CN108645048B

CN108645048B - Novel wall-mounted solar heat collecting plate and processing method and mounting method thereof

Info

Publication number: CN108645048B
Application number: CN201810400134.0A
Authority: CN
Inventors: 罗玉彬
Original assignee: Jining City Yanzhou District Dragon New Energy Science And Technology Co ltd
Current assignee: Jining City Yanzhou District Dragon New Energy Science And Technology Co ltd
Priority date: 2018-04-28
Filing date: 2018-04-28
Publication date: 2020-09-22
Anticipated expiration: 2038-04-28
Also published as: CN108645048A

Abstract

The invention relates to a novel wall-mounted solar heat collecting plate, wherein tempered glass is arranged on the front side of a heat collecting frame, the tempered glass is fixed on the heat collecting frame through tempered glass pressing strips, a back plate is arranged on the rear side of the heat collecting frame, a cushion layer and a heat collecting plate core are sequentially arranged in the heat collecting frame from back to front, the heat collecting frame is fixed on an outer wall of a building through a mounting frame, and the heat collecting frame comprises a left wall-mounted solar heat collecting plate trapezoidal frame, a right wall-mounted solar heat collecting plate trapezoidal frame, an upper wall-mounted solar heat collecting plate rectangular frame and a bottom. The invention also provides a processing method of the novel wall-mounted solar heat collecting plate. The invention also provides an installation method of the novel wall-mounted solar heat collecting plate. The invention has the following beneficial effects: high rate of finished products and less production investment. The heat collection frame is tightly installed with the building wall, has no large gap and is not influenced by revolving wind, non-directional wind and wind power, and is firmly and stably fixed.

Description

Novel wall-mounted solar heat collecting plate and processing method and mounting method thereof

Technical Field

The invention relates to a novel wall-mounted solar heat collecting plate, a processing method and an installation method, and belongs to the technical field of wall-mounted solar heat collecting plates.

Background

At present, the wall-hanging solar panel that uses on high-rise building need be at the mount slope mount of installing towards the sun direction, then set up wall-hanging solar panel on the mount of slope, use the mount of slope not only with high costs installation difficulty, and waste time and energy, because high-rise building often has the gyration wind again, non-directional wind and wind-force are great, and the mount that inclines has been corroded for the metal material, drop wall-hanging solar panel easily, not only the property receives the loss but also brings the hidden danger for people's life safety.

The novel wall-mounted solar heat collecting plate, the processing method and the mounting method are needed to be needed, the production can be completed by utilizing the existing production equipment, special production equipment for producing the trapezoidal left and right frames is not needed to be additionally added, the yield is high, and the production investment is less.

Disclosure of Invention

According to the defects in the prior art, the technical problems to be solved by the invention are as follows: in order to solve one of the problems, the invention provides a novel wall-mounted solar heat collecting plate, a processing method and an installation method, the production can be finished by utilizing the existing production equipment, special production equipment for producing trapezoidal left and right frames is not required to be additionally arranged, the yield is high, the production investment is less, and the novel wall-mounted solar heat collecting plate, the processing method and the installation method can realize the vertical and parallel installation of the solar heat collecting plate, improve the capability of resisting severe weather such as storm wind and the like, and reduce the economic loss caused by the severe weather.

The novel wall-mounted solar heat collecting plate comprises a heat collecting frame, a back plate, toughened glass, a toughened glass pressing strip, a cushion layer, a heat collecting plate core and a mounting frame, wherein the toughened glass is arranged on the front side of the heat collecting frame, the toughened glass is fixed on the heat collecting frame through the toughened glass pressing strip, the back plate is arranged on the rear side of the heat collecting frame, the cushion layer and the heat collecting plate core are sequentially arranged in the heat collecting frame from back to front, the heat collecting frame is fixed on an outer wall of a building through the mounting frame, the heat collecting frame comprises a left wall-mounted solar heat collecting plate trapezoidal frame, a right wall-mounted solar heat collecting plate trapezoidal frame, an upper solar heat collecting plate rectangular frame and a bottom wall-mounted solar heat collecting plate trapezoidal frame, the left wall-mounted solar heat collecting plate trapezoidal frame and the right wall-mounted solar The width of the front toughened glass connecting plate is that the top of the trapezoidal frame of the left wall-mounted solar heat collecting plate is detachably connected with one end of the rectangular frame of the upper wall-mounted solar heat collecting plate, the top of the trapezoidal frame of the right wall-mounted solar heat collecting plate is detachably connected with the other end of the rectangular frame of the upper wall-mounted solar heat collecting plate, the bottom of the trapezoidal frame of the left wall-mounted solar heat collecting plate is detachably connected with one end of the trapezoidal frame of the bottom wall-mounted solar heat collecting plate, the bottom of the trapezoidal frame of the right wall-mounted solar heat collecting plate is connected with the other end of the trapezoidal frame of the bottom wall-mounted solar heat collecting plate, the front toughened glass connecting plate and the back plate connecting plate are included, the two base angle angles of the trapezoidal middle plate are respectively arranged between 10-89, the back plate is parallel to the building outer wall surface, the heat collection plate core is parallel to the toughened glass, and the included angle between the toughened glass and the vertical plane is 1-30 degrees.

The trapezoid middle plate is in a right trapezoid shape, a front toughened glass connecting plate is inserted into the right-angled waist of the right trapezoid, and a back plate connecting plate is inserted into the oblique waist of the right trapezoid; or the shape of the trapezoid middle plate is an isosceles trapezoid, a front toughened glass connecting plate is inserted on one side waist of the isosceles trapezoid, and a back plate connecting plate is inserted on the other side waist of the isosceles trapezoid.

