CN204634064U - The mobile heating apparatus of a kind of partition combination - Google Patents

Abstract

The utility model provides the mobile heating apparatus of a kind of partition combination, comprises multiple thermal insulation boards of splicing mutually, forms an airtight warming space; The side of thermal insulation board is provided with connecting framework, and connecting framework is provided with for realizing the card slot type splicing construction spliced; Wherein, thermal insulation board comprises and is provided with the first heat insulation veneer of draw-in groove along connecting framework length direction and is provided with the second heat insulation veneer of the projection matched with draw-in groove along connecting framework length direction, in order to realize removably connecting between the first heat insulation veneer and the second heat insulation veneer; Thermal insulation board comprises the heater be located in thermal insulation board and the electrical socket be located on thermal insulation board sidewall, and electrical socket is electrically connected with heater; Heater is electrically connected with the temperature adding controller producing heat for controlling heater, and to solve, current known heating apparatus rate of warming is slow, area of heating is narrow, shape specification is fixed and irremovable technical problem.

Description

Detachable combined movable heating device

Technical Field

The utility model relates to a heating device field, more specifically relates to a divide combination to remove heating device.

Background

Corrosion often causes various accidents and major disasters. Due to the corrosion of steel pipelines and equipment, the product quality of production enterprises is reduced, the production is stopped, and the power supply, gas supply, heating steam or hot water supply of resident life are influenced, so that a lot of difficulties are brought to the life of the residents. The leakage of pipelines and pipe networks for underground oil gas and water transportation, and the leakage, explosion and dripping faults of pipelines and equipment for oil refining, chemical industry, chemical fiber, chemical fertilizer, pharmacy and the like in enterprises not only cause a large amount of loss, but also cause serious environmental pollution, even can cause disastrous accidents such as fire, explosion, collapse and the like, for example, according to incomplete statistics, in the industries such as petrochemical industry, public utilities and the like in China, the pipelines are perforated for 2 ten thousand times per year due to corrosion, and the leakage mainly occurs at the joints of steel pipes and the collision damage of the pipelines. In view of the ubiquitous nature of metal corrosion, various metal corrosion prevention techniques and processes have been developed to slow down and prevent the occurrence of metal corrosion. The new metal anticorrosion process and the popularization and application of the new material can effectively prolong the service life of pipeline equipment, save the fund and ensure the safe production.

An anticorrosive material is a material that inhibits chemical corrosion and electrochemical corrosion of an object to be protected. The common anticorrosive materials in the installation project mainly comprise various organic and inorganic coatings, glass fiber reinforced plastics, rubber products, inorganic plates and the like, the China anticorrosive material industry develops gradually in China, and the industry and the national standard are also gradually improved.

The anticorrosion engineering is a general name of anticorrosion paint and anticorrosion lining, and aims to avoid the corrosion loss of equipment and pipelines, reduce the use amount of expensive alloy steel, avoid the phenomena of air leakage, water leakage, liquid dropping and liquid leakage in production and ensure the continuous operation and safe production of equipment. Anticorrosive coatings are widely used due to low cost, simple construction and wide selection range.

Anticorrosion construction operations often have specific requirements on the ambient temperature of the construction site. When the anticorrosion construction is carried out in severe cold areas and low-temperature environments, the environment of an anticorrosion construction site needs to be heated in order to meet the temperature requirement of the reaction of anticorrosion construction materials.

However, in the conventional heating apparatus, the small-sized heating apparatus has a low heating speed and a narrow heating area, while the large-sized heating apparatus has a long installation time and a high cost, and is easily affected by the field environment. The most common heating device is an electric heating paint baking room, but the heating device is only suitable for providing related heating operation when small-sized equipment is subjected to anticorrosion construction due to the fact that the heating device is complex in installation process, cannot move and is fixed in specification and shape.

SUMMERY OF THE UTILITY MODEL

The utility model provides a split combined movable heating device to solve the technical problem that the heating device known at present is slow in heating speed, the area of heating is narrow, the shape specification is fixed and can't be removed.

The utility model provides a split combined mobile heating device, which comprises a plurality of heat insulation boards spliced with each other to form a closed heating space;

the side edge of the heat insulation plate is provided with a connecting framework, and the connecting framework is provided with a clamping groove type splicing structure for realizing splicing; the heat insulation plate comprises a first heat insulation single plate and a second heat insulation single plate, wherein a clamping groove is formed in the length direction of the connecting framework;

the heat insulation plate comprises a heating device arranged in the heat insulation plate and an electric socket arranged on the side wall of the heat insulation plate, and the electric socket is electrically connected with the heating device; the heating device is electrically connected with a warming controller for controlling the heating device to generate heat.

