CN215631131U - Roof ice and snow melting device - Google Patents
Roof ice and snow melting device Download PDFInfo
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- CN215631131U CN215631131U CN202121108285.2U CN202121108285U CN215631131U CN 215631131 U CN215631131 U CN 215631131U CN 202121108285 U CN202121108285 U CN 202121108285U CN 215631131 U CN215631131 U CN 215631131U
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Abstract
The present disclosure relates to a roof ice and snow melting device comprising an accommodation body and a melting structure; the accommodating main body is arranged at an eave of the roof, the accommodating main body is provided with an accommodating groove with an upward opening, the height of a notch of the accommodating groove is not higher than that of the eave, and the accommodating groove is used for accommodating ice and snow falling from the roof; the structure of melting arranges in the holding tank, melts the structure and is used for making the ice and snow in the holding tank turn into and melts the water, is provided with the outlet on the holding tank to make and melt the water and discharge from the outlet. The utility model provides a roof ice-melt snow melting device can make the ice and snow piece landing of roof to accomodating the groove in to the ice and snow that the structure made to accomodate in the groove turns into melts land and water and continuously falls to discharge through melting, promptly, melts the ice and snow piece on roof into the rainwater and falls, thereby has prevented effectively that the ice and snow piece on roof from forming the icicle at eaves mouth department and smashing the ground or taking place suddenly the landing and smash the phenomenon emergence of hindering the pedestrian, simple structure, it is safe in utilization.
Description
Technical Field
The utility model relates to an environmental protection physics snow removing technical field especially relates to a roof ice-melt snow melting device.
Background
In places with cold weather, such as the north of China, the phenomenon of snow accumulation and icing on the roof of a building can occur in winter. Due to the fact that the air temperature rises again in daytime or in spring, ice and snow blocks accumulated on the roof easily form icicles at the cornice to fall on the ground or suddenly slide off, impact force is extremely high, and even pedestrians can be injured seriously.
SUMMERY OF THE UTILITY MODEL
To solve the above technical problem or to at least partially solve the above technical problem, the present disclosure provides a roof ice and snow melting device.
The present disclosure provides a roof ice and snow melting device comprising an accommodation body and a melting structure;
the accommodating main body is arranged at an eave of the roof, the accommodating main body is provided with an accommodating groove with an upward opening, the height of a notch of the accommodating groove is not higher than that of the eave, and the accommodating groove is used for accommodating ice and snow falling from the roof;
the melting structure is arranged in the containing groove and used for enabling ice and snow in the containing groove to be converted into melting water, and a water outlet is formed in the containing groove so that the melting water can be discharged from the water outlet.
Furthermore, the position of the top surface of the groove wall of the accommodating groove, which is far away from one side of the eave, is higher than the position of the top surface of the eave.
Further, the number of the accommodating main bodies is at least two, the accommodating main bodies are arranged along the circumferential direction of the roof and are spliced together in sequence through fasteners, and the accommodating grooves of the accommodating main bodies are communicated.
Further, melt the structure and include the heating tube, the heating tube is close to the tank bottom setting of holding tank.
Furthermore, at least two heating pipes are arranged, and part of the heating pipes are embedded in the bottom of the accommodating groove; the heating tube is arranged in the accommodating groove in a curve surrounding mode.
Further, the outer surface of the heating tube is coated with a first protective layer.
Further, a second protective layer is arranged on the accommodating main body, and at least part of the second protective layer is arranged on the inner surface of the accommodating groove.
Further, the second protective layer comprises a base layer arranged on the inner surface of the accommodating groove and an anticorrosive layer arranged on one side, far away from the inner surface of the accommodating groove, of the base layer.
Furthermore, the number of the water outlets is at least two, the water outlets are arranged at intervals along the extending direction of the accommodating groove, and at least one of the water outlets is arranged at the joint of the groove bottom and the groove wall of the accommodating groove.