Preceding toughened glass connecting plate includes rectangle body one, trapezoidal intermediate lamella inserting groove one, profile buckling spread groove and toughened glass brace table, rectangle body one, trapezoidal intermediate lamella inserting groove one, profile buckling spread groove and toughened glass brace table integrated into one piece, be provided with trapezoidal intermediate lamella inserting groove one that sets up along its length direction on the trailing flank of rectangle body one, trapezoidal intermediate lamella inserting groove one and trapezoidal intermediate lamella plug-in connection, be provided with the profile buckling spread groove that sets up along its length direction on the leading flank of rectangle body one, be provided with the toughened glass brace table that sets up along its length direction on the medial surface of rectangle body one.

The back plate connecting plate comprises a second rectangular pipe body, a second trapezoidal middle plate inserting groove and a back plate inserting groove, the second rectangular pipe body, the second trapezoidal middle plate inserting groove and the back plate inserting groove are integrally formed, the second trapezoidal middle plate inserting groove arranged along the length direction of the second rectangular pipe body is formed in the front side face of the second rectangular pipe body, the second trapezoidal middle plate inserting groove is connected with the second trapezoidal middle plate in an inserting mode, and the back plate inserting groove arranged along the length direction of the second rectangular pipe body is formed in the inner side face of the second rectangular pipe body.

The first trapezoidal middle plate insertion groove is a stopping clamping groove, a stopping edge matched with a stopping groove is arranged at the edge of the trapezoidal middle plate, and the stopping edge and the trapezoidal middle plate are integrally formed.

The trapezoidal middle plate, the front toughened glass connecting plate and the back plate connecting plate are all made of aluminum alloy.

The length of the bottom edge of the trapezoidal middle plate is larger than that of the top edge, and the included angle between the bottom edge of the trapezoidal middle plate and the oblique waist of the trapezoidal middle plate is 10-89 degrees.

The solar heat collecting plate is characterized by further comprising an L-shaped connecting piece, wherein the L-shaped connecting piece is connected between the trapezoidal frame of the left wall-mounted solar heat collecting plate and the rectangular frame of the upper wall-mounted solar heat collecting plate, the rectangular frame of the upper wall-mounted solar heat collecting plate and the trapezoidal frame of the right wall-mounted solar heat collecting plate, the trapezoidal frame of the right wall-mounted solar heat collecting plate and the trapezoidal frame of the bottom wall-mounted solar heat collecting plate, the trapezoidal frame of the bottom wall-mounted solar heat collecting plate and the trapezoidal frame of the left wall-mounted solar.

The rectangular frame of the upper wall-mounted solar heat collection plate comprises a rectangular top plate, a rectangular top plate toughened glass connecting plate and a rectangular top plate back plate connecting plate, wherein the rectangular top plate toughened glass connecting plate is arranged on one side of the rectangular top plate, the rectangular top plate back plate connecting plate is arranged on the other side of the rectangular top plate, and the rectangular top plate, the rectangular top plate toughened glass connecting plate and the rectangular top plate back plate connecting plate are integrally formed; the trapezoidal frame of bottom wall-hanging solar panel includes rectangle bottom plate, rectangle bottom plate toughened glass connecting plate and rectangle bottom plate backplate connecting plate, and one side of rectangle bottom plate is provided with rectangle bottom plate toughened glass connecting plate, and the opposite side of rectangle bottom plate is provided with rectangle bottom plate backplate connecting plate, rectangle bottom plate toughened glass connecting plate, rectangle bottom plate backplate connecting plate integrated into one piece, and the width of rectangle roof is less than the width of rectangle bottom plate.

The bed course includes EPS board heat preservation bed course and polyurethane heat preservation cotton [1], and fire-retardant EPS board heat preservation bed course is located the top of backplate, and fire-retardant EPS board heat preservation bed course's cross-section is trapezoidal, and the upper surface of fire-retardant EPS board heat preservation bed course covers there is the polyurethane heat preservation cotton, and the cotton upper surface of polyurethane heat preservation is provided with prevents heat conduction aluminium foil paper.

The thermal-arrest board core includes heat absorption aluminum plate, the heat-conducting medium inlet tube, the heat-conducting medium outlet pipe, the backward flow is responsible for, go up thermal-arrest copper pipe, thermal-arrest copper pipe down, one side at the heat absorption aluminum plate back is provided with heat-conducting medium inlet tube and heat-conducting medium outlet pipe, the heat-conducting medium inlet tube is located heat-conducting medium outlet pipe below, the opposite side at the heat absorption aluminum plate back is provided with the backward flow and is responsible for, the heat-conducting medium outlet pipe is responsible for through last thermal-arrest copper pipe and backward flow and is linked together, the backward flow is responsible for and is linked together through thermal-arrest copper pipe and heat-conducting medium inlet tube down, the one end of going up thermal-arrest copper pipe and being connected with the heat-conducting.

The heat-conducting medium inlet pipe, the heat-conducting medium outlet pipe and the backflow main pipe are all copper pipes, and the heat-conducting medium inlet pipe, the heat-conducting medium outlet pipe, the backflow main pipe, the upper heat collection copper pipe and the lower heat collection copper pipe are all welded to the back face of the heat absorption aluminum plate through laser.

The upper heat collection copper pipe and the lower heat collection copper pipe are respectively provided with three, limiting clamps are arranged on two sides of the heat absorption aluminum plate, and the heat absorption layer is coated on the front surface of the heat absorption aluminum plate.