Further, at least one heat insulation plate arranged at the bottom of the side surface of the connecting framework is provided with a door for access.

Further, the bottom of the split combined movable heating device is paved with a heat insulation rubber plate for blocking heat transfer between the ground and the bottom of the split combined movable heating device.

Furthermore, the bottom of the connecting framework is provided with a pulley.

Further, the heating device comprises an electrically heated tube or a layer of electrically heated filaments.

Furthermore, the opening of the clamping groove is in necking arrangement, and the cross section of the clamping groove is in an inverted T shape or a triangular shape.

Further, the heating controller is electrically connected with a temperature sensor arranged on the inner wall of the split combined movable heating device.

Furthermore, a temperature display device electrically connected with the heating controller is also arranged on the wall of the split combined movable heating device and is used for displaying corresponding temperature values according to temperature signals detected by the temperature sensor.

Furthermore, the split combined movable warming device is also provided with an alarm device electrically connected with the warming controller and used for generating a corresponding alarm signal when the temperature signal exceeds the range of a preset value.

Furthermore, the heat insulating board comprises an outer wall and an inner wall which are arranged at intervals to form a separation cavity, the separation cavity comprises a heat insulating cavity close to the outer wall and a heat conducting cavity close to the inner wall, and the heating device is arranged in the heat conducting cavity.

The utility model has the advantages that:

the utility model discloses split combination removes heating apparatus, including a plurality of heat insulating boards, the side of heat insulating board is equipped with the connection skeleton, and the heat insulating board includes that the side is equipped with the first thermal-insulated veneer of draw-in groove and the thermal-insulated veneer of second that is equipped with the projection, and through the cooperation between draw-in groove and the projection, splice each other between the first thermal-insulated veneer and the thermal-insulated veneer of second, form an inclosed space of heating. Through above-mentioned draw-in groove formula structure, realize connecting the dismantlement between skeleton and the heat insulating board and be connected. The utility model discloses the installation can be dismantled to the piece formula to different job site particular case and demand to the partition combination removal heating apparatus, makes up into the heating apparatus of required big or small shape, has that simple to operate is swift, the environmental requirement is low, strong adaptability and simple structure's advantage, especially under the ultra-low temperature condition and temporarily not install large-scale facility of heating or can't install under the environment that traditional fixed form heated the facility, the utility model discloses the operation of heating to the job site also can be realized to the partition combination removal heating apparatus.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification. In the drawings:

FIG. 1 is a schematic perspective view of a detachable and assembled mobile warming device according to a preferred embodiment of the present invention;

FIG. 2 is a schematic view of the distribution structure of the heating device of the split combined mobile warming device according to the preferred embodiment of the present invention;

FIG. 3 is a schematic cross-sectional view of a snap-fit connection structure between the partition plates of the split combined mobile heating apparatus according to the preferred embodiment of the present invention;

fig. 4 is a schematic view of the internal structure of the heat insulation board of the split combined movable heating device according to the preferred embodiment of the present invention.

Reference numerals:

10. a heat insulation plate; 11. an outer wall; 12. an inner wall; 13. a first heat-insulating veneer; 14. a second heat-insulating veneer; 15. a card slot; 16. a convex column; 20. connecting the framework; 30. a pulley; 40. a heat-insulating rubber plate; 50. a door; 60. a heating device; 70. a warming controller; 80. a thermally insulating material; 90. a thermally conductive material.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

Referring to fig. 1, 2 and 3, the present invention provides a detachable combined mobile warming device, which includes a plurality of heat insulation boards 10 spliced with each other to form a closed warming space; the side edge of the heat insulation board 10 is provided with a connecting framework 20, and the connecting framework 20 is provided with a clamping groove type splicing structure for realizing splicing; the heat insulation board 10 comprises a first heat insulation single board 13 provided with a clamping groove 15 along the length direction of the connecting framework 20 and a second heat insulation single board 14 provided with a convex column 16 matched with the clamping groove 15 along the length direction of the connecting framework 20, and is used for realizing detachable connection between the first heat insulation single board 13 and the second heat insulation single board 14; the heat insulation board 10 comprises a heating device 60 arranged in the heat insulation board 10 and an electric socket arranged on the side wall of the heat insulation board 10, and the electric socket is electrically connected with the heating device 60; the heating device 60 is electrically connected with a heating controller 70 for controlling the heating device 60 to generate heat.

