-5-3 is with the first hypotenuse wall 8-9-5-11 in supporting member hollow channel and the second hypotenuse wall 8-9-5-21 joint O for summit, extends, arrange core body slideway the first side wall 8-9-5-31 along described second hypotenuse wall; Along described first hypotenuse wall extended core body slideway second sidewall 8-9-5-32; Described core body slideway the first side wall and core body slideway second sidewall form the passage holding core body and slip into along this;

Core body slideway the first side wall 8-9-5-31 arranges core body slideway first sealing strip jaw 8-9-5-311, core body slideway second sidewall 8-9-5-32 arranges core body slideway second sealing strip jaw 8-9-5-321;

Described core body slideway the first side wall and the core body slideway second sidewall formed angle that crosses is called core body slideway angle a, every angle between two adjacent core body side surfaces 61-1,61-2 of described recovery core body;

The technical problem that this case solves recuperation of heat unit can also take following technical scheme to realize further:

Aforesaid recuperation of heat unit, wherein, described core body slideway angle is 90 degree or 120 degree.

Aforesaid recuperation of heat unit, wherein, first, second sealing strip jaw of described core body slideway construct identical, each sealing strip jaw all configures core body slideway jaw necking down 8-9-5-321-1, form the sealing strip installation cavity 8-9-5-321-10 of sealing strip jaw whereby, base portion 10-1 installed by the sealing strip that sealing bar installation cavity is used for accommodating potted component (10);

Aforesaid recuperation of heat unit, wherein, the formation of described first filter slideway 8-9-5-1 is: it has the first filter slideway the first side wall 8-9-5-13, first filter slideway second sidewall 8-9-5-12, forms 8-9-5-11 bottom the first filter slideway by aforesaid first hypotenuse wall between this two side;

Aforesaid recuperation of heat unit, wherein, the formation of described second filter slideway 8-9-5-2 is: it has the second filter slideway the first side wall 8-9-5-23, second filter slideway second sidewall 8-9-5-22, forms 8-9-5-21 bottom the second filter slideway by aforesaid second hypotenuse wall between this two side;

Aforesaid recuperation of heat unit, wherein, the structure of the first side wall of the first filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint O for summit, sidewall is extended to form along described second hypotenuse wall 8-9-5-21, that its front is arranged is core body slideway the first side wall 8-9-5-31, the back side of this core body slideway the first side wall is the filter slideway the first side wall 8-9-5-13 of the first filter slideway 8-9-5-1, this filter slideway the first side wall is arranged filter slideway first sealing strip jaw 8-9-5-131;

Aforesaid recuperation of heat unit, wherein, the structure of the first side wall of the second filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint O for summit, sidewall is extended to form along described first hypotenuse wall 8-9-5-11, that its front is arranged is core body slideway second sidewall 8-9-5-32, the back side of this core body slideway second sidewall is the filter slideway the first side wall 8-9-5-23 of the second filter slideway 8-9-5-2, this filter slideway the first side wall is arranged filter slideway first sealing strip jaw 8-9-5-231;

Aforesaid recuperation of heat unit, wherein, the structure of the second sidewall of first, second filter slideway described: in first, second hypotenuse wall bottom of the hollow channel of supporting member, namely the intersection side of this first hypotenuse wall 8-9-5-11 and the first neck sidewall 8-9-41 is stretched and is arranged the first filter slideway second sidewall 8-9-5-12; The intersection side of this second hypotenuse wall 8-9-5-21 and the second neck sidewall 8-9-42 is stretched and is arranged the second filter slideway second sidewall 8-9-5-22;

Aforesaid recuperation of heat unit, wherein, described first, second filter slideway second sidewall 8-9-5-12,8-9-5-22 are mutually corresponding with described first, second filter slideway the first side wall 8-9-5-13,8-9-5-23, form the passage holding leaf filter and can insert along this filter slideway;

Aforesaid recuperation of heat unit, wherein, the second sidewall of first, second filter slideway described is set to straight plate structure respectively;

Aforesaid recuperation of heat unit, wherein, the structure of the first side wall of the first filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint O for summit, sidewall is extended to form along described second hypotenuse wall 8-9-5-21, that its front is arranged is core body slideway the first side wall 8-9-5-31, the back side of this core body slideway the first side wall is the filter slideway the first side wall 8-9-5-13 of the first filter slideway 8-9-5-1, this filter slideway the first side wall is arranged filter slideway first sealing strip jaw 8-9-5-131;

Aforesaid recuperation of heat unit, wherein, the structure of the first side wall of the second filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint O for summit, sidewall is extended to form along described first hypotenuse wall 8-9-5-11, that its front is arranged is core body slideway second sidewall 8-9-5-32, the back side of this core body slideway second sidewall is the filter slideway the first side wall 8-9-5-23 of the second filter slideway 8-9-5-2, this filter slideway the first side wall is arranged filter slideway first sealing strip jaw 8-9-5-231;

Aforesaid recuperation of heat unit, wherein, the structure of the second sidewall of first, second filter slideway described: in first, second hypotenuse wall bottom of the hollow channel of supporting member, namely the intersection side of this first hypotenuse wall 8-9-5-11 and the first neck sidewall 8-9-41 is stretched and is arranged the first filter slideway second sidewall 8-9-5-12;

The intersection side of this second hypotenuse wall 8-9-5-21 and the second neck sidewall 8-9-42 is stretched and is arranged the second filter slideway second sidewall 8-9-5-22;

This first, second filter slideway second sidewall 8-9-5-12,8-9-5-22 are mutually corresponding with described first, second filter slideway the first side wall 8-9-5-13,8-9-5-23, form the passage holding leaf filter and can insert along this filter slideway;

Second sidewall of first, second filter slideway described is set to straight plate structure respectively;

Aforesaid recuperation of heat unit, wherein, second sidewall of first, second filter slideway described is set to respectively: described first filter slideway second sidewall is arranged the first filter slideway second sealing strip jaw 8-9-5-121, described second filter slideway second sidewall is arranged the second filter slideway second sealing strip jaw 8-9-5-221;

Aforesaid recuperation of heat unit, wherein, configuration filter slideway jaw necking down 8-9-5-131-1 on described first filter slideway first sealing strip jaw, forms the sealing strip installation cavity 8-9-5-131-10 of sealing strip jaw whereby, and sealing bar installation cavity is used for the installation base portion of accommodating potted component.