The heat-conducting medium inlet pipe and the heat-conducting medium outlet pipe are identical in structure and comprise a pipe orifice section, a corrugated pipe section and a connecting pipe section, the pipe orifice section is connected with one end of the corrugated pipe section, the other end of the corrugated pipe section is connected with the connecting pipe section, the pipe orifice section, the corrugated pipe section and the connecting pipe section are integrally formed, and a through hole for the pipe orifice section to penetrate through is formed in the trapezoidal middle plate.

The mounting bracket is provided with two altogether, and two mounting bracket structures are the same, all include vertical dead lever, horizontal bracing piece and preceding spacing portion, and the couple is installed to the top detachable of vertical dead lever, and the one end of horizontal bracing piece is connected with the bottom of vertical dead lever, and the other end of horizontal bracing piece is provided with preceding spacing portion, and vertical dead lever, horizontal bracing piece and the integrative setting of preceding spacing portion, one side and the thermal-arrest frame of vertical dead lever are fixed, and vertical dead lever passes through expansion bolts to be fixed on the building outer wall.

The back plate is a color steel plate or a galvanized plate.

The invention also provides a processing method of the novel wall-mounted solar heat collecting plate, which comprises the following processing steps: splicing the trapezoidal frame of the left wall-mounted solar heat collection plate, the trapezoidal frame of the right wall-mounted solar heat collection plate, the rectangular frame of the upper wall-mounted solar heat collection plate and the trapezoidal frame of the bottom wall-mounted solar heat collection plate together by using an L-shaped connecting piece to form a heat collection frame, and fixing the back plate at the rear side of the heat collection frame; a cushion layer and a heat collecting plate core are sequentially arranged in the heat collecting frame from back to front; the toughened glass is fixed on the heat collection frame through a toughened glass pressing bar;

wherein, the processing steps of the trapezoidal frame of the wall-hanging solar panel on the left side include: prepare a rectangular plate, at first on one side of rectangular plate before the toughened glass connecting plate pegs graft, cut out a right angled triangle with the rectangular plate opposite side again, can form a trapezoidal intermediate lamella, cut the practical tandem slitter of processing, the shape of trapezoidal intermediate lamella is right trapezoid, and the back plate connecting plate that pegs graft on right trapezoid's oblique waist at last accomplishes the concatenation.

The invention also provides an installation method of the novel wall-mounted solar heat collection plate, wherein the heat collection frame is fixed on the outer wall of the building through the installation frame, the back plate is parallel to the wall surface of the outer wall of the building, the heat collection plate core is parallel to the toughened glass, and the included angle between the toughened glass 9 and the vertical plane is 1-30 degrees.

The working principle of the invention is as follows: the trapezoid middle plate is in a right trapezoid shape, a front toughened glass connecting plate is inserted into the right-angled waist of the right trapezoid, and a back plate connecting plate is inserted into the oblique waist of the right trapezoid; firstly, inserting a front toughened glass connecting plate on one side of a rectangular plate, cutting off a right-angled triangle on the other side of the rectangular plate to form a trapezoidal intermediate plate, cutting and processing a practical plate cutting machine, wherein the trapezoidal intermediate plate is in the shape of a right-angled trapezoid, and finally inserting a back backboard connecting plate on the oblique waist of the right-angled trapezoid to complete splicing; the length of the bottom edge of the trapezoidal middle plate is larger than that of the top edge, the included angle between the bottom edge of the trapezoidal middle plate and the oblique waist of the trapezoidal middle plate can be set to be 10-89 degrees, the included angle between the bottom edge of the trapezoidal middle plate and the oblique waist of the trapezoidal middle plate can be adjusted, and the inclined angle of the heat collecting plate core can be controlled; the heat collecting frame is internally and sequentially provided with a cushion layer and a heat collecting plate core from back to front, the heat collecting plate core is parallel to the toughened glass, the heat collecting frame is fixed on an outer wall of a building through a mounting frame during installation, the back plate is parallel to the wall surface of the outer wall of the building, and the included angle between the toughened glass 9 and a vertical plane is 1-30 degrees.

