CN113551410A

CN113551410A - Carbon fiber electric boiler

Info

Publication number: CN113551410A
Application number: CN202110797052.6A
Authority: CN
Inventors: 李雪真; 张爱民; 韩涛
Original assignee: Qingdao Qianyi New Material Technology Co ltd
Current assignee: Qingdao Qianyi New Material Technology Co ltd
Priority date: 2021-07-14
Filing date: 2021-07-14
Publication date: 2021-10-26

Abstract

The invention discloses a carbon fiber electric boiler, and relates to the technical field of boilers. Comprises a furnace body and a furnace cover matched with the furnace body; the furnace body and the furnace cover are detachably connected through a door bolt type quick clamp; a plurality of carbon fiber heating pipes are arranged below the furnace cover; a plurality of clapboards are arranged in the furnace body, and divide the interior of the furnace body into a plurality of cavities; a first filter tank is inserted in the cavity close to the water inlet pipe, and a second filter tank is inserted in the cavity close to the water outlet pipe; flow guide cavities are inserted into the other cavities, the bottom of one side of each flow guide cavity is provided with a drainage port, and the top of the other side of each flow guide cavity is provided with a drainage port; the plurality of flow guide cavities are communicated in a butt joint mode through the flow guide ports; the inner wall is provided with a spiral guide plate, and a through hole for accommodating the carbon fiber heating pipe is axially arranged on the guide plate. The invention can realize the quick disassembly of the furnace body and the furnace cover, and is convenient for cleaning and maintenance; impurities can be effectively intercepted through the arrangement of the first filter tank and the second filter tank; the carbon fiber heating pipe is washed by the spiral water flow, so that the attachment of impurity scales is prevented.

Description

Carbon fiber electric boiler

Technical Field

The invention relates to the technical field of boilers, in particular to a carbon fiber electric heating boiler.

Background

An electric boiler is a thermal energy device that converts electric energy into thermal energy. The electric boiler adopts electric energy to heat water into pressurized hot water or steam for life and production, does not need a hearth, a flue and a chimney, and does not need a field for storing fuel, thereby obviously reducing the pollution caused by the conventional coal-fired boiler. Therefore, the electric boiler is a green and environment-friendly device which has no pollution and noise, small occupied area, convenient installation and use, high automation degree, safety, reliability and high thermal efficiency. However, in the using process, the scale and impurities in the tube can be gathered in the boiler and on the heating tube, so that the heating efficiency is low and the energy is wasted; in addition, the electric boiler is difficult to disassemble and clean.

Disclosure of Invention

The invention mainly aims to provide a carbon fiber electric boiler to solve the problems.

In order to achieve the purpose, the invention provides a carbon fiber electric boiler, which comprises a boiler body and a boiler cover matched with the boiler body; a water inlet pipe is arranged on one side of the furnace body, and a water outlet pipe is arranged on the other side of the furnace body; the furnace body and the furnace cover are detachably connected through a door bolt type quick clamp; a plurality of carbon fiber heating pipes are arranged below the furnace cover; a plurality of partition plates are arranged in the furnace body, and the interior of the furnace body is divided into a plurality of cavities by the partition plates; a first filter tank is inserted in the cavity close to the water inlet pipe, and a second filter tank is inserted in the cavity close to the water outlet pipe; flow guide cavities are inserted into the other cavities, the bottom of one side of each flow guide cavity is provided with a drainage port, and the top of the other side of each flow guide cavity is provided with a drainage port; the plurality of flow guide cavities are communicated in a butt joint mode through the flow guide openings; the spiral guide plate is arranged on the inner wall of the guide cavity, and a through hole for accommodating the carbon fiber heating pipe is axially formed in the guide plate.

Further, at least one drainage slag removal pipe is arranged at the bottom of the furnace body; and valves are arranged on the water inlet pipe, the water outlet pipe and the drainage slag removal pipe.

Furthermore, a pressure sensor for detecting the water pressure in the furnace body and a temperature sensor for detecting the water temperature are arranged at the bottom of the furnace cover.

