CN218328262U - Environment-friendly biomass stove - Google Patents

Abstract

The utility model relates to the field of furnace equipment, in particular to an environment-friendly biomass furnace, which comprises a furnace body and a furnace door, wherein the furnace body is provided with an air inlet hole, a feed inlet and a discharge outlet, and the furnace door is arranged at the feed inlet arranged on the furnace body; the sealing plate is arranged at a discharge port formed in the furnace body; the heating plate is provided with a groove and a coordination groove, the coordination groove is formed in two sides of the groove, and an ejection mechanism is fixedly arranged in the groove formed in the heating plate; the buckling mechanism is fixedly arranged on the furnace body; the iron net is fixedly arranged in the furnace body, and an igniter arranged on the furnace body is arranged on the upper side of the iron net; and the ash cleaning mechanism is arranged in the furnace body and is positioned below the iron net. The utility model provides an environmental protection living beings stove not only can be through the burning of biomass material in order to play the effect of heating, and the produced dust discharge after conveniently will burning moreover can carry out the dismantlement of hot plate simultaneously, conveniently maintains the stove, easy operation, and the practicality is strong.

Description

Environment-friendly biomass stove

Technical Field

The utility model relates to a stove equipment field especially relates to an environmental protection biomass stove.

Background

The biomass stove uses biomass fuel as a combustion material, realizes the heating effect through the combustion of the biomass fuel, and has the advantages of low cost, easy acquisition and the like, and is widely used.

Although the existing biomass stove can play a role in heating, dust after combustion is often difficult to lead out, the dust needs to be cleaned in the stove, and meanwhile, a heating plate is not easy to detach, so that the stove is troublesome to maintain, and therefore an environment-friendly biomass stove is needed to solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of the utility model is to provide an environmental protection biomass stove, aim at solving following problem: dust after the burning of current biomass stove often is difficult for deriving and the heating plate is difficult for dismantling.

The embodiment of the utility model provides a realize like this, an environmental protection biomass stove, include: the furnace body is provided with an air inlet hole, a feed inlet and a discharge outlet, and the furnace door is arranged at the feed inlet of the furnace body; the sealing plate is arranged at the discharge port of the furnace body and used for controlling the opening and closing of the discharge port of the furnace body; the heating plate is provided with a groove and a coordination groove, the coordination groove is formed in two sides of the groove, and an ejection mechanism is fixedly arranged in the groove formed in the heating plate; the buckling mechanism is fixedly arranged on the furnace body and is used for entering the groove and the positioning groove formed in the heating plate so as to fix the heating plate and the furnace body; the biomass fuel furnace comprises an iron net, a furnace body and a heating device, wherein the iron net is fixedly arranged in the furnace body and is used for receiving biomass fuel guided into the furnace body from a feeding hole; and the ash removal mechanism is arranged in the furnace body and positioned below the iron net and is used for guiding out dust obtained by burning the biomass fuel from the discharge hole.

Preferably, the ejection mechanism comprises: and one end of each push spring is fixedly arranged in the groove formed in the heating plate and is provided with a plurality of push springs, the other end of each push spring is fixedly connected with a top plate, and the top plate is used for upwards pushing the heating plate when the buckling mechanism is separated from the matching groove.

Preferably, the snapping mechanism comprises: the convex block is fixedly connected with the furnace body and can enter the groove formed in the heating plate, the convex block is provided with side grooves and a cavity, and the side grooves are distributed on two sides of the cavity; one end of each guide rod is fixedly arranged in a side groove formed in the bump, at least two guide rods are arranged, a guide block is sleeved on each guide rod, and a pressure spring used for pushing the guide block to slide along the guide rod is fixedly connected between each guide block and the inner wall of each side groove; the coordination block is fixedly connected with the guide block, the coordination block is matched with a coordination groove formed in the heating plate, and the coordination block enters the coordination groove to fix the heating plate and the furnace body; and the pulling assembly is arranged in the cavity formed by the convex block, is connected with the guide block and is used for pulling the coordination block to be separated from the coordination groove formed by the heating plate.

Preferably, the pulling assembly comprises: two ends of the rotating rod are rotatably connected with the inner wall of the cavity formed by the heating plate, and one end of the rotating rod is fixedly connected with a rotating handle extending out of the heating plate; the rotary drum, its fixed mounting just is provided with two on the bull stick, the fixed stretching strap that is provided with on the rotary drum, the one end setting that the rotary drum was kept away from to the stretching strap is in the side inslot and with guide block fixed connection.

Preferably, the ash removal mechanism comprises: the protective box is fixedly arranged outside the furnace body, and a driving cam is rotatably mounted in the protective box; the connecting frame is slidably arranged on the protective box, a pulley in sliding contact with the driving cam is arranged on the connecting frame, and one end of the connecting frame extends into the furnace body; the supporting block is arranged in the furnace body, a notch is formed in the supporting block, a partition plate is fixedly connected to the middle of the notch formed in the supporting block, and the partition plate is fixedly connected with one end, arranged in the furnace body, of the connecting frame; the two ends of the sliding rod are respectively and fixedly connected with the inner wall of the notch and the partition plate, a sliding block is sleeved on the sliding rod, and a top spring for pushing the sliding block to slide along the sliding rod is fixedly connected between the sliding block and the partition plate; the lagging, its one end and slider are articulated, the slip is provided with the extension board on the lagging, and the extension board is kept away from the one end of lagging and furnace body inner wall and is articulated.