The utility model discloses preferred embodiment divides to tear combination removal heating device, including a plurality of heat insulating boards 10, the side of heat insulating board 10 is equipped with connection skeleton 20, and heat insulating board 10 includes that the side is equipped with the first thermal-insulated veneer 13 of draw-in groove 15 and the thermal-insulated veneer 14 of second that is equipped with projection 16, and through the cooperation between draw-in groove 15 and the projection 16, splice each other between the first thermal-insulated veneer 13 and the thermal-insulated veneer 14 of second, forms a inclosed space of heating. The detachable connection between the connection frame 20 and the insulation board 10 is realized through the above-mentioned slot-type structure. The utility model discloses preferred embodiment partition combination removes heating apparatus can carry out the installation of piecemeal formula dismantlement to different job site particular case and demands, makes up into the heating apparatus of required big or small shape, has that simple to operate is swift, environmental requirement is low, strong adaptability and simple structure's advantage, especially under the ultra-low temperature condition and temporarily does not install large-scale facility of heating or can't install under the environment that the fixed form of tradition heated the facility, the utility model discloses partition combination removes heating apparatus also can realize the operation of heating to the job site.

Meanwhile, the preferred embodiment of the present invention generates heat for heating by the heating device 60 disposed inside the heat insulation board 10, and the heating controller 70 is used to control the heating device 60 to generate heat.

Optionally, two electrical sockets electrically connected to the heating device 60 disposed on the heat insulation board 10 are disposed on the same heat insulation board 10, specifically, the heating device 60 is serially sandwiched between the two electrical sockets. In the specific implementation process, the electrical sockets on the adjacent heat insulation plates 10 can be connected at the beginning through cables, and finally the electrical sockets connected with the positive pole and the negative pole of the heating device 60 are connected to the heating controller 70.

Further, at least one heat insulation board 10 disposed at the bottom of the side of the coupling frame 20 is provided with a door 50 for entrance and exit. Constructors can freely go in and out through the door 50, and the number of construction persons in the heating device is automatically arranged according to requirements.

Further, the bottom of the disassembled and assembled mobile warming device is laid with an insulation blanket 40 for blocking heat transfer between the ground and the bottom of the disassembled and assembled mobile warming device. Wherein, thermal-insulated offset plate 40 can paste repeatedly, improves its utilization ratio, practices thrift the cost.

Further, a pulley 30 is provided at the bottom of the connection frame 20. Through pulley 30's setting, the utility model discloses preferred embodiment can remove to concrete construction position conveniently, need not repeated dismantlement equipment, labour saving and time saving.

Further, the heating device 60 includes an electric heating tube or an electric heating wire layer. Wherein, electric heating pipe's heating efficiency is high, and four layers of electric heating can set up into netted alternately, and the heat distribution is more even.

Furthermore, the opening of the slot 15 is reduced, and the cross section of the slot 15 is in an inverted T shape or a triangle shape. This structure can greatly improve the mechanical coupling strength between the adjacent insulation panels 10.

Further, the warming controller 70 is electrically connected with a temperature sensor disposed on an inner wall of the disassembled and assembled mobile warming device. The heating controller 70 can monitor the actual operating temperature in the heating apparatus in real time by generating a temperature signal through the temperature sensor.

Optionally, the heating device 60 that the heating device inner wall facial make-up was equipped with temperature sensor's partial heat insulating board 10 all is connected to the controller 70 that heats through independent cable, after the temperature signal on the different temperature sensor of controller 70 discernment of heating, according to setting up the temperature signal difference in different regions, the heat size of the heating device 60 on the corresponding region of control, each regional temperature keeps balanced in the heating device, especially at the scene of anticorrosive construction, anticorrosive coatings's reaction temperature is the important factor that influences anticorrosive performance, the utility model discloses preferred embodiment then can effectively guarantee anticorrosive construction's quality.

Furthermore, a temperature display device electrically connected to the heating controller 70 is further installed on the wall of the detachable combined movable heating device for displaying a corresponding temperature value according to the temperature signal detected by the temperature sensor. The temperature value is displayed through the display device, so that the real-time temperature in the heating device is visual, and the constructor can conveniently grasp the temperature of the construction site, and reasonably arrange the constructor and the specific construction steps.