Aforesaid recuperation of heat unit, wherein, configuration filter slideway jaw necking down 8-9-5-121-1 on described first filter slideway second sealing strip jaw, forms the sealing strip installation cavity 8-9-5-121-10 of sealing strip jaw whereby, and sealing bar installation cavity is used for the installation base portion of accommodating sealing strip;

Aforesaid recuperation of heat unit, wherein, configuration filter slideway jaw necking down 8-9-5-231-1 on first sealing strip jaw of described second filter slideway, forms the sealing strip installation cavity 8-9-5-231-10 of sealing strip jaw whereby, and sealing bar installation cavity is used for the installation base portion of accommodating potted component;

Aforesaid recuperation of heat unit, wherein, configuration filter slideway jaw necking down 8-9-5-221-1 on second sealing strip jaw of described second filter slideway, forms the sealing strip installation cavity 8-9-5-221-10 of sealing strip jaw whereby, and sealing bar installation cavity is used for the installation base portion of accommodating sealing strip.

Aforesaid recuperation of heat unit, wherein, in the support structure assembly of described heat recovery core, described support body element 8-1 has first end frame and the second end frame, is connected to form prism-shaped support body element between first end frame and the second end frame by incline post 8-1-0;

Aforesaid recuperation of heat unit, wherein, described first end frame 8-1-1,8 '-1-1 are by each assembling edge 8-1-11,8-1-12 ... surround the framework periphery of end frame; On described assembling edge, spacing edge-cut 8-1-11-1,8-1-12-1,8-1-13-1 of combining are mated in configuration with supporting member, and each assembles spacing edge-cut width 8-1-b distance on edge and mates quite with the width distance 8-9-4b of hollow channel of the supporting member being installed on this; Described second end frame is identical with first end edge frame structure;

Aforesaid recuperation of heat unit, wherein, also have, supplemental support body 912 is installed between the framework of first end frame and the second end frame, is packed on the 4th assembling edge 8-1-14 of first end frame and the second end frame; Described supplemental support body has supporting member and installs base portion 912-1.

Aforesaid recuperation of heat unit, wherein, the both sides of the 4th assembling edge at described supplemental support body place are the first assembling edge and the 3rd assembling edge, and this first assembling edge and the 3rd spacing edge-cut assembled on edge configure one or two;

Aforesaid recuperation of heat unit, wherein, described first assembling edge 8-1-11 and the 3rd assembling edge 8-1-13 is configured to the structure of whole section; Or, two-stage structure separated during described first assembling edge 8 '-1-11 and the 3rd assembling edge 8 '-1-13 is configured to.

Aforesaid recuperation of heat unit, wherein, each described assembling edge is set to the elongate configuration of the orthogonal one-tenth dihedral in both sides, the both sides of this orthogonal one-tenth dihedral wherein limit are the support body assembling limit 8-1-12-a for being fixedly mounted with supporting member, and another limit is that the support body for only supporting supporting member end only supports limit 8-1-12-b;

Aforesaid recuperation of heat unit, wherein, described heat recovery core 6, wherein, the angle automatching of every incline cornerite 60-120 angle between two adjacent core body side surfaces 61-1,61-2 of described heat recovery core and the supporting member core body slideway 8-9-5-3 corresponding to supporting member 8-9 is suitable; Every cornerite incline 61-12 length between two adjacent side 61-1,61-2 of described heat recovery core is mated quite with the length of supporting member.

Aforesaid recuperation of heat unit, wherein, also has potted component in the support structure assembly of described heat recovery core, for being arranged on the sealing strip jaw of supporting member, forms seal construction.

Aforesaid recuperation of heat unit, wherein, described potted component has sealing strip and installs base portion 10-1, and adjacent sealing bar is installed base portion and arranged sealing strip bizet 10-2; The structure that base portion becomes can insert the sealing strip jaw of supporting member installed by described sealing strip, and the sealing strip installation cavity for the sealing strip jaw with supporting member mates and combines.

Aforesaid recuperation of heat unit, wherein, described sealing strip bizet 10-2 is set to be implanted in the fluffy body structure that base portion installed by sealing strip.

Aforesaid recuperation of heat unit, wherein, described fluffy body is configured to perpendicular hair or the felt of hairbrush shape.

Aforesaid recuperation of heat unit, wherein, the height h of described sealing strip bizet be set to sealing strip install 1 times of base portion height h1 or 2 times or 3 times or 2-3 doubly between.

Aforesaid recuperation of heat unit, wherein, described machine case body 2 has the fast assembling structure 12 of fastening of box body or door body.

The fast assembling structure of fastening of described box body or door body, comprise the maternal body 12-1 of box and buckle cap body 12-2, the maternal body 12-1 of described box has first, second and assembles sub-bead 12-1-1,12-1-2, assemble this first, second on sub-bead and configure first, second fastening hole 12-1-10,12-1-20 respectively.

Described button cap body 12-2 has first, second and assemble female bead 12-2-1,12-2-2, assemble this first, second and female bead configures first, second respectively fasten protruding 12-2-10,12-2-20;

Aforesaid recuperation of heat unit, wherein, first, second described fastening projection has protruding half spherical cambered surface 12-2-101 and protruding perpendicular 12-2-102.

Described first, second fastens protruding projection half spherical cambered surface and is used for guide hump and recognizes fast into fastening hole, and its protruding perpendicular is stuck in hole for allowing the projection of recognizing fastening hole, self-locking, does not skid off.

The recuperation of heat unit provided thus is provided with again the fast assembling structure of fastening of terminal box, and this case contribute to support structure assembly, again the fast assembling structure of the fastening of described terminal box.