Compared with the prior art, the invention has the following beneficial effects: 1. the toughened glass connecting plate before pegging graft on one side of rectangular plate earlier, cut out a right angled triangle with the rectangular plate opposite side again, can form a trapezoidal intermediate lamella, the shape of trapezoidal intermediate lamella is right trapezoid, cut the practical tandem slitter of processing, the postnotum connecting plate of pegging graft on right trapezoid's oblique waist at last accomplishes the concatenation, utilize current production facility can accomplish production, need not add the special production facility of producing trapezoidal left and right sides frame in addition, the yield is high, the production input is few. 2. The right-angled waist of the right-angled trapezoid is spliced with the front toughened glass connecting plate, the oblique waist of the right-angled trapezoid is spliced with the back backboard connecting plate, and the splicing structure has the characteristics of simple and compact structure, good sealing effect and convenience in processing. 3. The length of the bottom edge of the trapezoidal middle plate is larger than that of the top edge, the included angle between the bottom edge of the trapezoidal middle plate and the oblique waist of the trapezoidal middle plate can be set to be 10-89 degrees, the included angle between the bottom edge of the trapezoidal middle plate and the oblique waist of the trapezoidal middle plate can be adjusted, the inclined angle of the heat collection plate core can be controlled, if the heat collection frame is installed on a vertically arranged building outer wall, the inclined angle of the heat collection plate core is equal to the included angle between the bottom edge of the trapezoidal middle plate and the oblique waist of the trapezoidal middle plate, namely, the larger the area of the triangle of the rectangular plate is, the smaller the included angle between the bottom edge of the trapezoidal middle plate and the oblique waist of the trapezoidal middle plate is, the smaller the inclined angle of the heat collection. 4. The heat collection frame is formed by assembling the trapezoidal frame of the left wall-mounted solar heat collection plate, the trapezoidal frame of the right wall-mounted solar heat collection plate, the rectangular frame of the upper wall-mounted solar heat collection plate and the trapezoidal frame of the bottom wall-mounted solar heat collection plate, and the assembling structure has the characteristics of simple and compact structure, good sealing effect and convenience in processing. 5. The inclination angle is the included angle of the heat collecting plate core and the horizontal ground, the best inclination angle in one year is related to the local geographical latitude, when the latitude is higher, the corresponding inclination angle is large, the heat collecting plate core has a certain angle with the horizontal ground, more sunlight irradiation is easily obtained, the heat efficiency of the heat collecting plate core is high, the heat collecting frame is tightly installed with the building wall, no large gap is affected by the rotating wind, the non-directional wind and the wind power, the fixation is firm and stable, the installation and the fixation are easy, the time and the labor are saved, the heat collecting effect is good, and the cost is low. 6. The heat collecting plate core comprises a heat absorbing aluminum plate, a heat conducting medium inlet pipe and a heat conducting medium outlet pipe, the backward flow is responsible for, go up the thermal-arrest copper pipe, thermal-arrest copper pipe down, one side at the heat absorption aluminum plate back is provided with heat-conducting medium inlet tube and heat-conducting medium outlet pipe, the heat-conducting medium inlet tube is located heat-conducting medium outlet pipe below, the opposite side at the heat absorption aluminum plate back is provided with the backward flow and is responsible for through last thermal-arrest copper pipe, the heat-conducting medium outlet pipe is responsible for through last thermal-arrest copper pipe and backward flow and is linked together, the backward flow is responsible for and is linked together through thermal-arrest copper pipe and heat-conducting medium inlet tube down, the one end of going up thermal-arrest copper pipe and being connected with the heat-conducting medium outlet pipe is higher than the one end of going up thermal-arrest copper pipe and backward flow and being responsible.

Drawings

FIG. 1 is a schematic view of the present invention installed on an exterior wall of a building;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is an enlarged view of the structure of the heat collecting plate core;

FIG. 4 is an enlarged schematic view of the structure of a heat transfer medium inlet pipe;

FIG. 5 is an enlarged schematic view of the trapezoidal frame of the left wall-mounted solar heat collecting panel;

FIG. 6 is a schematic cross-sectional view of a trapezoidal frame of a left wall-mounted solar collector panel;

FIG. 7 is an enlarged view illustrating a junction structure of a heat collecting frame;

FIG. 8 is an enlarged view illustrating a junction structure of a heat collecting frame;

FIG. 9 is a schematic cross-sectional view of a rectangular frame of an upper wall-mounted solar collector panel;

fig. 10 is a schematic cross-sectional view of a trapezoidal frame of a bottom wall-mounted solar collector panel.

In the figure: 1. 1.1 parts of a trapezoidal middle plate, 2 parts of a backstop edge, 2.1 parts of a front toughened glass connecting plate, 2.2 parts of a rectangular pipe body, 2.3 parts of a trapezoidal middle plate insertion groove, 2.4 parts of a buckling strip connecting groove, 3 parts of a toughened glass supporting table, 3.1 parts of a back plate connecting plate, 3.2 parts of a rectangular pipe body, 3.3 parts of a trapezoidal middle plate insertion groove, 4 parts of a back plate insertion groove, 5 parts of a trapezoidal frame of a left wall-mounted solar heat collecting plate, 6 parts of a trapezoidal frame of a right wall-mounted solar heat collecting plate, 6.1 parts of a rectangular frame of an upper wall-mounted solar heat collecting plate, 6.2 parts of a rectangular top plate, 6.3 parts of a toughened glass connecting plate of the rectangular top plate, 7.3 parts of a back plate connecting plate of a rectangular top plate, 7.1 parts of a trapezoidal frame of a, 11.1 of a cushion layer, 11.2 of a flame-retardant EPS board heat-insulating cushion layer, 11.3 of polyurethane heat-insulating cotton, 12 of heat-conducting-proof aluminum foil paper, 12.1 of a heat-collecting plate core, 12.1.1 of a heat-absorbing aluminum plate, 12.2 of a limiting clamp, 12.2.1 of a heat-conducting medium inlet pipe, 12.2.2 of a pipe orifice section, 12.2.3 of a corrugated pipe section, 12.3 of a connecting pipe section, 12.4 of a heat-conducting medium outlet pipe, 12.5 of a backflow main pipe, 12.6 of an upper heat-collecting copper pipe, 13.1 of a lower heat-collecting copper pipe, 13.1 of an installation frame, 13.2 of a vertical fixing rod, 13.3 of a.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

the present invention is further illustrated by the following specific examples, which are not intended to limit the scope of the invention, and any modifications, equivalents, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Example one