Furthermore, the split combined mobile warming device is also provided with an alarm device electrically connected with the warming controller 70 and used for generating a corresponding alarm signal when the temperature signal exceeds the range of the preset value. Under the construction operating mode that has strict demand to the construction temperature, the utility model discloses preferred embodiment's alarm signal can in time warn constructor to take corresponding heating or cooling measure when construction temperature surpasss the default scope to guarantee that the temperature in the heating apparatus remains the within range of requirement throughout.

Further, referring to fig. 4, the heat insulation board 10 includes an outer wall 11 and an inner wall 12 arranged at an interval to form a compartment, the compartment includes a heat insulation chamber adjacent to the outer wall 11 and a heat conduction chamber adjacent to the inner wall 12, and the heating device 60 is arranged in the heat conduction chamber. The heat transfer channel between the outside and the inside of the warming device can be blocked by the separation chamber. Optionally, the insulation chamber is vacuumized or filled with insulation material 80, which provides better insulation. Optionally, the heat conduction cavity is filled with a heat conduction material 90, such as asbestos, heat conduction silicone grease or heat conduction paste, and the heating device 60 is disposed in the middle of the heat conduction material 90, with such a structure, the heat conduction material 90 can uniformly transfer heat generated by the heating device 60 to the inner wall 12 of the heating device, and then the heat is directly transferred to the air in the heating device through the inner wall 12.

In addition, the heat conducting material 90 is uniformly covered on the inner wall 12 of the heating device, so as to achieve better heat conducting and heating effects.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A split-combined movable heating device is characterized by comprising a plurality of heat insulation plates (10) which are spliced with each other to form a closed heating space;

a connecting framework (20) is arranged on the side edge of the heat insulation plate (10), and a clamping groove type splicing structure for realizing splicing is arranged on the connecting framework (20); wherein,

the heat insulation plate (10) comprises a first heat insulation single plate (13) provided with a clamping groove (15) along the length direction of the connecting framework (20) and a second heat insulation single plate (14) provided with a convex column (16) matched with the clamping groove (15) along the length direction of the connecting framework (20), and the first heat insulation single plate (13) is detachably connected with the second heat insulation single plate (14);

the heat insulation plate (10) comprises a heating device (60) arranged in the heat insulation plate (10) and an electric socket arranged on the side wall of the heat insulation plate (10), and the electric socket is electrically connected with the heating device (60);

the heating device (60) is electrically connected with a heating controller (70) for controlling the heating device (60) to generate heat.

2. The split-combination mobile warming apparatus according to claim 1,

at least one heat insulation board (10) arranged at the bottom of the side surface of the connecting framework (20) is provided with a door (50) for entrance and exit.

3. The split-combination mobile warming apparatus according to claim 1,

and a heat insulation rubber plate (40) used for blocking heat transfer between the ground and the bottom of the split combined movable heating device is paved at the bottom of the split combined movable heating device.

4. The split-combination mobile warming apparatus according to claim 1,

the bottom of the connecting framework (20) is provided with a pulley (30).

5. The split-combination mobile warming apparatus according to claim 1,

the heating device (60) comprises an electric heating tube or an electric heating wire layer.

6. The split-combination mobile warming apparatus according to claim 1,

the opening of the clamping groove (15) is in necking arrangement, and the cross section of the clamping groove (15) is in an inverted T shape or a triangular shape.

7. The split-combination mobile warming apparatus according to claim 1,

the heating controller (70) is electrically connected with a temperature sensor arranged on the inner wall of the split combined movable heating device.

8. The split-combination mobile warming apparatus according to claim 7,

the wall of the split combined movable heating device is also provided with a temperature display device electrically connected with the heating controller (70) and used for displaying corresponding temperature values according to temperature signals detected by the temperature sensors.

9. The split-combination mobile warming apparatus according to claim 8,

the split combined movable warming device is also provided with an alarm device electrically connected with the warming controller (70) and used for generating a corresponding alarm signal when the temperature signal exceeds the range of a preset value.

10. The split-combination mobile warming apparatus according to any one of claims 1 to 9,

the heat insulation plate (10) comprises an outer wall (11) and an inner wall (12) which are arranged at intervals to form a separation cavity, the separation cavity comprises a heat insulation cavity close to the outer wall (11) and a heat conduction cavity close to the inner wall (12), and the heating device (60) is arranged in the heat conduction cavity.