So far, provide the measure of the heat recovery core easy accessibility comprised in board-like recuperation of heat unit, additionally provide common the driveing such as access panel, terminal box and construct with the quick fastening frock at position, can the overall efficiency of assembling effectively improving unit with this structure effect.

From above technical scheme, this case, under the structural allocation of excellence, has following advantage at least:

This case compared with prior art has significant advantage and beneficial effect.

Described in this case, recuperation of heat unit which provides the assembling structure of heat recovery core, and it includes the supporting member section structure of single hermetically-sealed construction and double sealing structure, and potted component structure.

Further, integral type and the split type structure obtaining heat recovery core installing rack.Also has structure that is adjustable and unadjustable core body installing rack.

Further, the adaptive structure installing the different supporting members of positive tetrahedron prism-shaped core body and hexahedron prism-shaped core body.

The structure of potted component described in this case mates with supporting member and combines, potted component can realize as " felt mattress ", spread the technique effect overflowing and formed on slideway and seal " felt " layer, also effectively can reduce the noise of unit thus, provide safeguard for unit operation is more stable.

The section structure of supporting member described in this case is assembled frame with first or second or the 3rd of the first or second end frame portion of aforementioned support body element and is combined, and provides the heat recovery core support structure unit of different embodiment.For realizing spacing, the alignment feature of core body installing rack.

The structure configuration of the core body slideway angle by providing supporting member of supporting member described in this case, thus provide the adaptive support structure unit installing the different embodiments of positive tetrahedron prism-shaped core body or hexahedron prism-shaped core body, the industrialization that effectively can improve this case is suitable for ability.

The configuration of support body element described in this case achieves integral type and split type structure, also has structure that is adjustable and unadjustable position, thus provides the support structure assembly of different embodiment.

The supporting member section structure by configuring single hermetically-sealed construction and double sealing structure of supporting member described in this case, further provides the support structure assembly of different embodiment thus.For realizing preventing air flow shortcircuit, the problem that new wind is polluted in solution air draft provides effective solution.

The structure effect of the support structure assembly described in this case also there are provided the frock structure of board-like recuperation of heat unit heat recovery core easy accessibility wherein, include but not limited to the integral type of spacing, alignment feature, support body element and split type structure, also have structure etc. that is adjustable and unadjustable position, thus effectively can improve the efficiency of assembling of unit.

Further, the fast assembling structure of fastening of the terminal box of described board-like recuperation of heat unit is provided.The efficiency of assembling of further raising unit entirety.

The detailed description of the invention of this case is provided in detail by following examples and accompanying drawing thereof.

Accompanying drawing explanation

Fig. 1 is the perspective view of shown this case supporting member section bar I.Can be used for the embodiment realizing double sealing structure.

Fig. 1 a is that the A-A of the supporting member of this case shown in Fig. 1 section bar I is to cross-sectional structure schematic diagram.

Fig. 1 b is the cross-sectional structure schematic diagram of this case supporting member section bar III.Can be used for the embodiment realizing another board-like heat recovery core (hexahedron).

Fig. 1 c is the structural representation that this case supporting member section bar is combined with sealing strip.

Fig. 1 d is the close-up schematic view that the supporting member of sealing strip and board-like heat recovery core and new wind filter, dirty wind filter assembly structure have been installed in this case.

Fig. 2 is the schematic perspective view that this case supporting member section bar II constructs, and can be used for the embodiment realizing single hermetically-sealed construction.

Fig. 2 a is that the A-A of the supporting member of this case shown in Fig. 2 section bar II is to cross-sectional structure schematic diagram.

Fig. 3 is the support structure assembly of board-like heat recovery core described in this case and the schematic diagram of board-like heat recovery core assembly structure, wherein, the assembling edge of support body element is arranged the embodiment of spacing edge-cut.

Fig. 3 a is Fig. 3 close-up schematic view.

Fig. 3 b is the structural representation of support body element I in the support structure assembly of this kneading board type heat recovery core, can be used for the embodiment realizing support body element Construction integration.

Fig. 3 c is Fig. 3 b close-up schematic view.

Fig. 3 d is the structural representation of support body element II in the support structure assembly of this kneading board type heat recovery core, can be used for the embodiment realizing support body element split structure.

Fig. 3 e is the structural representation of supporting member section bar and support body combination of elements in the support structure assembly of this kneading board type heat recovery core.

Fig. 4 is the structural representation of board-like heat recovery core described in this case (A-A section is rectangle), for realizing a kind of embodiment of board-like heat recovery core structure, is applicable to supporting member section bar I or supporting member section bar II.

Fig. 5 is the support structure assembly of board-like heat recovery core described in this case and the schematic diagram of board-like heat recovery core assembly structure, wherein, the assembling edge of support body element is not arranged the embodiment of spacing edge-cut.

Fig. 5 a is the assembly structure schematic diagram of the support structure assembly of board-like heat recovery core and new wind filter, dirty wind filter, wherein, the assembling edge of support body element is not arranged the embodiment of spacing edge-cut.

Fig. 6 is the described support structure assembly package assembly schematic diagram for recuperation of heat unit.

Fig. 7 is that described support structure assembly assembles decomposition texture schematic diagram for recuperation of heat unit.

Fig. 8 is the structural representation of the horizontal section of sealing strip I described in this case, is a kind of embodiment, is applicable to supporting member section bar I or supporting member section bar II or supporting member section bar III.

Fig. 8 a is the structural representation of the horizontal section of sealing strip II described in this case, is another embodiment, is applicable to supporting member section bar I or supporting member section bar II or supporting member section bar II I.

Fig. 9 is the assembling decomposition texture schematic diagram in recuperation of heat unit described in this case with the terminal box fastening fast assembling structure.

Detailed description of the invention

Below in conjunction with preferred embodiment, to detailed description of the invention, feature and effect thereof of providing according to this case, be described in detail as follows; In order to simple and clearly object, the hereafter appropriate description eliminating known technology, in order to avoid the description of those unnecessary details impact to the technical program.