As shown in 1-10, the novel wall-mounted solar heat collecting plate comprises a heat collecting frame, a back plate 8, toughened glass 9, a toughened glass pressing strip 10, a cushion layer 11, a heat collecting plate core 12 and a mounting frame 13, wherein the toughened glass 9 is arranged on the front side of the heat collecting frame, the toughened glass 9 is fixed on the heat collecting frame through the toughened glass pressing strip 10, the back plate 8 is arranged on the rear side of the heat collecting frame, the cushion layer 11 and the heat collecting plate core 12 are sequentially arranged in the heat collecting frame from the back to the front, the heat collecting frame is fixed on an external wall of a building through the mounting frame 13, the heat collecting frame comprises a left side solar heat collecting plate trapezoidal frame 4, a right side wall-mounted solar heat collecting plate trapezoidal frame 5, an upper wall-mounted solar heat collecting plate rectangular frame 6 and a bottom wall-mounted solar heat collecting plate trapezoidal, the width of the rectangular frame 6 of the upper wall-mounted solar heat collecting plate is smaller than that of the rectangular frame 7 of the bottom wall-mounted solar heat collecting plate, the top of the rectangular frame 4 of the left wall-mounted solar heat collecting plate is detachably connected with one end of the rectangular frame 6 of the upper wall-mounted solar heat collecting plate, the top of the trapezoidal frame 5 of the right wall-mounted solar heat collecting plate is detachably connected with the other end of the rectangular frame 6 of the upper wall-mounted solar heat collecting plate, the bottom of the trapezoidal frame 4 of the left wall-mounted solar heat collecting plate is detachably connected with one end of the trapezoidal frame 7 of the bottom wall-mounted solar heat collecting plate, the bottom of the trapezoidal frame 5 of the right wall-mounted solar heat collecting plate is connected with the other end of the trapezoidal frame, the shape of the trapezoid middle plate 1 is a right trapezoid, a front toughened glass connecting plate 2 is inserted into the right-angled waist of the right trapezoid, a rear backboard connecting plate 3 is inserted into the oblique waist of the right trapezoid, the backboard 8 is parallel to the wall surface of the building outer wall, the heat collecting plate core 12 is parallel to the toughened glass 9, and the included angle between the toughened glass 9 and the vertical plane is 1-30 degrees. .