Furthermore, a control panel is arranged at the top of the furnace cover and is electrically connected with the carbon fiber heating pipe, the pressure sensor and the temperature sensor.

Furthermore, the axial section of the flow guide cavity is square.

Furthermore, one side of the first filter tank close to the water inlet pipe is provided with a water inlet matched with the water inlet pipe, and the other side of the first filter tank is provided with a filter screen.

Furthermore, one side of the second filter tank, which is close to the water outlet pipe, is provided with a water outlet filter screen, and the bottom of the other side is provided with an inclined water inlet.

The furnace body and the furnace cover can be quickly disassembled, and the first filter box, the second filter box and the flow guide cavity can be pulled out, so that the cleaning and the maintenance are convenient; impurities can be effectively intercepted through the arrangement of the first filter tank and the second filter tank; the setting in water conservancy diversion chamber can effectively improve the heating effect, and simultaneously, spiral rivers wash carbon fiber heating pipe, prevent that the impurity incrustation scale from adhering to.

Drawings

FIG. 1 is a schematic view of an electric boiler using carbon fiber according to the present invention.

FIG. 2 is an exploded view of a carbon fiber electric boiler according to the present invention.

FIG. 3 is a sectional view of a carbon fiber electric boiler body according to the present invention.

FIG. 4 is a schematic view of a flow guide chamber of a carbon fiber electric boiler according to the present invention.

FIG. 5 is a schematic view of a first filtering box of a carbon fiber electric boiler according to the present invention.

FIG. 6 is a schematic view of a second filtering box of a carbon fiber electric boiler according to the present invention.

Wherein, 1-control panel; 2-furnace cover; 3-furnace body; 4-an insulating layer; 5-water outlet pipe; 6-a drainage deslagging pipe; 7-bolt type quick clamp; 8-water inlet pipe; 9-a valve; 10-a carbon fiber heating pipe; 31-a separator; 32-a first filter tank; 33-a flow guide cavity; 34-a second filter tank; 321-a water inlet; 322-a filter screen; 331-a flow guide plate; 332-through holes; 333-drainage port; 341-water outlet filter screen; 342-inclined water inlet.

Detailed Description

To achieve the above objects and advantages, the present invention provides a technical means and a structure thereof, which are described in detail with reference to the accompanying drawings.

As shown in fig. 1-6, the present invention provides a carbon fiber electric boiler, which comprises a boiler body 3 and a boiler cover 2 matched with the boiler body 3; a water inlet pipe 8 is arranged on one side of the furnace body 3, and a water outlet pipe 5 is arranged on the other side of the furnace body; the bottom of the furnace body 3 is provided with at least one drainage deslagging pipe 6; and valves 9 are arranged on the water inlet pipe 8, the water outlet pipe 5 and the drainage slag removal pipe 6. Inlet tube 8, outlet pipe 5 are opened under the normal operating condition, and drainage deslagging pipe 6 is closed, when wasing, closes inlet tube 8, outlet pipe 5, opens drainage deslagging pipe 6 and clears up the slagging-off.

The furnace body 3 and the furnace cover 2 are detachably connected through a door bolt type quick clamp 7; a plurality of carbon fiber heating pipes 10 are arranged below the furnace cover 2; a plurality of partition plates 31 are arranged in the furnace body 3, and the interior of the furnace body is divided into a plurality of cavities by the partition plates 31; a first filter tank 32 is inserted into the cavity close to the water inlet pipe 8, a water inlet 321 matched with the water inlet pipe 8 is arranged on one side of the first filter tank 32 close to the water inlet pipe 8, and a filter screen 322 is arranged on the other side; this arrangement allows impurities in the piping to be collected in the first filter tank 32. A second filter tank 34 is inserted into the cavity close to the water outlet pipe 5, a water outlet filter screen 341 is arranged on one side of the second filter tank 34 close to the water outlet pipe 5, and an inclined water inlet 342 is arranged at the bottom of the other side; this arrangement prevents impurities such as scale from flowing into the pipe and collecting them at the bottom of the furnace body 3. The other cavities are internally provided with flow guide cavities 33 in an inserted manner, the bottom of one side of each flow guide cavity 33 is provided with a drainage port 333, and the top of the other side of each flow guide cavity 33 is provided with a drainage port 333; the diversion cavities 33 are in butt joint communication through the diversion ports 333; a spiral guide plate 331 is arranged on the inner wall of the guide cavity 33, a through hole 332 for accommodating a carbon fiber heating pipe is axially formed in the middle of the guide plate 331, and the axial section of the guide cavity 33 is square; the arrangement enables water in the diversion cavity 33 to form spiral water flow to flush the carbon fiber heating pipe 10, so as to prevent the attachment of impurity scale; the right angle in the diversion cavity 33 can make the spiral water flow move irregularly, thereby improving the washing effect. In order to ensure the heating effect, the outside of the furnace body is also provided with a heat preservation layer 4.