Shown in Fig. 1-9, a kind of recuperation of heat unit, shown in Fig. 6,7, described recuperation of heat unit comprises heat recovery core 6, first filter 5-1 and the second filter 5-2 and core body installing rack 8, and described heat recovery core, the first filter and the second filter are installed by core body installing rack.Described heat recovery core 6 also claims heat exchanging core.

Machine case body 2 is located on unit underframe 1, first blower fan 402, second blower fan 302 difference device is in machine case body, described first blower fan, the second blower fan, new wind and the dirty wind of discharge are carried in the new wind conveying air channel 301 arranged by machine case body inside respectively and dirty wind conveying air channel 401.Described machine case body is configured with air inlet and air outlet.

First air inlet 201, configures in the mode that outdoor new wind can be allowed to enter machine case body thus.Second air inlet 203, configures in the mode that indoor dirty wind can be allowed to enter machine case body thus.New wind goes out (sending) air port 204, configures in the mode that the new wind processed through heat recovery core 6 can be allowed to send to indoor thus.Dirty wind goes out (row) air port 202, configures can allow the mode of dirty wind thus outside discharge chamber through heat recovery core 6 process.The side of machine case body is access panel 205, and access hole 206 configures at this, for maintenance.Second blower fan can be responsible for carrying new wind, and the first blower fan can be responsible for carrying dirty wind.Aforementioned arrangements can be general prior art, and it will not go into details for details.

The assembling structure of heat recovery core in described recuperation of heat unit.It includes the supporting member section structure of single hermetically-sealed construction and double sealing structure.And potted component structure.Further, the structure of integral type and divided core installing rack.Also has structure that is adjustable and unadjustable core body installing rack.Further, the adaptive structure installing the different supporting members of positive tetrahedron prism-shaped core body and hexahedron prism-shaped core body.

Described in this case, single hermetically-sealed construction refers to: to the sealing of heat recovery core, all arranges seal construction by the adjacent side of the supporting member in support structure assembly to heat recovery core.Supporting member structure is wherein shown in shown in Fig. 2,2a.

Described in this case, double sealing structure refers to: to heat recovery core and filter seal, all arranges seal construction by the adjacent side of the supporting member in support structure assembly to heat recovery core, meanwhile, to leaf filter just, back of the body two sides all arranges seal construction.Supporting member structure is wherein shown in shown in Fig. 1,1a-1d.

Described heat recovery core 6 is arranged in machine case body 2 by core body installing rack 8, and described core body installing rack is formed by the support structure assembly of heat recovery core.

The support structure component structure of described heat recovery core mates with the shape design of heat exchanger core body and arranges.

Described heat recovery core 6 is prism-shaped, includes but not limited to positive tetrahedron prismatic structure as shown in Figure 4.Also can be hexahedron prismatic structure, the core body as prior art cross-counterflow heat-exchangers of the plate type constructs, not shown, and wherein, the seamed edge between every adjacent side of described heat recovery core is called cornerite incline.

As shown in Figure 4, between described core body first side 61-1 and described core body second side 61-2 be the first cornerite incline 61-12; The second cornerite incline 61-23 between described core body second side 61-2 and described core body the 3rd side 61-3; The 3rd cornerite incline 61-34 between described core body the 3rd side 61-3 and described core body the 4th side 61-4; The 4th cornerite incline 61-41 between described core body the 4th side 61-4 and described core body first side 61-1, by that analogy.Described cornerite incline length is mated quite with the length of supporting member.

As shown in Figure 4, the angle between every adjacent side of described heat recovery core is called incline cornerite.

Angle between described core body first side 61-1 and described core body second side 61-2 is the first incline cornerite 60-120, by that analogy.

The angle automatching of the core body slideway 8-9-5-3 of the incline cornerite angle of described heat recovery core and the supporting member corresponding to supporting member 8-9 is suitable, and thus, heat recovery core can along the smooth and easy installation of core body slideway of supporting member.

Spacing, the alignment feature of core body installing rack; And integral type and split type structure; And the structure of adjustable and unadjustable position is realized by the measure providing support structure assembly.

Shown in Fig. 3,5, described support structure assembly is for forming core body installing rack 8, and it has supporting member 8-9 and support body element 8-1, and described support body element includes but not limited to square frame body frame structure, and so that the structure configuration in machine case body 2 can be arranged on.Supporting member is installed by support body element.

Described support body element 8-1, wherein, first end frame 8-1-1,8 '-1-1 construct identical with the second end frame 8-1-2,8 '-1-2, are connected to form prism-shaped support body element between first end frame and the second end frame by incline post 8-1-0.

The structure of the described first or second end frame describes for first end frame:

The framework periphery of described first end frame, spacing edge-cut 8-1-11-1,8-1-12-1,8-1-13-1 of combining are mated in configuration with supporting member respectively, thus, the edge with spacing edge-cut defines the spacing assembling edge of this framework, i.e. the first assembling edge 8-1-11, the second assembling edge 8-1-12, the 3rd assembling edge 8-1-13 in diagram.

Spacing edge-cut width 8-1-b distance on each assembling edge is mated quite with the width distance 8-9-4b of hollow channel of the supporting member being installed on this, can realize limit mounting thus.

Further, each spacing edge-cut of each assembling edge all arranges alignment grooves 8-1-12-10, combining, aiming at station for mating with the protruding 8-9-3-1 of supporting member contraposition, forms spacing, the two effect of aligning of first, second end frame thus.

Also have, supplemental support body 912 is installed between the framework of first end frame and the second end frame, be packed on the 4th assembling edge 8-1-14 of first end frame and the second end frame, 4th assembling edge is seated the bottom of machine case body usually, this supplemental support body leaves default station distance for allowing the bottom of heat recovery core and machine case body so that demolition, installation, maintenance activity.

Described supplemental support body has supporting member and installs base portion 912-1, for installing supporting member.

Thus, on the first end frame and the second end frame of support body element, each spacing edge-cut on each described assembling edge and the installation base portion of supplemental support body together constitute the structure of the frock position can determining each supporting member, define the scaffold structure of the frock position can determining heat recovery core whereby.

