CN112728787A - Automatic angle adjusting device for installation of solar heat collecting plate - Google Patents

Abstract

The invention provides an automatic angle adjusting device for mounting a solar heat collecting plate, which comprises a fixed block, a supporting table, a horizontal stepless adjusting device, a supporting plate and an angle adjusting device. The horizontal stepless adjusting device comprises a first connecting plate, a second connecting plate and an adjusting bolt; the first connecting plate comprises a first folded plate and a second folded plate; a sliding groove is formed in the second folded plate; the second connecting plate comprises a third folded plate and a fourth folded plate; a positioning groove is formed in the fourth folded plate; the adjusting bolt penetrates through the sliding groove and the positioning groove and connects the first connecting plate and the second connecting plate together. The angle adjusting device is fixed between the supporting plate and the heat collecting plate; the angle adjusting device comprises a rotating support, two fixing supports, a rotating shaft and positioning pins, wherein each fixing support is provided with a locking hole, the rotating support is provided with three positioning holes, and the positioning pins penetrate through the locking holes and different positioning holes so as to adjust the rotating angle of the rotating support relative to the two fixing supports. The heat collecting plates in different directions can be placed.

Description

Automatic angle adjusting device for installation of solar heat collecting plate

Technical Field

The invention relates to an automatic angle adjusting device for mounting a solar heat collecting plate, belonging to the technical field of auxiliary equipment of solar water heaters.

Background

The wall-mounted solar water heater is a solar water heater which is characterized in that a heat collecting plate is arranged on the vertical surface of a balcony, and a water tank is arranged in the balcony. Because the water tank and the heat collecting plate are separated, the water tank and the heat collecting plate occupy the space of a balcony of a user, and the users do not interfere with each other, so that the water tank and the heat collecting plate are suitable for the installation of modern urban high-rise buildings. At present, the commonly used heat collecting plate mounting bracket on the market mainly has two modes: firstly, the balcony is designed and manufactured on site according to a specific balcony form, and is fixed on a balcony or a vertical surface after welding, and the balcony is characterized by flexible manufacture, time consumption and labor consumption. Secondly, a solar water heater manufacturer designs and manufactures a universal heat collecting plate support mounting module according to a conventional balcony form, and the universal heat collecting plate support mounting module is matched with the water heater in a product form for mounting. The common disadvantages of the two above mounting forms are: the bracket is fixed, so the inclination angle of the heat collecting plate is also fixed and non-adjustable after the installation is completed. The unadjustable installation angle of the heat collecting plate leads to the unaesthetic installation position on one hand, and on the other hand, the unadjustable installation angle of the heat collecting plate needs to be reinstalled when sunlight rays and the included angle of the heat collecting plate are unscientific.

Therefore, it is required to design a mounting device which can finely adjust the angle of the heat collecting plate according to the field environment and the sunshine.

Disclosure of Invention

Aiming at the problems existing in the prior technical scheme, the defect that fine adjustment cannot be performed after the installation of the existing heat collecting plate installation support is completed is overcome, and the invention aims to provide an automatic angle adjusting device for the installation of a solar heat collecting plate.

In order to achieve the purpose, the invention provides the following technical scheme:

an automatic angle modulation device for installation of a solar heat collecting plate is used for adjusting the installation angle of the solar heat collecting plate and comprises:

the fixed block is fixed on the installation foundation;

the supporting tables are horizontally arranged above the installation foundation in parallel;

the automatic angle adjusting device for mounting the solar heat collecting plate further comprises:

the horizontal stepless adjusting device comprises a first connecting plate, a second connecting plate and an adjusting bolt; the first connecting panel comprises a first flap and a second flap; the first folded plate and the second folded plate are vertical and are of an integrated structure; the first folding plate is fixed on the fixed block through a first bolt; a sliding groove is formed in the second folded plate; the second web comprises a third flap and a fourth flap; the third folded plate and the fourth folded plate are vertical and are of an integral structure; the third folding plate is fixed on the lower end face of the supporting table through a second bolt; a positioning groove is formed in the fourth folded plate; the adjusting bolt penetrates through the sliding groove and the positioning groove and connects the first connecting plate and the second connecting plate together.