Further, a guide plate is arranged on at least part of the edge of the water outlet, and the guide plate extends downwards in a direction away from the accommodating main body.
Compared with the prior art, the technical scheme provided by the embodiment of the disclosure has the following advantages:
the roof ice and snow melting device provided by the disclosure is provided with the accommodating main body and the melting structure, wherein the accommodating main body is arranged at an eave of a roof, the accommodating main body is provided with the accommodating groove with an upward opening, and the height of a notch of the accommodating groove is not higher than that of the eave, so that ice and snow blocks gathered on the roof can smoothly slide into the accommodating groove; simultaneously, having arranged in the holding tank and having melted the structure, should melting the structure and be used for making the ice and snow transformation in the holding tank melt water, because the holding tank has the outlet, consequently, the water that melts of constantly transforming in the holding tank can pass through the outlet in succession and discharge. Based on this, the ice-snow melting device on roof that this disclosure provided can make the ice and snow piece landing on roof in accomodating the groove to through melting the structure make the ice and snow in accomodating the groove turn into melt land and water and continuously fall and discharge, promptly, melt the ice and snow piece on roof into the rainwater and fall, thereby effectively prevented that the ice and snow piece on roof from forming the icicle at eaves department and pounding the phenomenon emergence that falls to ground or take place suddenly the landing and injure the pedestrian, simple structure, it is safe in utilization.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.
In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.
FIG. 1 is a side view of a roof ice and snow melting apparatus according to an embodiment of the present disclosure;
FIG. 2 is a side view of another embodiment of the roof melting ice and snow apparatus of the present disclosure;
FIG. 3 is a cross-sectional view of a containment body of a roof ice and snow melting apparatus according to an embodiment of the disclosure;
FIG. 4 is a cross-sectional view of a heating tube of a device for melting ice and snow on a roof according to an embodiment of the present disclosure;
FIG. 5 is a top view of a roof ice and snow melting apparatus according to an embodiment of the present disclosure;
FIG. 6 is a schematic perspective view of a device for melting ice and snow on a roof according to an embodiment of the present disclosure;
FIG. 7 is a schematic perspective view of another perspective view of a device for melting ice and snow on a roof according to an embodiment of the present disclosure;
FIG. 8 is a schematic perspective view of another embodiment of the device for melting ice and snow on a roof of the present disclosure;
fig. 9 is a schematic view of a deflector of a device for melting ice and snow on a roof according to an embodiment of the present disclosure.
Wherein, 10, accommodate the body; 11. a second protective layer; 111. a base layer; 112. an anticorrosive layer; 20. melting the structure; 21. a heat generating tube; 22. a first protective layer; 30. accommodating grooves; 31. a notch; 32. the bottom of the tank; 40. a water outlet; 50. a baffle; 60. eave.
Detailed Description
In order that the above objects, features and advantages of the present disclosure may be more clearly understood, aspects of the present disclosure will be further described below. It should be noted that the embodiments and features of the embodiments of the present disclosure may be combined with each other without conflict.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced in other ways than those described herein; it is to be understood that the embodiments disclosed in the specification are only a few embodiments of the present disclosure, and not all embodiments.
Referring to fig. 1 to 9, the present embodiment provides a roof melting ice and snow apparatus including a containing body 10 and a melting structure 20; the accommodating main body 10 is arranged at an eave 60 of a roof, the accommodating main body 10 is provided with an accommodating groove 30 with an upward opening, the height of a notch 31 of the accommodating groove 30 is not higher than that of the eave 60, and the accommodating groove 30 is used for accommodating ice and snow falling from the roof; the melting structure 20 is disposed in the holding tank 30, the melting structure 20 is used for converting ice and snow in the holding tank 30 into melting water, and the holding tank 30 is provided with a water discharge port 40 so that the melting water is discharged from the water discharge port 40.