Described support body element can be the structure of unadjustable height, as shown in Fig. 3,3b.

Further, be height-adjustable structure, as shown in Fig. 3 d, Fig. 7.

The both sides of the 4th assembling edge at described supplemental support body place are the first assembling edge and the 3rd assembling edge, and this first assembling edge and the 3rd spacing edge-cut assembled on edge can configure adjacent two.

Support body element has possessed position adjustment function thus.That is, when actual installation heat recovery core, operator can according to the installation site of the upper and lower adjustment heat recovery core of working condition.

Described support body element can be one and split two kinds of structures, as shown in Fig. 3 b, Fig. 3 d.

Described first assembling edge 8-1-11 and the 3rd assembling edge 8-1-13 also can be the structure of whole section, forms the integrative-structure of support body element thus.

Two-stage structure separated during described first assembling edge 8 '-1-11 and the 3rd assembling edge 8 '-1-13 can be configured to, as shown in Fig. 3 d, Fig. 7, form the Split type structure of support body element thus, Large-scale machine set is applied, or other working condition application needed especially, applicability is better.

As shown in Figure 3 c, each described assembling edge is set to the long strip type equipment structure of the orthogonal one-tenth dihedral in both sides, it is exactly the angle bar structure usually said, thus the both sides of orthogonal one-tenth dihedral wherein limit be support body assembling limit 8-1-12-a, for being fixedly mounted with supporting member, another limit is that support body only supports limit 8-1-12-b, for only supporting the end of supporting member, should only support limit and being combined the spacing seam forming supporting member with aforesaid spacing edge-cut.

Described supporting member comprises substrate, neck, bizet, and supporting member is set to A-A to the identical rectangular section bar of arbitrary cross-sectional configuration.As Fig. 1,1a, 1b, 1c, 1d, Fig. 2, Fig. 2 a.

Described supporting member substrate 8-9-3, supporting member fixedly mounts by it and support body element.Wherein, described supporting member substrate has the protruding 8-9-3-1 of supporting member contraposition.

Described supporting member substrate both can assemble limit by each support body of the first end frame 8-1-1 of support body element on the second end frame 8-1-2 and be combined, also can be used for installing with the supporting member of supplemental support body in support body element base portion 912-1 to mate and combine, realize fixed installation.

The protruding 8-9-3-1 of described supporting member contraposition combines for mating with alignment grooves 8-1-12-10 assembled on each spacing edge-cut of edge each in aforementioned support body element.

Thus, each end frame of supporting member and support body element forms spacing, alignment feature, can aim at station when supporting member is assembled with support body element.

Along the hollow channel 8-9-0 that described supporting member substrate is upwards supporting member, this hollow channel is formed by the hollow molded cavity of section bar, described supporting member hollow channel is set to the pentagonal configuration that triangle is combined with rectangle, supporting member hollow channel rectangle part wherein forms supporting member neck 8-9-4, first neck sidewall 8-9-41 of this supporting member neck is parallel corresponding with the second neck sidewall 8-9-42, and perpendicular to supporting member substrate 8-9-3.Width 8-9-4b between first neck sidewall with the second neck sidewall mates with each spacing edge-cut width 8-1-b assembled on edge of support body element and adapts to, and whereby, forms the another limit configuration of supporting member and support body element.

Supporting member neck has two effects, one be form supporting member stand to support, two is form spacing, the aligned portions of supporting member.

See Fig. 1,1a, 1b, the triangle isosceles hypotenuse of the hollow channel of described supporting member is called the first hypotenuse wall 8-9-5-11 and the second hypotenuse wall 8-9-5-21, form the basis of supporting member bizet whereby, described supporting member bizet 8-9-5 is made up of the first filter slideway 8-9-5-1 and the second filter slideway 8-9-5-2 and core body slideway 8-9-5-3.

Described core body slideway 8-9-5-3 be with the first hypotenuse wall 8-9-5-11 and the second hypotenuse wall 8-9-5-21 joint O for summit, stretch out along described second hypotenuse wall zenith directions, core body slideway the first side wall 8-9-5-31 be set; Along described first hypotenuse wall extended core body slideway second sidewall 8-9-5-32.Core body slideway the first side wall and core body slideway second sidewall form the passage holding core body and slip into along this.

Core body slideway the first side wall 8-9-5-31 arranges core body slideway first sealing strip jaw 8-9-5-311, core body slideway second sidewall 8-9-5-32 arranges core body slideway second sealing strip jaw 8-9-5-321, first, second sealing strip jaw of described core body slideway construct identical, each sealing strip jaw all configures core body slideway jaw necking down 8-9-5-321-1, form the sealing strip installation cavity 8-9-5-321-10 of sealing strip jaw whereby, the sealing strip that sealing bar installation cavity is used for accommodating potted component 10 installs base portion 10-1, shown in Fig. 8, Fig. 8 a.Described core body slideway the first side wall and the core body slideway second sidewall formed angle that crosses is called core body slideway angle a, the incline cornerite angle automatching of this core body slideway angle and aforementioned heat recovery core is suitable, and described core body slideway angle includes but not limited to 90 degree or 120 degree.

Thus, this case provides the supporting member of different embodiment, can the heat exchanger core body of adaptive positive tetrahedron prismatic structure, also can the heat exchanger core body of adaptive hexahedron prismatic structure.

Thus, heat recovery core can insert along core body slideway, realizes smooth and easy installation.

Shown in Fig. 1 c, Fig. 1 d, described core body slideway sealing strip jaw is for installing potted component, the necking down of described core body slideway jaw is the installation base portion for being blocked potted component by reducing, allow the fluffy bizet of potted component be formed under the extruding of core body and lay and the sealant covered on core body slideway, thus, when core body advances along slideway, the fluffy bizet of potted component is squeezed, " can overflow " and go out jaw, as " felt mattress ", paving is overflow on core body slideway, forms sealing " felt " layer of core body slideway by this.

Can realize thus forming supporting member to single seal construction of core body.