In this embodiment, the front tempered glass connecting plate 2 includes a first rectangular tube body 2.1, a first trapezoidal middle plate insertion groove 2.2, a buckle connection groove 2.3 and a tempered glass support table 2.4, the first rectangular tube body 2.1, the first trapezoidal middle plate insertion groove 2.2, the buckle connection groove 2.3 and the tempered glass support table 2.4 are integrally formed, the first trapezoidal middle plate insertion groove 2.2 arranged along the length direction of the first rectangular tube body 2.1 is arranged on the rear side surface of the first rectangular tube body 2.1, the first trapezoidal middle plate insertion groove 2.2 is in insertion connection with the first trapezoidal middle plate 1, the buckle connection groove 2.3 arranged along the length direction of the first rectangular tube body 2.1 is arranged on the front side surface of the first rectangular tube body 2.1, and the tempered glass support table 2.4 arranged along the length direction of the first rectangular tube body 2.1 is arranged on the inner side surface; the rear backboard connecting plate 3 comprises a rectangular pipe body II 3.1, a trapezoidal middle board inserting groove II 3.2 and a backboard inserting groove 3.3, the rectangular pipe body II 3.1, the trapezoidal middle board inserting groove II 3.2 and the backboard inserting groove 3.3 are integrally formed, the trapezoidal middle board inserting groove II 3.2 arranged along the length direction of the rectangular pipe body II is arranged on the front side surface of the rectangular pipe body II 3.1, the trapezoidal middle board inserting groove II 3.2 is connected with the trapezoidal middle board 1 in an inserting mode, and the backboard inserting groove 3.3 arranged along the length direction of the rectangular pipe body II 3.1 is arranged on the inner side surface of the rectangular pipe body II 3.1; the first trapezoidal middle plate insertion groove 2.2 is a backstop clamping groove, a backstop edge 1.1 which is matched with the backstop clamping groove in a backstop mode is arranged at the edge of the trapezoidal middle plate 1, and the backstop edge 1.1 and the trapezoidal middle plate 1 are integrally formed; the trapezoidal middle plate 1, the front toughened glass connecting plate 2 and the back plate connecting plate 3 are all made of aluminum alloy; the length of the bottom edge of the trapezoidal middle plate 1 is greater than that of the top edge, and the included angle between the bottom edge of the trapezoidal middle plate 1 and the oblique waist of the trapezoidal middle plate 1 is 10-89 degrees; the solar heat collecting plate heat collecting device is characterized by further comprising L-shaped connecting pieces, wherein the L-shaped connecting pieces are connected between the trapezoidal frame 4 of the left wall-mounted solar heat collecting plate and the rectangular frame 6 of the upper wall-mounted solar heat collecting plate, between the rectangular frame 6 of the upper wall-mounted solar heat collecting plate and the trapezoidal frame 5 of the right wall-mounted solar heat collecting plate, between the trapezoidal frame 5 of the right wall-mounted solar heat collecting plate and the trapezoidal frame 7 of the bottom wall-mounted solar heat collecting plate, and between the trapezoidal frame 7 of the bottom wall-mounted solar heat collecting plate and the trapezoidal frame 4 of; the rectangular frame 6 of the upper wall-mounted solar heat collection plate comprises a rectangular top plate 6.1, a rectangular top plate toughened glass connecting plate 6.2 and a rectangular top plate back plate connecting plate 6.3, wherein the rectangular top plate toughened glass connecting plate 6.2 is arranged on one side of the rectangular top plate 6.1, the rectangular top plate back plate connecting plate 6.3 is arranged on the other side of the rectangular top plate 6.1, and the rectangular top plate 6.1, the rectangular top plate toughened glass connecting plate 6.2 and the rectangular top plate back plate connecting plate 6.3 are integrally formed; the bottom wall-mounted solar heat collection plate trapezoidal frame 7 comprises a rectangular bottom plate 7.1, a rectangular bottom plate tempered glass connecting plate 7.2 and a rectangular bottom plate backboard connecting plate 7.3, wherein the rectangular bottom plate tempered glass connecting plate 7.2 is arranged on one side of the rectangular bottom plate 7.1, the rectangular bottom plate backboard connecting plate 7.3 is arranged on the other side of the rectangular bottom plate 7.1, the rectangular bottom plate tempered glass connecting plate 7.2 and the rectangular bottom plate backboard connecting plate 7.3 are integrally formed, and the width of the rectangular top plate 6.1 is smaller than that of the rectangular bottom plate 7.1; the cushion layer 11 comprises an inflaming retarding EPS board heat preservation cushion layer 11.1 and polyurethane heat preservation cotton 11.2, the inflaming retarding EPS board heat preservation cushion layer 11.1 is located above the back plate 8, the section of the inflaming retarding EPS board heat preservation cushion layer 11.1 is trapezoidal, the polyurethane heat preservation cotton 11.2 covers the upper surface of the inflaming retarding EPS board heat preservation cushion layer 11.1, and heat-conducting preventing aluminum foil paper 11.3 is arranged on the upper surface of the polyurethane heat preservation cotton 11.2; the heat collecting plate core 12 comprises an endothermic aluminum plate 12.1, a heat conducting medium inlet pipe 12.2, a heat conducting medium outlet pipe 12.3, a backflow main pipe 12.4, an upper heat collecting copper pipe 12.5 and a lower heat collecting copper pipe 12.6, a heat-conducting medium inlet pipe 12.2 and a heat-conducting medium outlet pipe 12.3 are arranged on one side of the back surface of the heat-absorbing aluminum plate 12.1, the heat-conducting medium inlet pipe 12.2 is positioned below the heat-conducting medium outlet pipe 12.3, a backflow main pipe 12.4 is arranged on the other side of the back surface of the heat-absorbing aluminum plate 12.1, the heat-conducting medium outlet pipe 12.3 is communicated with the backflow main pipe 12.4 through an upper heat-collecting copper pipe 12.5, the backflow main pipe 12.4 is communicated with the heat-conducting medium inlet pipe 12.2 through a lower heat-collecting copper pipe 12.6, one end of the upper heat-collecting copper pipe 12.5, which is connected with the heat-conducting medium outlet pipe 12.3, is higher than one end of the upper heat-collecting copper pipe 12.5, which is connected with the backflow main pipe 12.4, and one end of the lower heat-collecting copper pipe 12; the heat-conducting medium inlet pipe 12.2, the heat-conducting medium outlet pipe 12.3 and the backflow main pipe 12.4 are all copper pipes, and the heat-conducting medium inlet pipe 12.2, the heat-conducting medium outlet pipe 12.3, the backflow main pipe 12.4, the upper heat collecting copper pipe 12.5 and the lower heat collecting copper pipe 12.6 are all welded on the back of the heat absorbing aluminum plate 12.1 through laser; the number of the upper heat collecting copper pipes 12.5 and the number of the lower heat collecting copper pipes 12.6 are three respectively, the two sides of the heat absorbing aluminum plate 12.1 are provided with limiting clamps 12.1.1, and the front surface of the heat absorbing aluminum plate 12.1 is coated with a heat absorbing layer; the heat-conducting medium inlet pipe 12.2 and the heat-conducting medium outlet pipe 12.3 are structurally the same and respectively comprise a pipe orifice section 12.2.1, a corrugated pipe section 12.2.2 and a connecting pipe section 12.2.3, one end of the corrugated pipe section 12.2.2 is connected with the pipe orifice section 12.2.1, the other end of the corrugated pipe section 12.2.2 is connected with the connecting pipe section 12.2.3, the pipe orifice section 12.2.1, the corrugated pipe section 12.2.2 and the connecting pipe section 12.2.3 are integrally formed, and a through hole for the pipe orifice section 12.2.1 to pass through is formed in the trapezoidal middle plate 1; the mounting bracket 13 is provided with two altogether, two mounting bracket 13 structures are the same, all include vertical dead lever 13.1, horizontal bracing piece 13.2 and preceding spacing portion 13.3, the top detachable of vertical dead lever 13.1 installs couple 13.4, the one end and the bottom of vertical dead lever 13.1 of horizontal bracing piece 13.2 are connected, spacing portion 13.3 before horizontal bracing piece 13.2's the other end is provided with, vertical dead lever 13.1, horizontal bracing piece 13.2 and preceding spacing portion 13.3 are integrative to be set up, one side and the thermal-arrest frame of vertical dead lever 13.1 are fixed, vertical dead lever 13.1 passes through expansion bolts to be fixed on the building outer wall.

The invention also provides a processing method of the novel wall-mounted solar heat collecting plate, which comprises the following processing steps: splicing a left wall-mounted solar heat collecting plate trapezoidal frame 4, a right wall-mounted solar heat collecting plate trapezoidal frame 5, an upper wall-mounted solar heat collecting plate rectangular frame 6 and a bottom wall-mounted solar heat collecting plate trapezoidal frame 7 together by using an L-shaped connecting piece to form a heat collecting frame, and fixing a back plate 8 at the rear side of the heat collecting frame; a cushion layer 11 and a heat collecting plate core 12 are sequentially arranged in the heat collecting frame from back to front; the toughened glass 9 is fixed on the heat collection frame through a toughened glass pressing strip 10;

wherein, the processing steps of the trapezoidal frame 4 of the wall-hanging solar panel on the left side comprise: prepare a rectangular plate, at first on one side of rectangular plate before the toughened glass connecting plate pegs graft, cut out a right angled triangle with the rectangular plate opposite side again, can form a trapezoidal intermediate lamella, cut the practical tandem slitter of processing, the shape of trapezoidal intermediate lamella is right trapezoid, and the back plate connecting plate that pegs graft on right trapezoid's oblique waist at last accomplishes the concatenation.