A support plate vertically fixed on the support table;

an angle adjusting device fixed between the support plate and the heat collecting plate; the angle adjusting device comprises a rotating support fixedly connected with the heat collecting plate, two fixing supports connected with the supporting plate, a rotating shaft and a positioning pin, wherein the rotating support is pivoted to the two fixing supports through the rotating shaft, each fixing support is provided with a locking hole, the rotating support is provided with three positioning holes, the center distance from the locking hole to the rotating shaft is equal to the center distance from the three positioning holes to the rotating shaft, and the positioning pin penetrates through the locking holes and different positioning holes so as to adjust the rotating angle of the rotating support relative to the two fixing supports;

the rotating bracket comprises a base plate and two opposite positioning plates respectively connected with two ends of the base plate, the three positioning holes are formed in one positioning plate, each fixing bracket comprises a fixing plate and a supporting plate connected with the fixing plate and opposite to one positioning plate, and the locking hole is formed in the supporting plate; the distance between the two supporting plates is greater than the distance between the two positioning plates; the rotating support further comprises three first nuts which are positioned on two opposite side surfaces of the two positioning plates and correspond to the three positioning holes, and the positioning pin penetrates through one first nut;

the rotating bracket further comprises a locking part which is formed by extending from the middle part of the base plate to the direction far away from the positioning plate and is provided with an external thread, and the heat collecting plate comprises a connecting part which is matched with the locking part and is provided with an internal thread; the positioning plate is provided with a first shaft hole for the rotating shaft to pass through, the supporting plate is provided with a second shaft hole aligned with the first shaft hole, and the second shaft hole is close to the circle center of the fan-shaped supporting plate; the vertical connecting line of the positioning hole in the middle and the rotating shaft equally divides the included angle formed by the other two positioning holes and the connecting line of the rotating shaft; the center distances from each positioning hole to the first shaft hole are equal.

Furthermore, the automatic angle adjusting device for mounting the solar heat collecting plate further comprises a shaking device, wherein the shaking device comprises a strut, a rotating wheel and a transition plate; the strut is vertically fixed on the support platform, and the other end of the strut is rotatably connected with the rotating wheel; the outer wall of the rotating wheel is fixedly connected with a transition plate; the other side of the transition plate is fixed on one surface of the back surface of the supporting plate opposite to the angle adjusting device.

Further, the locking part is matched with the connecting part of the heat collecting plate, and a through hole for the cable to pass through is formed in the middle of the locking part.

Furthermore, the fixing support further comprises a second nut which is located on the inner side face of the supporting plate and corresponds to the second shaft hole.

Further, the sliding groove is a strip-shaped groove.

Furthermore, the locating slot is semicircular, and the sliding slot and the locating slot are correspondingly arranged.

Further, the bottom end of the fourth folded plate is arc-shaped.

Further, the adjusting bolts are at least two and are evenly distributed.

Furthermore, first connecting plate and second connecting plate are the L type, and all make the shaping through the steel sheet bending.

Furthermore, the locating plate is square, and the supporting plate is fan-shaped.

Compared with the prior art, the invention has the beneficial effects that: 1. through the setting of the stepless adjusting device of level, when needing to adjust the thermal-arrest board of fixing on the brace table, only need to unscrew adjusting bolt, adjust the inclination of second connecting plate according to actual need, then screw up adjusting bolt again to the realization is to the regulation of the backup pad inclination on the brace table, thereby adjusts the gradient of whole device in the horizontal direction.

2. In the vertical direction, the angle adjusting device is utilized, the positioning pin penetrates through the locking hole and different positioning holes, so that the rotating angle of the rotating support relative to at least one fixed support is adjusted, the heat collecting plates fixed on the supporting plate are adjusted, the included angle between the sunlight rays is adjusted, and the arrangement of the heat collecting plates in different directions is met. Meanwhile, a shaking device is arranged between the supporting plate and the supporting platform, so that the heat collecting plate can rotate in the direction, and the sunlight position conversion in different seasons can be realized.