Described first filter slideway 8-9-5-1 constructs identical with the second filter slideway 8-9-5-2, is separately positioned on the both sides of core body slideway 8-9-5-3, for mounting plate type filter.

The formation of described first filter slideway 8-9-5-1 is: it has the first filter slideway the first side wall 8-9-5-13, first filter slideway second sidewall 8-9-5-12, forms 8-9-5-11 bottom the first filter slideway by aforesaid first hypotenuse wall between this two side.

The formation of described second filter slideway 8-9-5-2 is: it has the second filter slideway the first side wall 8-9-5-23, second filter slideway second sidewall 8-9-5-22, forms 8-9-5-21 bottom the second filter slideway by aforesaid second hypotenuse wall between this two side.

The structure of the first side wall of the first filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint O for summit, sidewall is extended to form along described second hypotenuse wall 8-9-5-21, that its front is arranged is core body slideway the first side wall 8-9-5-31, the back side of this core body slideway the first side wall is the filter slideway the first side wall 8-9-5-13 of the first filter slideway 8-9-5-1, this filter slideway the first side wall is arranged filter slideway first sealing strip jaw 8-9-5-131, configuration filter slideway jaw necking down 8-9-5-131-1 on this filter slideway first sealing strip jaw, form the sealing strip installation cavity 8-9-5-131-10 of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating potted component.

The structure of the first side wall of the second filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint O for summit, sidewall is extended to form along described first hypotenuse wall 8-9-5-11, that its front is arranged is core body slideway second sidewall 8-9-5-32, the back side of this core body slideway second sidewall is the filter slideway the first side wall 8-9-5-23 of the second filter slideway 8-9-5-2, this filter slideway the first side wall is arranged filter slideway first sealing strip jaw 8-9-5-231, configuration filter slideway jaw necking down 8-9-5-231-1 on this filter slideway first sealing strip jaw, form the sealing strip installation cavity 8-9-5-231-10 of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating potted component.

The structure of first, second filter slideway second sidewall: in first, second hypotenuse wall bottom of the hollow channel of supporting member, namely the intersection side of this first hypotenuse wall 8-9-5-11 and the first neck sidewall 8-9-41 is stretched and is arranged the first filter slideway second sidewall 8-9-5-12.

The intersection side of this second hypotenuse wall 8-9-5-21 and the second neck sidewall 8-9-42 is stretched and is arranged the second filter slideway second sidewall 8-9-5-22.

This first, second filter slideway second sidewall 8-9-5-12,8-9-5-22 are mutually corresponding with described first, second filter slideway the first side wall 8-9-5-13,8-9-5-23, form the passage holding leaf filter and can insert along this filter slideway.

Described filter slideway second sidewall can be straight plate structure, forms a kind of seal construction embodiment of this case, as Fig. 2,2a.

Another seal construction embodiment of described filter slideway second sidewall formation of structure this case of another embodiment, as Fig. 1,1a-1d, the first filter slideway is corresponding identical with the second filter slideway structure, specifically describes:

Described first filter slideway second sidewall is arranged configuration filter slideway jaw necking down 8-9-5-121-1 on this first filter slideway second sealing strip jaw of the first filter slideway second sealing strip jaw 8-9-5-121, form the sealing strip installation cavity 8-9-5-121-10 of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating sealing strip.

Described second filter slideway second sidewall is arranged configuration filter slideway jaw necking down 8-9-5-221-1 on this first filter slideway second sealing strip jaw of the second filter slideway second sealing strip jaw 8-9-5-221, form the sealing strip installation cavity 8-9-5-221-10 of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating sealing strip.

Thus, can realize forming the double containment of supporting member to core body and filter to construct.

Described potted component, see Fig. 8,8a, described potted component also claims sealing strip, for being arranged on the sealing strip jaw of supporting member, forms seal construction.

Described potted component has sealing strip and installs base portion 10-1, and adjacent sealing bar is installed base portion and arranged sealing strip bizet 10-2.Base portion installed by described sealing strip can form the structure that can insert the sealing strip jaw of supporting member by prior art, and the sealing strip installation cavity for the sealing strip jaw with supporting member mates and combines.

Described sealing strip bizet 10-2 is set to be implanted in the fluffy body that base portion installed by sealing strip, includes but not limited to perpendicular hair or the felt of hairbrush shape.

Generally known, the sealing strip bizet of potted component erects hair part and crosses conference and have influence on the propelling of core body to slideway; And too small can not " overflowing " goes out jaw, sealing effectiveness can be had influence on.

Further, the height h of described sealing strip bizet be set to sealing strip install 1 times of base portion height h1 or 2 times or 3 times or 2-3 doubly between.

Thus, the fluffy body of described sealing strip bizet " can overflow " after being used for blocking the installation base portion of potted component by the necking down of aforementioned core body slideway jaw and go out jaw, like this, when core body advances along slideway, when potted component is subject to core body extruding, potted component can realize the technique effect spreading sealing " felt " layer overflow on slideway as " felt mattress ", also effectively can reduce the noise of unit, provide safeguard for unit operation is more stable.

Thus, the section structure of aforesaid various supporting member is assembled frame with first or second or the 3rd of the first or second end frame portion of aforementioned support body element and is combined, and provides the heat recovery core support structure unit of different embodiment.For realizing spacing, the alignment feature of core body installing rack.

The structure configuration of the core body slideway angle by providing supporting member of aforementioned supporting member, thus provide the adaptive support structure unit installing the different embodiments of positive tetrahedron prism-shaped core body or hexahedron prism-shaped core body, the industrialization that effectively can improve this case is suitable for ability.

The configuration of aforementioned support body element achieves integral type and split type structure, also has structure that is adjustable and unadjustable position, thus provides the support structure assembly of different embodiment.

The supporting member section structure by configuring single hermetically-sealed construction and double sealing structure of aforementioned supporting member, further provides the support structure assembly of different embodiment thus.For realizing preventing air flow shortcircuit, the problem that new wind is polluted in solution air draft provides effective solution.