In the present embodiment, the accommodating main body 10 is provided at least a part of the eaves 60 of the roof, that is, according to the actual working conditions, the accommodating main body 10 may be provided at all the eaves 60, for example, at all the eaves 60 in the circumferential direction of the horizontal roof and the dome roof; of course, the accommodation body 10 may be provided at a portion of the roof eaves 60, for example, at the eaves 60 of a slope roof having a relatively low height.
Here, the side of the accommodating body 10 facing the ground is a lower side, and the side of the accommodating body 10 facing away from the ground, i.e., facing the sky, is an upper side. The accommodating body 10 has an accommodating groove 30 opened upward, and it is easily understood by those skilled in the art that the opening of the accommodating groove 30, i.e., the notch 31, is located on the upper surface of the accommodating body 10 and the notch 31 faces skyward.
Wherein, the notch 31 of holding tank 30 is located highly not higher than the height at eave 60 place, that is to say, satisfying under the condition of assembly, the notch 31 of holding tank 30 highly can be less than the height at eave 60 that deviates from ground one side place or with the high parallel and level at eave 60 that deviates from ground one side place, namely, the height of the cell wall of holding tank 30 that is close to eave 60 one side can be less than or the parallel and level in the height at eave 60 that deviates from bottom surface one side place or, but the notch 31 of holding tank 30 highly can not be higher than the height at eave 60 that deviates from bottom surface one side place, thereby can make the ice and snow piece of gathering on the roof slide to holding tank 30 easily smoothly, and then avoid the ice and snow piece on the roof to gather in eave 60 eaves mouth and form icicle or directly landing to ground.
In addition, the wind speed and the height of the roof are considered, and the test on the included angle of the physical horizontal plane shows that the symmetrical line of the accommodating groove 30 in the extending direction, namely the included angle between the symmetrical axis of the groove bottom 32 of the accommodating groove 30 in the width direction and the side, away from the ground, of the eave 60 is 30-40 degrees, so that the ice and snow blocks on the roof can effectively and smoothly slide into the accommodating groove 30, and the applicability is high.
For specific applications, receiving body 10 may be assembled to eaves 60 in any suitable manner, such as by expansion bolts or welding, and may be optional depending on the specific application, without limitation.
In order to improve the connection quality between the accommodating main body 10 and the eaves 60, a sealing member, such as a sealing gasket, a sealing tongue formed by bending one of the accommodating main body 10 or the eaves 60 toward the other, may be disposed at the connection between the accommodating main body 10 and the eaves 60, so as to effectively prevent rainwater from penetrating from the connection, thereby increasing the connection strength between the accommodating main body 10 and the eaves 60, and improving the service life of the ice and snow melting device for roofs provided by the present disclosure.
During the concrete implementation, holding tank 30 can be arbitrary suitable structures such as arc holding tank, U-shaped holding tank, choose for use wantonly according to specific service environment, does not do too much restriction here.
In the present embodiment, the melting structure 20 may be disposed at any suitable position of the receiving groove 30, for example, the melting structure 20 may be disposed at a side of the receiving groove 30 close to the notch 31, the melting structure 20 may also be disposed at a side of the receiving groove 30 close to the groove bottom 32, and the melting structure 20 may also be disposed at an intermediate position in the thickness direction of the receiving groove 30, which is arbitrarily selected according to a specific use condition and is not limited herein.
Through the technical scheme, the device for melting ice and snow on the roof provided by the embodiment is provided with the accommodating main body 10 and the melting structure 20, wherein the accommodating main body 10 is arranged at an eave 60 of the roof, the accommodating main body 10 is provided with the accommodating groove 30 with an upward opening, and the height of the notch 31 of the accommodating groove 30 is not higher than the height of the eave 60, so that ice and snow blocks gathered on the roof can smoothly slide into the accommodating groove 30; meanwhile, a melting structure 20 is disposed in the holding tank 30, the melting structure 20 is used for converting the ice and snow in the holding tank 30 into the melting water, and the holding tank 30 has a water discharge port 40, so that the melting water continuously converted in the holding tank 30 can be discharged through the water discharge port 40. Based on this, the ice-snow melting device on roof that this disclosure provided can make the ice and snow piece landing on roof to holding tank 30 in to make the ice and snow in holding tank 30 turn into to melt land and water and continuously fall the discharge through melting structure 20, promptly, melt the ice and snow piece on roof into the rainwater and fall, thereby effectively prevented that the ice and snow piece on roof from forming the icicle at eaves mouth department and smashing and fall to ground or take place unexpected landing and injure pedestrian's phenomenon and take place, moreover, the steam generator is simple in structure, high safety in utilization, and user experience is good.