Drawings

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

FIG. 1 is a schematic structural diagram of an embodiment 1 of an automatic angle adjusting device for installing a heat collecting plate according to the present invention;

FIG. 2 is an exploded perspective view of the angle adjustment apparatus of FIG. 1;

FIG. 3 is a schematic structural diagram of an embodiment 2 of an automatic angle adjusting device for installing a heat collecting plate according to the present invention;

FIG. 4 is a schematic view of the first connecting plate of FIG. 1;

FIG. 5 is a schematic diagram of a second connecting plate structure shown in FIG. 1;

FIG. 6 is a schematic side view of the first connecting plate of FIG. 1;

fig. 7 is a side view of the second connecting plate in fig. 1.

The figure is marked with: 1-1-installing a foundation; 1-fixing block; 2-a first connection plate; 3-a second connecting plate; 4-supporting the table; 10, bolt one; 20-adjusting the bolt; 21-a sliding groove; 22-a first flap; 23-a second flap; 30-positioning grooves; 31-a third flap; 32-a fourth flap; 40-bolt II; 50-a pillar; 60-a rotating wheel; 70-a transition plate; 80-a support plate; 90-angle adjustment means; 100-a heat collecting plate; 91-rotating the support; 92-a fixed support; 93-a rotating shaft; 94 positioning pins; 921-fixing the plate; 922-nut two; 923-a support plate; 9233-locking holes; 9131. 9132, 9133-locating holes; 911-a substrate; 912-a first shaft hole; 913-a positioning plate; 914-nut one; 915-a closure; 9151-a through-hole; 9231-second shaft hole; 9211-fixation holes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1, 2, 4, 5, 6 and 7, the present embodiment provides an automatic angle adjusting device for installation of a solar heat collecting plate, which is used for adjusting the installation angle of the solar heat collecting plate 100, and comprises a fixing block 1, a supporting table 4, a horizontal stepless adjusting device, a supporting plate 80 and an angle adjusting device 90.

The fixed block 1 is fixed on the installation foundation 1-1; the supporting table 4 is horizontally arranged above the installation foundation 1-1 in parallel.

The horizontal stepless adjusting device comprises a first connecting plate 2, a second connecting plate 3 and an adjusting bolt 20.

As shown in fig. 4 and 6, the first connecting plate 2 is an L-shaped panel, and the first connecting plate 2 includes a first flap 22 and a second flap 23; the first folded plate 22 and the second folded plate 23 are vertical and are of an integral structure; the first folded plate 22 and the second folded plate 23 are integrally formed by bending a steel plate; the first folded plate 22 is fixed on the fixing block 1 through a first bolt 10; the second folded plate 23 is provided with a sliding groove 21, and the sliding groove 21 is a strip-shaped groove.

As shown in fig. 5 and 7, the second web 3 is an L-shaped panel, and the second web 3 includes a third flap 31 and a fourth flap 32; the third folding plate 31 and the fourth folding plate 32 are vertical and are of an integral structure; the third folding plate 31 and the fourth folding plate 32 are integrally formed by bending a steel plate; the third folded plate 31 is fixed on the lower end surface of the support platform 4 through a second bolt 40; the fourth folded plate 32 is provided with a positioning groove 30; the positioning groove 30 is a semicircular groove.

Meanwhile, the sliding groove 21 and the positioning groove 30 are correspondingly arranged.

The adjusting bolts 20 are provided in a plurality and evenly distributed, and the adjusting bolts 20 penetrate the sliding grooves 21 and the positioning grooves 30 and connect the first connecting plate 2 and the second connecting plate 3 together.

