CN111964145A

CN111964145A - Heating energy-saving equipment

Info

Publication number: CN111964145A
Application number: CN202010808991.1A
Authority: CN
Inventors: 王玉秀
Original assignee: Guangzhou Guozhi Electromechanical Equipment Co ltd
Current assignee: Tangshan Fengnan Xinfeng Thermal Power Co.,Ltd.
Priority date: 2020-08-12
Filing date: 2020-08-12
Publication date: 2020-11-20
Anticipated expiration: 2040-08-12
Also published as: CN111964145B

Abstract

The invention discloses heating energy-saving equipment, which structurally comprises a furnace body, an object placing groove, a gas purifying box and an indicator, wherein the object placing groove is embedded and fixed on the upper surface of the furnace body, the front side of the gas purifying box is connected to the back of the furnace body through welding, and the indicator is arranged on the front side of the furnace body in a matching way, and the heating energy-saving equipment has the beneficial effects that: the natural gas burns on the combustion plate and produces the heat and wave upwards, atmospheric pressure in the increase furnace body under the shelves of pressure increasing piece, make the heat can not quick scattering and disappearing, the temperature in the heating chamber of being convenient for, make the baffle rotate to open under gaseous upwards assaulting, make during gaseous gets into the gas purification case through the through-hole and discharges outer outside air again, in order to avoid causing environmental pollution, promote holding ring rebound when the gas that the natural gas burning produced flows upwards, make and scrape the piece and scrape and wipe off the fixed rod surface, simultaneously under the inboard friction of rotor and pressure increasing piece, make the scraper blade scrape the dirt form thing of pressure increasing piece surface, avoid the dirt form thing to corrode the pressure increasing piece, in order to avoid leading to the heat in the furnace body to give off very fast.

Description

Heating energy-saving equipment

Technical Field

The invention relates to the field of energy conservation, in particular to heating energy-saving equipment.

Background

Heating energy-saving equipment just is the equipment that can provide different heats as the name implies, accomplishes the required temperature of production under the condition of consuming the minimum energy to carry out make full use of to the heat that produces, the temperature is lower in winter in the north, so need use the heating stove and carry out indoor heating, inputs the natural gas in the furnace body usually when the heating stove uses, makes the natural gas produce required heat at the internal combustion of furnace.

At present current heating energy-saving equipment, the gas that the natural gas after the burning produced in the heating stove carries the heat and upwards floats in the furnace body, because the space in the furnace body is spacious, use the pressure intensifying piece to carry out the atmospheric pressure that separates the shelves messenger furnace body to gas enough, the heat can stop for a long time in the furnace body to indoor heating simultaneously, nevertheless carry thermal gas and pressure intensifying piece long time contact and can produce the scale form thing on the pressure intensifying piece, the pressure intensifying piece can be corroded more and more to these scale form things, lead to the heat in the furnace body to give off very fast.

Disclosure of Invention

Aiming at the prior heating energy-saving equipment, the gas generated by the natural gas after combustion in the heating furnace carries heat to float upwards in the furnace body, because the space in the furnace body is open, the pressurizing block is used for separating the gas to ensure that the gas pressure in the furnace body is sufficient, meanwhile, the heat can stay in the furnace body for a long time to heat the room, however, the gas carrying the heat can generate scale-shaped objects on the pressurizing block after being contacted with the pressurizing block for a long time, and the scale-shaped objects can corrode the pressurizing block more and more, so that the heat in the furnace body is quickly dissipated.

The invention is realized by the following technical scheme: the utility model provides a heating energy-saving equipment, its structure includes the furnace body, puts thing groove, air purification case, indicator, it inlays admittedly in the furnace body upper surface to put the thing groove, air purification case front side passes through welded connection in the furnace body back, the indicator cooperation is installed in the furnace body front side, the furnace body includes natural gas pipe, burner plate, briquetting, dead lever, edulcoration case, through-hole, natural gas pipe inlays admittedly in furnace body left wall below, burner plate passes through welded connection in the furnace body inner wall, the briquetting inlays admittedly in the furnace body inner wall and lies in the burner plate top, the dead lever bottom is through welded connection in burner plate top center, and the dead lever top lies in between the briquetting, edulcoration case passes through gap connection in the furnace body bottom, the through-hole inlays and locates inside the furnace body, and the through-hole is put through with air purification case mutually, the burner plate is latticed, and the, and three through holes.

Further say that, the pressure boost piece includes the swash plate, draws piece, baffle, the swash plate passes through welded connection in two walls about the pressure boost piece, draw the piece to consolidate between two swash plates, bolted connection is passed through on the pressure boost piece right side to the baffle left end, the swash plate inclines inwards from a left side to the right side, and the pulling force that draws the piece is greater than the gravity of two swash plates to the baffle can rotate.