Further, the position of the top surface of the groove wall of the accommodating groove 30 far away from the eave 60 is higher than the position of the top surface of the eave 60, that is, the groove wall of the accommodating groove 30 far away from the eave 60 is higher, on the one hand, the groove wall can play a role of stopping, and the ice and snow blocks on the roof can be prevented from directly sliding down to the ground in the sliding process. On the other hand, the accommodating amount of the accommodating groove 30 can be increased, and the working efficiency of the ice and snow melting device provided by the disclosure is improved.
In this embodiment, the accommodating body 10 may be one, and certainly, the accommodating body 10 may also be a plurality of, that is, the accommodating body 10 is at least two, at least two accommodating bodies 10 are arranged along the circumference of the roof and two adjacent accommodating bodies 10 are spliced together through a fastener, and the accommodating grooves 30 of the respective accommodating bodies 10 are communicated, so as to conveniently accommodate ice and snow blocks and simultaneously facilitate the discharge of melted water.
Wherein, adjacent two accommodate main part 10 can be through mode seamless concatenation together such as bolt, welding to make each accommodate the holding tank 30 of main part and link up smoothly, the leakproofness is good.
Referring to fig. 1, 2 and 5, the melting structure 20 includes a heat generating pipe 21, and the heat generating pipe 21 is disposed near a groove bottom 32 of the receiving groove 30.
Wherein, the heating tube 21 can be the heating tube of spontaneous heating, also can be the electrically conductive heating tube with external power source intercommunication, for example stainless steel electric heating pipe, can the cladding have copper heating wire etc. in the stainless steel electric heating pipe, heat conduction good heat dissipation, the wholeness can be good, and life is high, easy maintenance. The method is arbitrarily selected according to specific use conditions, and is not limited too much here.
In addition, heating tube 21 belongs to linear structure, and heating tube 21 arranges in holding tank 30 along the extending direction of holding tank 30, specifically, heating tube 21 can arrange in holding tank 30 through fasteners such as line buckle, and preferably, arranges heating tube 21 in holding tank 30 the one side that is close to tank bottom 32, and has the safety clearance between heating tube 21 and the tank bottom 32 to avoid heating tube 21 to soak in melting the water, thereby improve heating tube 21's life.
Furthermore, at least two heating pipes 21 are provided, and part of the at least two heating pipes 21 are embedded in the groove bottom 32 of the accommodating groove 30, and the heating pipes 21 are embedded in the groove bottom 32, so that the service life of the heating pipes 21 can be prolonged while the heating and the melting of ice and snow blocks are ensured.
During the specific use, also can bury heating tube 21 underground in holding tank 30's cell wall to increase the area that generates heat in holding tank 30, improve the conversion rate that melts water, work efficiency is high, and user experience is good.
In this embodiment, the heating tubes 21 may be arranged in the holding tank 30 in any suitable manner, such as straight arrangement, inclined arrangement, and the like, preferably, the heating tubes 21 are arranged in the holding tank 30 in a curved surrounding manner, so that the heating area is effectively increased, and the melting efficiency of the ice and snow blocks is high.
In this embodiment, referring to fig. 4, the outer surface of the heating tube 21 is covered with a first protective layer 22, and the first protective layer 22 is used to protect the heating tube 21, so as to improve the water resistance, weather resistance, and the like of the heating tube 21, which is beneficial to improving the service life of the heating tube 21, saving the cost, and providing good user experience.