During the horizontal direction adjustment, the first connecting plate 2 is fixed on the fixing block 1 by the first bolt 10, the support plate 80 of the heat collecting plate 100 is fixed on the support table 4, and the support table 4 and the second connecting plate 3 are fixed by the second bolt 40. When the inclination angle of the supporting plate 4 needs to be adjusted, the adjusting bolt 20 is loosened, the positioning groove 30 is semicircular due to the fact that the sliding groove 21 and the positioning groove 30 are correspondingly arranged, the sliding groove 21 is a strip-shaped hole, the inclination angle of the second connecting plate 3 is adjusted according to actual needs, and then the adjusting bolt 20 is screwed down, so that the inclination angle of the supporting plate 4 is adjusted, and the stepless adjusting effect is achieved; thereby adjusting the inclination of the entire apparatus in the horizontal direction.

The supporting plate 80 is vertically fixed on the supporting table 4; for supporting and transiting the entire heat collecting plate 100.

Referring to fig. 1 and 2, an angle adjusting means 90 is fixed between a support plate 80 and a heat collecting plate 100; the angle adjusting device 90 includes a rotating bracket 91, two fixing brackets 92, two rotating shafts 93 and two positioning pins 94. The rotating support 91 is pivoted to the two fixing supports 92 through the rotating shaft 93, each fixing support 92 is provided with a locking hole 9233, the rotating support 91 is provided with three positioning holes 9131, 9132 and 9133, the center distance from the locking hole 9233 to the rotating shaft 93 is equal to the center distance from the three positioning holes 9131, 9132 and 9133 to the rotating shaft 93, and the positioning pins 94 penetrate through the locking holes 9233 and different positioning holes to adjust the rotating angle of the rotating support 91 relative to the two fixing supports 92;

the pivoting bracket 91 includes a substantially square base plate 911 and two positioning plates 913 formed by vertically extending downward from both ends of the base plate 911, and the positioning plates 913 have a substantially square shape. And a locking portion 915 having external threads and extending from the middle portion of the base plate 911 to a position far away from the two positioning plates 913. Each positioning plate 913 has a first axle hole 912 at a bottom portion thereof near a corner. Each positioning plate 913 is further provided with three positioning holes 9131, 9132 and 9133. The center distance of each positioning hole 9131, 9132, and 9133 to the first shaft hole 912 is equal. The line connecting the centers of the positioning hole 9131 and the first shaft hole 912 is perpendicular to the line connecting the centers of the positioning hole 9133 and the first shaft hole 912, and the line connecting the centers of the positioning hole 9132 and the first shaft hole 912 bisects a right angle formed by the line connecting the centers of the positioning hole 3131, the first shaft hole 912 and the positioning hole 9133. The rotating bracket 91 further includes a plurality of first nuts 914 located on two opposite sides of the two positioning plates 913 and corresponding to the positioning holes 9131, 3132, and 9133. The locking portion 915 may be engaged with the connecting portion of the heat collecting plate, and a through hole 9151 for passing a cable is formed at a middle portion thereof.

Each of the fixing brackets 92 includes a fixing plate 921 and a supporting plate 923 formed to extend vertically upward from one side of the fixing plate 921. Each fixing plate 921 is formed with a fixing hole 9211. The fixing hole 9211 is used for bolt-fixing with the support plate 80. Each support plate 923 is opposite to a positioning plate 913. The two support plates 923 are parallel to each other, and the distance between the two support plates 923 is slightly larger than the distance between the two positioning plates 913. The support plate 923 has a substantially fan shape and has a second shaft hole 9231 formed therein in alignment with the first shaft hole 912. The second shaft hole 9231 is opened at a position close to the center of the fan-shaped support plate 923. The support plate 923 is further provided with a locking hole 9233 aligned with the positioning hole 9131. The center distance from the locking hole 9233 to the second shaft hole 9231 is equal to the center distance from the positioning hole 9131 to the first shaft hole 912. The fixing bracket 92 further includes a second nut 922 located on the inner side surface of the support plate 923 and corresponding to the second shaft hole 9231.

The shaft 93 and the positioning pin 94 are both screws in this embodiment.