The structure effect of aforesaid support structure assembly also there are provided the frock structure of board-like recuperation of heat unit heat recovery core easy accessibility wherein, include but not limited to the integral type of spacing, alignment feature, support body element and split type structure, also have structure etc. that is adjustable and unadjustable position, thus effectively can improve the efficiency of assembling of unit.

Further, the fast assembling structure of fastening of the terminal box of described board-like recuperation of heat unit is provided.The efficiency of assembling of further raising unit entirety.

The fast assembling structure of fastening of described terminal box, also claims the fast assembling structure of fastening of box body or door body.It is also applicable to comprise the so similar position of access door, access panel.Described set of terminal box is configured on machine case body 2 by general prior art, therefore does not indicate in unit diagram.Access door 205 configures on machine case body 2.

The fast assembling structure 12 of fastening of described box body or door body, comprise the maternal body 12-1 of terminal box and button cap body 12-2, the maternal body 12-1 of described terminal box has first, second and assembles sub-bead 12-1-1,12-1-2, assemble this first, second on sub-bead and configure first, second fastening hole 12-1-10,12-1-20 respectively.

Described button cap body 12-2 has first, second and assemble female bead 12-2-1,12-2-2, assemble this first, second and female bead configures first, second respectively fasten protruding 12-2-10,12-2-20.

First, second above-mentioned fastening projection arranges protruding half spherical cambered surface 12-2-101 and protruding perpendicular 12-2-102, protruding half spherical cambered surface is used for guide hump to be recognized fast into fastening hole, protruding perpendicular is stuck in hole for allowing the projection of recognizing fastening hole, does not skid off.

Aforesaid support structure assembly in conjunction with the structure effect of the fast assembling structure of fastening of described terminal box there are provided heat recovery core easy accessibility, access panel, terminal box etc. in board-like recuperation of heat unit common drive with position quick fastening frock structure, effectively can improve the efficiency of assembling of unit with this structure effect.

After the preferred embodiment described in detail, being familiar with this technology personage can clearly understand, and do not departing under following claim and spirit and can carry out various change and amendment, and this case is not also limited to the embodiment of illustrated embodiment in description.

Claims (10)

1. the supporting member structure of a board-like heat recovery core, described supporting member comprises substrate, neck, bizet, it is characterized in that, described supporting member substrate (8-9-3) has supporting member contraposition projection (8-9-3-1); Described supporting member neck (8-9-4): the hollow channel (8-9-0) along described supporting member substrate being upwards supporting member, this supporting member hollow channel wherein has the part forming supporting member neck, first neck sidewall (8-9-41) of this supporting member neck is parallel corresponding with the second neck sidewall (8-9-42), and perpendicular to supporting member substrate;

Preset pitch width (8-9-4b) between described first neck sidewall and the second neck sidewall, adapts to for mating with each spacing edge-cut (8-1-b) assembled on edge of support body element;

Described supporting member bizet (8-9-5): described supporting member bizet is made up of the first filter slideway (8-9-5-1) and the second filter (8-9-5-2) and core body slideway (8-9-5-3); Described first filter slideway is identical with the second filter slideway structure, is separately positioned on the both sides of core body slideway;

Described core body slideway (8-9-5-3) is for summit with the first hypotenuse wall (8-9-5-11) in supporting member hollow channel and the second hypotenuse wall (8-9-5-21) joint, extend along described second hypotenuse wall, core body slideway the first side wall (8-9-5-31) is set; Along described first hypotenuse wall extended core body slideway second sidewall (8-9-5-32); Described core body slideway the first side wall and core body slideway second sidewall form the passage holding core body and slip into along this;

Core body slideway the first side wall arranges core body slideway first sealing strip jaw (8-9-5-311), core body slideway second sidewall arranges core body slideway second sealing strip jaw (8-9-5-321);

Described core body slideway the first side wall and the core body slideway second sidewall formed angle that crosses is called core body slideway angle, this core body slideway angle predetermined angle, for adapting to the incline cornerite angle automatching of heat recovery core;

The formation of described first filter slideway (8-9-5-1) is: it has the first filter slideway the first side wall (8-9-5-13), first filter slideway second sidewall (8-9-5-12), is formed bottom the first filter slideway (8-9-5-11) by aforesaid first hypotenuse wall between this two side;

The formation of described second filter slideway (8-9-5-2) is: it has the second filter slideway the first side wall (8-9-5-23), second filter slideway second sidewall (8-9-5-22), is formed bottom the second filter slideway (8-9-5-21) by aforesaid second hypotenuse wall between this two side;

The structure of the first side wall of the first filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint for summit, sidewall is extended to form along described second hypotenuse wall (8-9-5-21), what its front was arranged is core body slideway the first side wall (8-9-5-31), the back side of this core body slideway the first side wall is the filter slideway the first side wall (8-9-5-13) of the first filter slideway (8-9-5-1), and this filter slideway the first side wall arranges filter slideway first sealing strip jaw (8-9-5-131);

The structure of the first side wall of the second filter slideway is: with the first hypotenuse wall of the hollow channel of supporting member and the second hypotenuse wall joint for summit, sidewall is extended to form along described first hypotenuse wall (8-9-5-11), what its front was arranged is core body slideway second sidewall (8-9-5-32), the back side of this core body slideway second sidewall is the filter slideway the first side wall (8-9-5-23) of the second filter slideway (8-9-5-2), and this filter slideway the first side wall arranges filter slideway first sealing strip jaw (8-9-5-231);

The structure of the second sidewall of first, second filter slideway described: in first, second hypotenuse wall bottom of the hollow channel of supporting member, namely this first hypotenuse wall (8-9-5-11) is stretched with the intersection side of the first neck sidewall (8-9-41) and is arranged the first filter slideway second sidewall (8-9-5-12);

This second hypotenuse wall (8-9-5-21) is stretched with the intersection side of the second neck sidewall (8-9-42) and is arranged the second filter slideway second sidewall (8-9-5-22);

This first, second filter slideway second sidewall (8-9-5-12,8-9-5-22) is mutually corresponding with first, second filter slideway the first side wall (8-9-5-13,8-9-5-23) described, forms the passage holding leaf filter and insert along this filter slideway.