Further speaking, the baffle comprises fixed axle, fixed block, commentaries on classics piece, baffle, the fixed axle passes through bolted connection with the fixed block, change the piece and connect in the fixed axle surface through movable block, the baffle nestification is in changeing the piece outside, be equipped with in the fixed block with draw piece matched with through-hole, and the baffle bottom is the arc bending.

Furthermore, the baffle comprises positioning grooves, partition blocks and guide plates, wherein the positioning grooves are embedded in the surface of the baffle, the partition blocks are embedded and fixed inside the positioning grooves, the guide plates are connected to the upper side and the lower side of the partition blocks in a welding mode, the positioning grooves are eight, the partition blocks are three rows, and the guide plates are arc-shaped blocks made of rubber.

Furthermore, the dead lever includes the holding ring, scrapes piece, supporting shoe, telescopic link, the holding ring nestification is in the dead lever surface, scrape the piece and inlay admittedly in the holding ring inner wall and hug closely in the dead lever surface, the welding is on the dead lever top bottom the supporting shoe, the telescopic link inlays admittedly in the supporting shoe periphery, the inside hollow messenger's holding ring of holding ring is merrily and lightheartedly, and scrapes the piece and be the rubber material.

Further say, the telescopic link includes positioning spring, locating piece, changes the roller, positioning spring horizontal welding is in inner wall about the telescopic link, the locating piece passes through welded connection in telescopic link right-hand member, change the roller and pass through bolted connection in the locating piece right side wall, the inside fretwork of telescopic link, and positioning spring have outside thrust.

Still further, change the roller including changeing board, bracing piece, scraper blade, change the board and be located the same axis with changeing the roller, bracing piece one end is embedded in the board surface of changeing, the scraper blade welding is terminal at the bracing piece, the bracing piece has six and is the annular distribution, and the scraper blade surface is soft.

Advantageous effects

Compared with the prior art, the heating energy-saving equipment has the following advantages:

1. the invention has the beneficial effects that: the natural gas burns on the combustion plate and produces the heat and wave upwards, increases the atmospheric pressure in the furnace body under the shelves of increasing briquetting, makes the heat can not quick scattering and disappearing, and the temperature in the heating chamber of being convenient for makes the baffle rotate to open under gaseous upwards assaulting for during gaseous gets into the gas purification case through the through-hole and discharges outer outside air again, in order to avoid causing environmental pollution.

2. The invention has the beneficial effects that: the locating ring is pushed to move upwards when gas generated by natural gas combustion flows upwards, the scraping block is used for scraping the surface of the fixing rod, and meanwhile, under the inner side friction of the rotary roller and the pressurizing block, the scraping plate is used for scraping dirt on the surface of the pressurizing block, so that the dirt is prevented from corroding the pressurizing block, and heat in the furnace body is prevented from being dissipated quickly.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a heating energy-saving device according to the present invention.

FIG. 2 is an enlarged view of the inside of the furnace body according to the present invention.

Fig. 3 is a front enlarged structural schematic diagram of the pressure increasing block of the present invention.

Fig. 4 is a front enlarged structural view of the separator of the present invention.

Fig. 5 is a schematic bottom enlarged view of the baffle of the present invention.

Fig. 6 is a front view of the fixing rod according to the present invention.

Fig. 7 is an enlarged view of the inside of the telescopic rod of the present invention.

Fig. 8 is a front enlarged structural schematic view of the roller of the present invention.

In the figure: the device comprises a furnace body 1, a storage tank 2, a gas purification tank 3, an indicator 4, a natural gas pipe 11, a combustion plate 12, a pressurizing block 13, a fixing rod 14, an impurity removing tank 15, a through hole 16, an inclined plate 131, a pulling block 132, a partition plate 133, a fixing shaft a1, a fixing block a2, a rotating block a3, a baffle a4, a positioning groove a41, a partition block a42, a guide plate a43, a positioning ring 141, a scraping block 142, a supporting block 143, an expansion rod 144, a positioning spring b1, a positioning block b2, a rotating roller b3, a rotating plate b31, a supporting rod b32 and a scraping plate b 33.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Please refer to fig. 1-8:

example 1:

the invention provides heating energy-saving equipment which structurally comprises a furnace body 1, an object holding groove 2, an air purifying box 3 and an indicator 4, wherein the object holding groove 2 is embedded and fixed on the upper surface of the furnace body 1, the front side of the air purifying box 3 is connected to the back surface of the furnace body 1 through welding, the indicator 4 is installed on the front side of the furnace body 1 in a matching manner, the furnace body 1 comprises a natural gas pipe 11, a combustion plate 12, a pressurizing block 13, a fixing rod 14, an impurity removing box 15 and a through hole 16, the natural gas pipe 11 is embedded and fixed below the left wall of the furnace body 1, the combustion plate 12 is connected to the inner wall of the furnace body 1 through welding, the pressurizing block 13 is embedded and fixed on the inner wall of the furnace body 1 and positioned above the combustion plate 12, the bottom end of the fixing rod 14 is connected to the center of the top of the combustion plate 12 through welding, the top end of the fixing rod 14 is positioned between, and the through hole 16 is put through with the gas purification case 3, the burner plate 12 is latticed, and pressure boost piece 13 is the ring shape installation to the through hole 16 has three, does benefit to the atmospheric pressure in the baffle increase furnace body 1 through pressure boost piece 13, makes the heat in the furnace body 1 can not quick the scattering and disappearing, is convenient for heat indoor temperature.

In the figure, the pressure increasing block 13 includes the swash plate 131, draws piece 132, baffle 133, swash plate 131 passes through welded connection in two walls about the pressure increasing block 13, draw piece 132 to consolidate between two swash plates 131, the baffle 133 left end passes through bolted connection in the pressure increasing block 13 right side, the swash plate 131 inclines inwards from a left side to the right side, and the pulling force that draws piece 132 is greater than the gravity of two swash plates 131 to the baffle 133 can rotate, does benefit to and separates the shelves and extrude gas through swash plate 131 to the gas in the furnace body 1.

In the drawing, the partition plate 133 is composed of a fixed shaft a1, a fixed block a2, a rotating block a3 and a baffle plate a4, the fixed shaft a1 is connected with the fixed block a2 through bolts, the rotating block a3 is connected to the outer surface of the fixed shaft a1 through movable clamping, the baffle plate a4 is nested outside the rotating block a3, a through hole matched with the pulling block 132 is formed in the fixed block a2, and the bottom of the baffle plate a4 is curved in an arc shape, so that the left end of the baffle plate a4 is fixed, and the baffle plate a4 is opened upwards under the pushing of airflow.

In the drawing, the baffle a4 includes constant head tank a41, spacer a42, baffle a43, constant head tank a41 inlays and locates baffle a4 surface, spacer a42 inlays inside constant head tank a41, baffle a43 passes through welded connection in spacer a42 upper and lower both sides, constant head tank a41 has eight, and spacer a42 has three rows to guide a43 is the arc piece of rubber material, is favorable to leading to the gas in constant head tank a41 and promotes baffle a4 and rotate.

The specific principle of the embodiment is as follows: through natural gas pipe 11 toward furnace body 1 internal input natural gas, and the burning produces the heat and upwards flutters on burner plate 12, increase the atmospheric pressure in the furnace body 1 under the shelves of the booster block 13 in the furnace body 1, make the heat in the furnace body 1 can not quick scattering and disappearing, be convenient for the temperature in the furnace body 1 heating chamber, then carry thermal gas in the furnace body 1 and last the upwards flow under the effect of atmospheric pressure, make the gas impact the constant head tank a41 of baffle a4 bottom, make baffle a4 rotate around fixed axle a1 and open, make in the gas gets into gas purification case 3 through-hole 16 and discharges outer air again, avoid the atmospheric pressure in the furnace body 1 too big to lead to the explosion of furnace body 1.

Example 2:

In the drawing, the fixing rod 14 includes a positioning ring 141, a scraping block 142, a supporting block 143, and a telescopic rod 144, the positioning ring 141 is nested on the outer surface of the fixing rod 14, the scraping block 142 is embedded in the inner wall of the positioning ring 141 and tightly attached to the surface of the fixing rod 14, the bottom of the supporting block 143 is welded to the top end of the fixing rod 14, the telescopic rod 144 is embedded in the periphery of the supporting block 143, the positioning ring 141 is light due to the hollow structure inside, the scraping block 142 is made of rubber, and the positioning ring 141 is driven to move up and down under the flowing of gas, so that the scraping block 142 scrapes the.

In the drawing, the telescopic link 144 includes positioning spring b1, positioning block b2, commentaries on classics roller b3, positioning spring b1 horizontal welding is at the inner wall about the telescopic link 144, positioning block b2 passes through welded connection in the telescopic link 144 right-hand member, change roller b3 through bolted connection in positioning block b2 right wall, the inside fretwork of telescopic link 144, and positioning spring b1 has outside thrust, do benefit to the outside positioning block b2 that supports of telescopic link 144 makes commentaries on classics roller b3 and the inboard contact of pressure boost piece 13.