During assembly, the rotating shaft 93 sequentially passes through the second shaft hole 9231 of the supporting plate 923 and the first shaft hole 912 of the positioning plate 913, and is locked to the second nut 922. Thus, the rotating bracket 91 is pivotally connected to the two fixing brackets 92 through the rotating shaft 93. The positioning pin 94 sequentially passes through the locking hole 9233 of the supporting plate 923 and the positioning hole 9131 of the positioning plate 913, and is locked to the first nut 914. The positioning pin 94 penetrates through the locking hole 9233 and different positioning holes 9131, 9132 and 9133 to adjust the rotation angle of the rotating bracket 91 relative to at least one fixing bracket 92, so as to adjust the included angle between the heat collecting plate 100 fixed on the supporting plate 90 and sunlight rays, thereby satisfying the requirement of placing the heat collecting plates 100 in different directions.

Example 2

The structure of this embodiment is substantially the same as that of embodiment 1, and the only difference is that a shaking device is added to this embodiment on the basis of embodiment 1, and the shaking device comprises a pillar 50, a runner 60, and a transition plate 70; the pillar 50 is vertically fixed on the support table 4, and the other end is rotatably connected with a rotating wheel 60; the outer wall of the rotating wheel 60 is fixedly connected with a transition plate 70; the other side of the transition plate 70 is fixed to a surface of the support plate 80 opposite to the back surface of the angle adjusting means 90. The rotation of the heat collecting plate is realized by the rotation of the runner 60 between the pillar 50 and the transition plate 70, and the position change of sunshine in different seasons is realized.

In summary, through the arrangement of the horizontal stepless adjusting device, when the heat collecting plate fixed on the supporting table needs to be adjusted, the adjusting bolt is only required to be loosened, the inclination angle of the second connecting plate is adjusted according to actual needs, and then the adjusting bolt is tightened, so that the adjustment of the inclination angle of the supporting plate on the supporting table is realized, and the inclination of the whole device is adjusted in the horizontal direction.

In the vertical direction, the angle adjusting device is utilized, the positioning pin penetrates through the locking hole and different positioning holes, so that the rotating angle of the rotating support relative to at least one fixed support is adjusted, the heat collecting plates fixed on the supporting plate are adjusted, the included angle between the sunlight rays is adjusted, and the arrangement of the heat collecting plates in different directions is met. Meanwhile, a shaking device is arranged between the supporting plate and the supporting platform, so that the heat collecting plate can rotate in the direction, and the sunlight position conversion in different seasons can be realized.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the present invention as defined in the accompanying claims.

Claims (10)

1. An automatic angle adjusting device for installation of a solar heat collecting plate, which is used for adjusting the installation angle of the solar heat collecting plate (100), and comprises:

the fixing block (1) is fixed on the installation foundation (1-1);

the supporting platform (4) is horizontally arranged above the mounting foundation (1-1) in parallel;

it is characterized in that the automatic angle adjusting device for installing the solar heat collecting plate further comprises:

the horizontal stepless adjusting device comprises a first connecting plate (2), a second connecting plate (3) and an adjusting bolt (20); the first connecting plate (2) comprises a first flap (22) and a second flap (23); the first folded plate (22) and the second folded plate (23) are vertical and are of an integral structure; the first folded plate (22) is fixed on the fixing block (1) through a first bolt (10); the second folded plate (23) is provided with a sliding groove (21); the second web (3) comprises a third flap (31) and a fourth flap (32); the third folded plate (31) and the fourth folded plate (32) are vertical and are of an integral structure; the third folded plate (31) is fixed on the lower end surface of the support platform (4) through a second bolt (40); a positioning groove (30) is arranged on the fourth folded plate (32); the adjusting bolt (20) penetrates through the sliding groove (21) and the positioning groove (30) and connects the first connecting plate (2) and the second connecting plate (3) together;

a support plate (80) vertically fixed to the support base (4);