The first protective layer 22 may be a composite of two or more corrosion-resistant materials, such as a polyvinyl chloride protective layer; it may also be a first protective layer 22 of any suitable corrosion resistant material, such as a silicone protective layer.
In addition, the first protective layer 22 can be coated on the outer surface of the heating tube 21 by structural adhesive bonding or the like, and of course, the first protective layer 22 can also be integrally formed with the heating tube 21, so that the integrity is good.
In addition, the first protective layer 22 may also be a protective sleeve, such as a silicone sleeve, which is sleeved outside the heating tube 21.
Further, referring to fig. 3, a second protective layer 11 is provided on the receiving body 10, and at least a portion of the second protective layer 11 is provided on an inner surface of the receiving groove 30. The second protective layer 11 is used to protect the accommodating main body 10 to prevent the surface of the accommodating main body 10 from being corroded, so that the service life of the accommodating main body 10 can be prolonged, the cost can be saved, and the user experience is good.
It will be readily understood by those skilled in the art that the second protective layer 11 may be entirely wrapped around the receiving body 10, and of course, the second protective layer 11 may be disposed on a part of the surface of the receiving body 10, for example, the second protective layer 11 is disposed on the inner surface of the receiving groove 30. The method can be arbitrarily selected according to specific use conditions, and is not limited too much.
Further, the second protective layer 11 includes a substrate layer 111 disposed on the inner surface of the accommodating tank 30 and an anti-corrosion layer 112 disposed on one side of the substrate layer 111 away from the inner surface of the accommodating tank 30, wherein the substrate layer 111 can clean and roughen the inner surface of the accommodating tank 30 to obtain a certain cleanliness and different roughness, so as to improve the mechanical performance of the inner surface of the accommodating tank 30, improve fatigue resistance, increase the adhesion of the anti-corrosion layer 112, and prolong the durability and service life of the anti-corrosion layer 112.
The base layer 111 may be formed by blasting sand onto the inner surface of the accommodating tank 30, and the blasting material, such as copper ore, quartz sand, silicon carbide, etc., is blasted onto the inner surface of the accommodating tank 30 at a high speed by using the impact of the high-speed sand flow, so that the structure of the inner surface of the accommodating tank 30 is changed, the adhesion of the anti-corrosion layer 112 is enhanced, and the leveling and decoration of the coating of the anti-corrosion layer 112 are facilitated.
Of course, the base layer 111 may be formed by polishing the inner surface of the housing tank 30, or the base layer 111 may be formed by chemical etching, for example, by pickling with hydrochloric acid, sulfuric acid, or the like to remove rust, without being limited thereto.
In this embodiment, there may be one or more water outlets 40, that is, there are at least two water outlets 40, and at least two water outlets 40 are spaced along the extending direction of the accommodating groove 30 to facilitate the melted water to be discharged in time.
In one embodiment, at least one of the water outlets 40 is formed at the junction between the trough bottom 32 and the trough wall of the receiving trough 30.
For example, the drain opening 40 may be formed entirely on the groove bottom 32 of the receiving groove 30, or entirely on the groove wall of the receiving groove 30, and of course, as shown in fig. 6 to 8, a part of the drain opening 40 may be formed on the groove bottom 32 of the receiving groove 30, and another part of the drain opening 40 may be formed on the groove wall of the receiving groove 30, that is, the drain opening 40 may be formed at the junction of the groove bottom 32 and the groove wall of the receiving groove 30. The method can be arbitrarily selected according to specific use conditions, and is not limited too much here.
The drain port 40 may be a rectangular drain port, a circular drain port, an arc-shaped drain port, or the like.
Further, referring to fig. 8 and 9, in order to facilitate drainage, a guide plate 50 is provided on at least a portion of an edge of the drain opening 40, the guide plate 50 extends in a direction inclined downward away from the receiving body 10, and the guide plate 50 has a guide guiding function for the melted water.