The invention also provides an installation method of the novel wall-mounted solar heat collecting plate, wherein the heat collecting frame is fixed on the outer wall of the building through the installation frame 13, the back plate 8 is parallel to the outer wall surface of the building, the heat collecting plate core 12 is parallel to the toughened glass 9, and the included angle between the toughened glass 9 and the vertical plane is 1-30 degrees.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A wall-mounted solar heat collection panel, characterized in that: the solar heat collection frame comprises a heat collection frame body and further comprises a back plate (8), toughened glass (9), toughened glass pressing strips (10), a cushion layer (11), a heat collection plate core (12) and a mounting frame (13), wherein the toughened glass (9) is arranged on the front side of the heat collection frame body, the toughened glass (9) is fixed on the heat collection frame body through the toughened glass pressing strips (10), the back plate (8) is arranged on the rear side of the heat collection frame body, the cushion layer (11) and the heat collection plate core (12) are sequentially arranged in the heat collection frame body from back to front, the heat collection frame body is fixed on a building outer wall through the mounting frame (13), the heat collection frame body comprises a left wall-mounted solar heat collection plate trapezoidal frame body (4), a right wall-mounted solar heat collection plate trapezoidal frame (5), an upper solar heat collection plate rectangular frame (6) and a bottom wall-mounted solar heat collection The line sets up, the width of upper portion wall-hanging solar panel rectangle frame (6) is less than the width of bottom wall-hanging solar panel rectangle frame (7), the top of left side wall-hanging solar panel trapezoid frame (4) can be dismantled with the one end of upper portion wall-hanging solar panel rectangle frame (6) and be connected, the top of right side wall-hanging solar panel trapezoid frame (5) can be dismantled with the other end of upper portion wall-hanging solar panel rectangle frame (6) and be connected, the bottom of left side wall-hanging solar panel trapezoid frame (4) can be dismantled with the one end of bottom wall-hanging solar panel rectangle frame (7) and be connected, the bottom of right side wall-hanging solar panel trapezoid frame (5) is connected with the other end of bottom wall-hanging solar panel rectangle frame (7), left side wall-hanging solar panel trapezoid frame (4) include trapezoidal, The heat collecting plate comprises a front toughened glass connecting plate (2) and a back plate connecting plate (3), wherein the front toughened glass connecting plate (2) is inserted into one side waist of a trapezoidal middle plate (1), the back plate connecting plate (3) is inserted into the other side waist of the trapezoidal middle plate (1), a back plate (8) is parallel to the wall surface of the outer wall of the building, and a heat collecting plate core (12) is parallel to the toughened glass (9); the front toughened glass connecting plate (2) comprises a rectangular pipe body I (2.1), a trapezoidal middle plate inserting groove I (2.2), a buckling strip connecting groove (2.3) and a toughened glass supporting platform (2.4), the rectangular pipe body I (2.1), the trapezoidal middle plate inserting groove I (2.2), the buckling strip connecting groove (2.3) and the toughened glass supporting platform (2.4) are integrally formed, the rear side face of the rectangular pipe body I (2.1) is provided with the trapezoidal middle plate inserting groove I (2.2) arranged along the length direction of the rectangular pipe body I, the trapezoidal middle plate inserting groove I (2.2) is a backstop clamping groove, the edge of the trapezoidal middle plate (1) is provided with a backstop edge (1.1) matched with the backstop clamping groove, the trapezoidal middle plate inserting groove I (2.2) is connected with the trapezoidal middle plate (1) in an inserting mode, the buckling strip connecting groove (2.3) arranged along the length direction of the front side face of the rectangular pipe body I (2.1) is arranged, a toughened glass support table (2.4) arranged along the length direction of the rectangular pipe body I (2.1) is arranged on the inner side surface of the rectangular pipe body I; the back plate connecting plate (3) comprises a rectangular pipe body II (3.1), a trapezoidal middle plate inserting groove II (3.2) and a back plate inserting groove (3.3), the rectangular pipe body II (3.1), the trapezoidal middle plate inserting groove II (3.2) and the back plate inserting groove (3.3) are integrally formed, the trapezoidal middle plate inserting groove II (3.2) arranged along the length direction of the rectangular pipe body II is arranged on the front side surface of the rectangular pipe body II (3.1), the trapezoidal middle plate inserting groove II (3.2) is connected with the trapezoidal middle plate (1) in an inserting mode, and the back plate inserting groove (3.3) arranged along the length direction of the rectangular pipe body II is arranged on the inner side surface of the rectangular pipe body II (3.1); the second trapezoidal middle plate insertion groove is a flat groove; the wall-mounted solar heat collecting plate is characterized by further comprising L-shaped connecting pieces, wherein the L-shaped connecting pieces are connected between a trapezoidal frame (4) of the left wall-mounted solar heat collecting plate and a rectangular frame (6) of the upper wall-mounted solar heat collecting plate, between the rectangular frame (6) of the upper wall-mounted solar heat collecting plate and a trapezoidal frame (5) of the right wall-mounted solar heat collecting plate, between the trapezoidal frame (5) of the right wall-mounted solar heat collecting plate and a rectangular frame (7) of the bottom wall-mounted solar heat collecting plate, and between the rectangular frame (7) of the bottom wall-mounted solar heat collecting plate and the trapezoidal frame (4) of the left wall; the rectangular frame (6) of the upper wall-mounted solar heat collection plate comprises a rectangular top plate (6.1), a rectangular top plate toughened glass connecting plate (6.2) and a rectangular top plate back plate connecting plate (6.3), wherein the rectangular top plate toughened glass connecting plate (6.2) is arranged on one side of the rectangular top plate (6.1), the rectangular top plate back plate connecting plate (6.3) is arranged on the other side of the rectangular top plate (6.1), and the rectangular top plate (6.1), the rectangular top plate toughened glass connecting plate (6.2) and the rectangular top plate back plate connecting plate (6.3) are integrally formed; the rectangular frame (7) of the bottom wall-mounted solar heat collection plate comprises a rectangular bottom plate (7.1), a rectangular bottom plate tempered glass connecting plate (7.2) and a rectangular bottom plate backboard connecting plate (7.3), wherein the rectangular bottom plate tempered glass connecting plate (7.2) is arranged on one side of the rectangular bottom plate (7.1), the rectangular bottom plate backboard connecting plate (7.3) is arranged on the other side of the rectangular bottom plate (7.1), the rectangular bottom plate tempered glass connecting plate (7.2) and the rectangular bottom plate backboard connecting plate (7.3) are integrally formed, and the width of a rectangular top plate (6.1) is smaller than that of the rectangular bottom plate (7.1); the heat collecting plate core (12) comprises a heat absorbing aluminum plate (12.1), a heat conducting medium inlet pipe (12.2), a heat conducting medium outlet pipe (12.3), a backflow main pipe (12.4), an upper heat collecting copper pipe (12.5) and a lower heat collecting copper pipe (12.6), wherein the heat conducting medium inlet pipe (12.2) and the heat conducting medium outlet pipe (12.3) are arranged on one side of the back surface of the heat absorbing aluminum plate (12.1), the heat conducting medium inlet pipe (12.2) is positioned below the heat conducting medium outlet pipe (12.3), the backflow main pipe (12.4) is arranged on the other side of the back surface of the heat absorbing aluminum plate (12.1), the heat conducting medium outlet pipe (12.3) is communicated with the backflow main pipe (12.4) through an upper heat collecting copper pipe (12.5), the end, connected with the heat conducting medium outlet pipe (12.3), of the upper heat collecting copper pipe (12.5) is higher than the end, connected with the backflow main pipe (12.4), of the upper heat collecting copper pipe (12.5), one end of the lower heat collecting copper pipe (12.6) connected with the backflow main pipe (12.4) is higher than one end of the lower heat collecting copper pipe (12.6) connected with the heat conducting medium inlet pipe (12.2).