an angle adjusting device (90) fixed between the support plate (80) and the heat collecting plate (100); the angle adjusting device (90) comprises a rotating support (91) fixedly connected with a heat collecting plate (100), two fixing supports (92) connected with a supporting plate (80), a rotating shaft (93) and positioning pins (94), wherein the rotating support (91) is pivoted to the two fixing supports (92) through the rotating shaft (93), each fixing support (92) is provided with a locking hole (9233), the rotating support (91) is provided with three positioning holes (9131, 9132 and 9133), the center distance from the locking hole (9233) to the rotating shaft (93) is equal to the center distance from the three positioning holes (9131, 9132 and 9133) to the rotating shaft (93), and the positioning pins (94) penetrate through the locking holes (9233) and different positioning holes so as to adjust the rotating angle of the rotating support (91) relative to the two fixing supports (92);

the rotating support (91) comprises a base plate (911) and two opposite positioning plates (913) connected with two ends of the base plate respectively, the three positioning holes (9131, 9132 and 9133) are formed in one positioning plate (913), each fixing support (92) comprises a fixing plate (921) and a supporting plate (923) connected with the fixing plate (921) and opposite to the one positioning plate (913), and the locking holes (9233) are formed in the supporting plate (923); the distance between the two supporting plates (923) is greater than the distance between the two positioning plates (913); the rotating bracket (91) further comprises three first nuts (914) which are positioned on two opposite side surfaces of the two positioning plates (913) and correspond to the three positioning holes, and the positioning pin (94) penetrates through one first nut (914);

the rotating bracket (91) further comprises a locking part (915) with an external thread formed by extending from the middle part of the base plate (911) to a direction away from the positioning plate (913), and the heat collecting plate (100) comprises a connecting part with an internal thread matched with the locking part (915); the positioning plate (913) is provided with a first shaft hole (912) for the rotating shaft (93) to pass through, the supporting plate (923) is provided with a second shaft hole (9231) aligned with the first shaft hole (912), and the second shaft hole (9231) is close to the circle center of the fan-shaped supporting plate (923); the vertical connecting line of the middle positioning hole and the rotating shaft (93) bisects the included angle formed by the connecting lines of the other two positioning holes and the rotating shaft (93); the center distance from each positioning hole to the first shaft hole (912) is equal.

2. The automatic solar heat collection panel mounting angle adjusting device of claim 1, wherein the automatic solar heat collection panel mounting angle adjusting device further comprises a shaking device, the shaking device comprises a pillar (50), a rotating wheel (60) and a transition plate (70); the strut (50) is vertically fixed on the support table (4), and the other end of the strut is rotatably connected with a rotating wheel (60); the outer wall of the rotating wheel (60) is fixedly connected with a transition plate (70); the other side of the transition plate (70) is fixed on one surface of the back surface of the support plate (80) opposite to the angle adjusting device (90).

3. The device for automatically adjusting the angle of a solar heat collecting plate according to claim 1, wherein the locking portion (915) is engaged with the connecting portion of the heat collecting plate (100), and a through hole (9151) for a cable to pass through is formed in the middle of the locking portion.

4. The automatic angle adjusting device for mounting the solar heat collecting plate according to claim 1, wherein the fixing bracket (92) further comprises a second nut (922) which is positioned on the inner side surface of the supporting plate (923) and corresponds to the second shaft hole (9231).

5. An automatic angle-adjusting device for mounting a solar heat-collecting plate according to claim 1, characterized in that the sliding groove (21) is a strip-shaped groove.

6. The automatic angle adjusting device for mounting the solar heat collecting plate according to claim 1, wherein the positioning groove (30) is semicircular, and the sliding groove (21) and the positioning groove (30) are correspondingly arranged.

7. An automatic angle-adjusting device for mounting solar heat-collecting plate according to claim 1, characterized in that the bottom end of the fourth folded plate (32) is arc-shaped.

8. An automatic solar collector plate mounting angle-adjusting device according to claim 1, wherein the adjusting bolts (20) are at least two and are evenly distributed.

9. The automatic angle adjusting device for mounting the solar heat collecting plate according to claim 1, wherein the first connecting plate (2) and the second connecting plate (3) are L-shaped and are formed by bending a steel plate.

10. The automatic angle adjusting device for mounting the solar heat collecting plate according to claim 1, wherein the positioning plate (913) is square and the supporting plate (923) is fan-shaped.

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