2. the supporting member structure of board-like heat recovery core as claimed in claim 1, is characterized in that, the second sidewall of first, second filter slideway described is set to straight plate structure respectively; Or, second sidewall of first, second filter slideway described is set to respectively: described first filter slideway second sidewall arranges the first filter slideway second sealing strip jaw (8-9-5-121), and described second filter slideway second sidewall arranges the second filter slideway second sealing strip jaw (8-9-5-221).

3. the supporting member structure of board-like heat recovery core as claimed in claim 2, it is characterized in that, first, second sealing strip jaw of core body slideway structure of described core body slideway (8-9-5-3) is identical, each sealing strip jaw all configures core body slideway jaw necking down (8-9-5-321-1), form the sealing strip installation cavity (8-9-5-321-10) of sealing strip jaw whereby, base portion (10-1) installed by the sealing strip that sealing bar installation cavity is used for accommodating potted component (10);

Configuration filter slideway jaw necking down (8-9-5-131-1) on described first filter slideway first sealing strip jaw, form the sealing strip installation cavity (8-9-5-131-10) of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating potted component;

Configuration filter slideway jaw necking down (8-9-5-121-1) on described first filter slideway second sealing strip jaw, form the sealing strip installation cavity (8-9-5-121-10) of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating sealing strip;

Configuration filter slideway jaw necking down (8-9-5-231-1) on first sealing strip jaw of described second filter slideway, form the sealing strip installation cavity (8-9-5-231-10) of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating potted component;

Configuration filter slideway jaw necking down (8-9-5-221-1) on second sealing strip jaw of described second filter slideway, form the sealing strip installation cavity (8-9-5-221-10) of sealing strip jaw whereby, sealing bar installation cavity is used for the installation base portion of accommodating sealing strip.

4. there is the support structure assembly of the heat recovery core of the supporting member structure of the arbitrary board-like heat recovery core of aforementioned claim 1-3, comprise support body element (8-1) and be installed on the supporting member (8-9) on this support body element, it is characterized in that, the spacing assembling edge (8-1-11 of support body element middle-end frame, 8-1-12 ...) and be arranged on supporting member on the spacing assembling edge of described end frame and form heat recovery core support structure unit, wherein, the spacing assembling edge of support body element middle-end frame is: the end frame (8-1-1 on support body element, 8 '-1-1) on there is assembling edge (8-1-11, 8-1-12 ...), described assembling edge configures spacing edge-cut (8-1-11-1, 8-1-12-1, 8-1-13-1), there is the assembling edge (8-1-11 of spacing edge-cut, 8-1-12 ...) define the spacing assembling edge of support body element middle-end frame,

Each spacing edge-cut on described assembling edge all arranges alignment grooves (8-1-12-10);

Spacing edge-cut width (8-1-b) on each assembling edge of support body element and described supporting member first neck sidewall mate with the width (8-9-4b) between the second neck sidewall and adapt to.

5. the support structure assembly of heat recovery core as claimed in claim 4, it is characterized in that, described support body element (8-1) has first end frame and the second end frame, is connected to form prism-shaped support body element between first end frame and the second end frame by incline post (8-1-0);

Wherein, described first end frame (8-1-1,8 '-1-1) is by each assembling edge (8-1-11,8-1-12 ...) surround the framework periphery holding frame; On described assembling edge, the spacing edge-cut (8-1-11-1,8-1-12-1,8-1-13-1) combined is mated in configuration with supporting member, and each assembles spacing edge-cut width (8-1-b) distance on edge and mates quite with the width distance (8-9-4b) of hollow channel of the supporting member being installed on this; Described second end frame is identical with first end edge frame structure.

6. the support structure assembly of heat recovery core as claimed in claim 5, it is characterized in that, also have, supplemental support body (912) is installed between the framework of first end frame and the second end frame, is packed in the 4th assembling edge (8-1-14) of first end frame and the second end frame; Described supplemental support body has supporting member and installs base portion (912-1).

7. the support structure assembly of heat recovery core as claimed in claim 6, it is characterized in that, the both sides of the 4th assembling edge at described supplemental support body place are the first assembling edge and the 3rd assembling edge, and this first assembling edge and the 3rd spacing edge-cut assembled on edge configure one or two;

Described first assembling edge (8-1-11) and the 3rd assembling edge (8-1-13) are configured to the structure of whole section; Or, two-stage structure separated during described first assembling edge (8 '-1-11) and the 3rd assembling edge (8 '-1-13) are configured to.

8. the support structure assembly of heat recovery core as claimed in claim 7, it is characterized in that, each described assembling edge is set to the elongate configuration of the orthogonal one-tenth dihedral in both sides, the both sides of this orthogonal one-tenth dihedral wherein limit are support body assembling limit (8-1-12-a) for being fixedly mounted with supporting member, and another limit is that the support body for only supporting supporting member end only supports limit (8-1-12-b).

9. the support structure assembly of heat recovery core as claimed in claim 8, is characterized in that, also has potted component in the support structure assembly of described heat recovery core, for being arranged on the sealing strip jaw of supporting member, forms seal construction;

Described potted component has sealing strip and installs base portion (10-1), and adjacent sealing bar is installed base portion and arranged sealing strip bizet (10-2); The structure that base portion becomes can insert the sealing strip jaw of supporting member installed by described sealing strip, and the sealing strip installation cavity for the sealing strip jaw with supporting member mates and combines.

10. the support structure assembly of heat recovery core as claimed in claim 9, is characterized in that, described sealing strip bizet (10-2) is set to be implanted in the fluffy body structure that base portion installed by sealing strip; Described fluffy body is configured to perpendicular hair or the felt of hairbrush shape; The height h of described sealing strip bizet be set to sealing strip install 1 times of base portion height h1 or 2 times or 3 times or 2-3 doubly between.