2. A wall mounted solar thermal panel according to claim 1, wherein: the heat-conducting medium inlet pipe (12.2), the heat-conducting medium outlet pipe (12.3) and the backflow main pipe (12.4) are all copper pipes, and the heat-conducting medium inlet pipe (12.2), the heat-conducting medium outlet pipe (12.3), the backflow main pipe (12.4), the upper heat collecting copper pipe (12.5) and the lower heat collecting copper pipe (12.6) are welded to the back of the heat absorbing aluminum plate (12.1) through laser.

3. A wall mounted solar thermal panel according to claim 2, wherein: the heat-conducting medium inlet pipe (12.2) and the heat-conducting medium outlet pipe (12.3) are identical in structure and respectively comprise a pipe orifice section (12.2.1), a corrugated pipe section (12.2.2) and a connecting pipe section (12.2.3), the connecting pipe orifice section (12.2.1) is connected at one end of the corrugated pipe section (12.2.2), the other end of the corrugated pipe section (12.2.2) is connected with the connecting pipe section (12.2.3), the pipe orifice section (12.2.1), the corrugated pipe section (12.2.2) and the connecting pipe section (12.2.3) are integrally formed, and a through hole for the pipe orifice section (12.2.1) to pass through is formed in the trapezoidal middle plate (1) in the trapezoidal frame (4) of the left wall-mounted solar heat collection plate; mounting bracket (13) are provided with two altogether, two mounting brackets (13) structures are the same, all include vertical dead lever (13.1), horizontal bracing piece (13.2) and preceding spacing portion (13.3), top detachable of vertical dead lever (13.1) installs couple (13.4), the one end and the bottom of vertical dead lever (13.1) of horizontal bracing piece (13.2) are connected, the other end of horizontal bracing piece (13.2) is provided with preceding spacing portion (13.3), vertical dead lever (13.1), horizontal bracing piece (13.2) and preceding spacing portion (13.3) an organic whole set up, one side and the thermal-arrest frame of vertical dead lever (13.1) are fixed, vertical dead lever (13.1) are fixed on the building outer wall through expansion bolts.

4. A method of manufacturing a wall-mounted solar collector panel according to claim 3, wherein: the processing steps comprise: splicing a left wall-mounted solar heat collecting plate trapezoidal frame (4), a right wall-mounted solar heat collecting plate trapezoidal frame (5), an upper wall-mounted solar heat collecting plate rectangular frame (6) and a bottom wall-mounted solar heat collecting plate rectangular frame (7) together by using an L-shaped connecting piece to form a heat collecting frame, and fixing a back plate (8) at the rear side of the heat collecting frame; a cushion layer (11) and a heat collecting plate core (12) are sequentially arranged in the heat collecting frame from back to front; the toughened glass (9) is fixed on the heat collection frame through a toughened glass pressing strip (10); the processing steps of the trapezoidal frame (4) of the left wall-mounted solar heat collection plate comprise: prepare a rectangular plate, at first toughened glass connecting plate (2) before pegging graft on one side of rectangular plate, cut out a right angled triangle with the rectangular plate opposite side again, can form a trapezoidal intermediate lamella (1), cut processing and use the cutting board machine, the shape of trapezoidal intermediate lamella is right trapezoid, pegs graft postnotum connecting plate (3) on right trapezoid's oblique waist at last, accomplishes the concatenation.