In the figure, the rotating roller b3 includes rotating plate b31, bracing piece b32, scraper b33, rotating plate b31 and rotating roller b3 are located the same axis, bracing piece b32 one end is embedded in rotating plate b31 surface, scraper b33 welds at the terminal of bracing piece b32, bracing piece b32 has six and is the annular distribution, and scraper b33 surface is soft, is favorable to scraping the dirt on supercharging block 13 surface through scraper b33 when rotating roller b3 contacts with supercharging block 13.

The specific principle of the embodiment is as follows: when gas generated by natural gas combustion flows upwards, the positioning ring 141 is pushed to move upwards, the scraping block 142 on the inner side of the positioning ring 141 scrapes the surface of the fixing rod 14, so that scales on the surface of the fixing rod 14 are scraped, meanwhile, the rotating roller b3 at the tail end of the telescopic rod 144 rubs the inner side of the pressurizing block 13, the scraping plate b33 at the tail end of the supporting rod b32 scrapes the scales on the surface of the pressurizing block 13, the scaling block 13 is prevented from being corroded by the scales, heat in the furnace body 1 is prevented from being rapidly dissipated, the scraped scales fall into the impurity removing box 15 through the grid type combustion plate 12, and timely cleaning is facilitated.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

Claims

1. The utility model provides a heating energy-saving equipment, its structure includes furnace body (1), puts thing groove (2), clean gas case (3), indicator (4), put thing groove (2) and inlay in furnace body (1) upper surface, clean gas case (3) front side is through welded connection in furnace body (1) back, indicator (4) cooperation is installed in furnace body (1) front side, its characterized in that:

furnace body (1) includes natural gas pipe (11), combustion plate (12), pressure boost piece (13), dead lever (14), edulcoration case (15), through-hole (16), natural gas pipe (11) are inlayed in furnace body (1) left wall below, combustion plate (12) are through welded connection in furnace body (1) inner wall, pressure boost piece (13) are inlayed in furnace body (1) inner wall and are located combustion plate (12) top, welded connection is passed through at dead lever (14) bottom in combustion plate (12) top center, and dead lever (14) top is located between pressure boost piece (13), edulcoration case (15) are bottom in furnace body (1) through the gap connection, through-hole (16) are inlayed and are located furnace body (1) inside, and through-hole (16) and gas purification case (3) switch-on mutually.

2. The heating energy saving device according to claim 1, characterized in that: the pressurizing block (13) comprises an inclined plate (131), a pulling block (132) and a partition plate (133), the inclined plate (131) is connected to the upper wall and the lower wall of the pressurizing block (13) through welding, the pulling block (132) is embedded between the two inclined plates (131), and the left end of the partition plate (133) is connected to the right side of the pressurizing block (13) through a bolt.

3. The heating energy saving device according to claim 2, characterized in that: the baffle (133) comprises a fixed shaft (a 1), a fixed block (a 2), a rotating block (a 3) and a baffle (a 4), wherein the fixed shaft (a 1) is connected with the fixed block (a 2) through bolts, the rotating block (a 3) is connected to the outer surface of the fixed shaft (a 1) through movable clamping, and the baffle (a 4) is nested on the outer side of the rotating block (a 3).

4. The heating energy saving device according to claim 3, characterized in that: baffle (a 4) include constant head tank (a 41), spacer block (a 42), baffle (a 43), baffle (a 41) are inlayed and are located baffle (a 4) surface, inside spacer block (a 42) are inlayed and are fixed in constant head tank (a 41), baffle (a 43) passes through welded connection in spacer block (a 42) upper and lower both sides.

5. The heating energy saving device according to claim 1, characterized in that: the fixing rod (14) comprises a positioning ring (141), a scraping block (142), a supporting block (143) and an expansion rod (144), the positioning ring (141) is nested on the outer surface of the fixing rod (14), the scraping block (142) is embedded and fixed on the inner wall of the positioning ring (141) and tightly attached to the surface of the fixing rod (14), the bottom of the supporting block (143) is welded to the top end of the fixing rod (14), and the expansion rod (144) is embedded and fixed on the periphery of the supporting block (143).

6. The heating energy saving device according to claim 5, characterized in that: the telescopic link (144) includes positioning spring (b 1), locating piece (b 2), changes roller (b 3), positioning spring (b 1) horizontal welding is at inner wall about telescopic link (144), locating piece (b 2) are through welded connection in telescopic link (144) right-hand member, change roller (b 3) through bolted connection in locating piece (b 2) right wall.

7. The heating energy saving device according to claim 6, characterized in that: the rotating roller (b 3) comprises a rotating plate (b 31), a supporting rod (b 32) and a scraper (b 33), the rotating plate (b 31) and the rotating roller (b 3) are located on the same axis, one end of the supporting rod (b 32) is embedded and fixed on the surface of the rotating plate (b 31), and the scraper (b 33) is welded at the tail end of the supporting rod (b 32).