In another embodiment, the bottom of the furnace cover 2 is provided with a pressure sensor for detecting the water pressure inside the furnace body 3 and a temperature sensor for detecting the water temperature. The top of the furnace cover 2 is provided with a control panel 1, and the control panel 1 is electrically connected with a carbon fiber heating pipe 10, a pressure sensor and a temperature sensor. The water pressure in the furnace body 3 can be monitored through the control panel 1, the pressure exceeds a set value for warning and reminding, and the boiler needs to be cleaned. The heating temperature can be set through the control panel 1, the water temperature is lower than the designated temperature to start heating, and the heating is stopped when the water temperature reaches the designated temperature, so that the energy is saved.

The above description is only a preferred embodiment of the present invention, and not all embodiments, and all structural changes made under the teaching of the present invention should be understood as belonging to the protection scope of the present invention.

Claims

1. A carbon fiber electric boiler comprises a boiler body and a boiler cover matched with the boiler body; a water inlet pipe is arranged on one side of the furnace body, and a water outlet pipe is arranged on the other side of the furnace body; the furnace is characterized in that the furnace body and the furnace cover are detachably connected through a door bolt type quick clamp; a plurality of carbon fiber heating pipes are arranged below the furnace cover; a plurality of partition plates are arranged in the furnace body, and the interior of the furnace body is divided into a plurality of cavities by the partition plates; a first filter tank is inserted in the cavity close to the water inlet pipe, and a second filter tank is inserted in the cavity close to the water outlet pipe; flow guide cavities are inserted into the other cavities, the bottom of one side of each flow guide cavity is provided with a drainage port, and the top of the other side of each flow guide cavity is provided with a drainage port; the plurality of flow guide cavities are communicated in a butt joint mode through the flow guide openings; the spiral guide plate is arranged on the inner wall of the guide cavity, and a through hole for accommodating the carbon fiber heating pipe is axially formed in the guide plate.

2. The carbon fiber electric boiler according to claim 1, wherein at least one water drainage and slag removal pipe is arranged at the bottom of the boiler body; and valves are arranged on the water inlet pipe, the water outlet pipe and the drainage slag removal pipe.

3. The carbon fiber electric boiler according to claim 1 or 2, wherein a pressure sensor for detecting water pressure inside the boiler body and a temperature sensor for detecting water temperature are provided at the bottom of the boiler cover.

4. The carbon fiber electric boiler according to claim 3, wherein a control panel is disposed on the top of the furnace cover, and the control panel is electrically connected to the carbon fiber heating tube, the pressure sensor and the temperature sensor.

5. A carbon fiber electric boiler in accordance with claim 1, wherein said baffle chamber has a square axial cross-section.

6. The carbon fiber electric boiler according to claim 1, wherein a water inlet adapted to the water inlet pipe is provided at one side of the first filtering tank adjacent to the water inlet pipe, and a filtering net is provided at the other side.

7. The carbon fiber electric boiler according to claim 1, wherein the second filter tank is provided with a water outlet screen at one side thereof adjacent to the water outlet pipe and an inclined water inlet at the bottom of the other side thereof.