During the concrete implementation, guide plate 50 can be connected in drain opening 40 department through modes such as welding, sealed glue bonding, of course, guide plate 50 also can integrated into one piece in the discharge opening department of holding tank 30, and the wholeness is good.
When the guide plate 50 extends downwards to form an inclined guide plate, the included angle between the guide plate 50 and the groove bottom 32 of the containing groove 30 is 10-30 degrees, and the melted water is smoothly drained.
It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
The foregoing are merely exemplary embodiments of the present disclosure, which enable those skilled in the art to understand or practice the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.
Claims (10)
1. A roof melting ice and snow device, characterized by comprising a containing body (10) and a melting structure (20);
the accommodating main body (10) is arranged at an eave (60) of the roof, the accommodating main body (10) is provided with an accommodating groove (30) with an upward opening, the height of a notch (31) of the accommodating groove (30) is not higher than that of the eave (60), and the accommodating groove (30) is used for accommodating ice and snow falling from the roof;
the melting structure (20) is arranged in the accommodating tank (30), the melting structure (20) is used for converting ice and snow in the accommodating tank (30) into melting water, and a water outlet (40) is arranged on the accommodating tank (30) so that the melting water is discharged from the water outlet (40).
2. The device for melting ice and snow on roof as claimed in claim 1, wherein the top surface of the groove wall of the accommodating groove (30) on the side away from the eave (60) is located higher than the top surface of the eave (60).
3. The device for melting ice and snow on a roof as claimed in claim 1, wherein the number of the accommodating bodies (10) is at least two, at least two accommodating bodies (10) are arranged along the circumference of the roof and two adjacent accommodating bodies (10) are spliced together by a fastening member, and the accommodating grooves (30) of the accommodating bodies (10) are communicated.
4. The device according to claim 1, characterized in that the melting structure (20) comprises a heating tube (21), the heating tube (21) being arranged close to the bottom (32) of the receiving tank (30).
5. The device for melting ice and snow on roof according to claim 4, characterized in that the number of the heating pipes (21) is at least two, and part of the heating pipes (21) are buried in the bottom (32) of the accommodating groove (30);
the heating tube (21) is arranged in the accommodating groove (30) in a curve surrounding manner.
6. The device for melting ice and snow on a roof as claimed in claim 4, wherein the outer surface of the heating tube (21) is coated with a first protective layer (22).
7. Device according to claim 1, characterized in that said containment body (10) is provided with a second protective layer (11), at least part of said second protective layer (11) being provided on the inner surface of said containment tank (30).
8. The device according to claim 7, wherein the second protective layer (11) comprises a base layer (111) disposed on the inner surface of the receiving tank (30) and an anti-corrosion layer (112) disposed on the side of the base layer (111) remote from the inner surface of the receiving tank (30).
9. The device for melting ice and snow on roof according to any one of claims 1 to 8, characterized in that the number of the water discharge openings (40) is at least two, and at least two water discharge openings (40) are arranged at intervals along the extending direction of the accommodating groove (30);
at least one of the water outlets (40) is arranged at the joint of the groove bottom (32) and the groove wall of the accommodating groove (30).
10. The device according to any one of claims 1 to 8, characterized in that a deflector (50) is provided on at least part of the edge of the drain opening (40), said deflector (50) extending obliquely downwards in a direction away from the containment body (10).
Priority Applications (1)
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CN202121108285.2U CN215631131U (en) | 2021-05-21 | 2021-05-21 | Roof ice and snow melting device |
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CN202121108285.2U CN215631131U (en) | 2021-05-21 | 2021-05-21 | Roof ice and snow melting device |
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CN215631131U true CN215631131U (en) | 2022-01-25 |
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CN202121108285.2U Active CN215631131U (en) | 2021-05-21 | 2021-05-21 | Roof ice and snow melting device |
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