The utility model provides an environmental protection living beings stove not only can be through the burning of biomass material in order to play the effect of heating, and the produced dust discharge after conveniently will burning moreover can carry out the dismantlement of hot plate simultaneously, conveniently maintains the stove, easy operation, and the practicality is strong.

Drawings

Fig. 1 is an external view of an environment-friendly biomass stove.

Fig. 2 is a schematic structural diagram of an environment-friendly biomass stove.

Fig. 3 is a schematic view of a fastening mechanism of the environmental-friendly biomass stove.

Fig. 4 is a schematic view of a pulling assembly of the environmentally friendly biomass stove.

FIG. 5 is a partial schematic view of a soot cleaning mechanism of the environmental-friendly biomass furnace.

In the drawings: 1-furnace body, 2-furnace door, 3-closing plate, 4-heating plate, 5-ejection mechanism, 6-buckling mechanism, 7-iron net, 8-igniter, 9-ash removing mechanism, 51-pushing spring, 52-top plate, 61-lug, 62-guide rod, 63-guide block, 64-pressure spring, 65-positioning block, 66-pulling component, 661-rotating rod, 662-rotating handle, 663-rotating cylinder, 664-pulling belt, 91-protecting box, 92-driving cam, 93-connecting frame, 94-pulley, 95-supporting block, 96-clapboard, 97-sliding rod, 98-sliding block, 99-pushing spring, 910-sleeve plate and 911-extension plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of, and do not limit, the invention.

The following detailed description is provided for the specific embodiments of the present invention.

Referring to fig. 1 and fig. 2, an environment-friendly biomass stove provided by an embodiment of the present invention includes:

the furnace comprises a furnace body 1 and a furnace door 2, wherein the furnace body 1 is provided with an air inlet hole, a feed inlet and a discharge outlet, and the furnace door 2 is arranged at the feed inlet of the furnace body 1; the sealing plate 3 is arranged at a discharge port formed in the furnace body 1 and is used for controlling the opening and closing of the discharge port of the furnace body 1; the heating plate 4 is provided with a groove and a coordination groove, the coordination groove is formed in two sides of the groove, and an ejection mechanism 5 is fixedly arranged in the groove formed in the heating plate 4; the buckling mechanism 6 is fixedly arranged on the furnace body 1, and the buckling mechanism 6 is used for entering a groove and a coordination groove formed in the heating plate 4 so as to fix the heating plate 4 and the furnace body 1; the furnace body 1 is fixedly provided with an iron net 7, the iron net 7 is fixedly arranged in the furnace body 1 and is used for receiving the biomass fuel guided into the furnace body 1 from the feeding hole, and an igniter 8 arranged on the furnace body 1 is arranged on the upper side of the iron net 7; and the ash cleaning mechanism 9 is arranged in the furnace body 1 and positioned below the iron net 7, and is used for guiding out dust obtained by burning the biomass fuel from the discharge hole.

When the stove is used, firstly, the heating plate 4 is fixed with the stove body 1 through the buckling mechanism 6, after the fixing is completed, the stove door 2 is pulled, the feed port is opened, then, the biomass fuel is added onto the iron net 7 through the feed port, then, the feed port is closed through the stove door 2, the biomass fuel on the iron net 7 is ignited by using the igniter 8, in the combustion process of the biomass fuel, dust can fall onto the ash cleaning mechanism 9 and slide to two sides, the generated heat can be guided onto the heating plate 4, objects or kettles and the like needing to be heated can be placed on the heating plate 4, the heating effect is realized, the sealing plate 3 can be pulled regularly to open the discharge port, the dust can be guided out through the discharge port, if the dust still remains on the ash cleaning mechanism 9, the ash cleaning mechanism 9 can be opened, the ash cleaning mechanism 9 vibrates up and down, so that the remaining dust can be guided out of the discharge port, if the stove body 1 needs to be maintained, the control end of the buckling mechanism 6 can be rotated, after the buckling mechanism 6 is separated from a positioning groove formed in the heating plate 4, the ejecting mechanism 5 can eject the heating plate 4 upwards by a small distance, and then the heating plate 4 can be taken out, and the heating plate 4 can be conveniently maintained.

As shown in fig. 3, as a preferred embodiment of the present invention, the ejection mechanism 5 includes: one end of each push spring 51 is fixedly arranged in a groove formed in the heating plate 4 and is provided with a plurality of push springs, the other end of each push spring 51 is fixedly connected with a top plate 52, and the top plate 52 is used for pushing the heating plate 4 upwards when the buckling mechanisms 6 are separated from the matching grooves.

After the control buckling mechanism 6 is separated from the matching groove, due to the limitation of the buckling mechanism 6, the top plate 52 can enable the push spring 51 to push the heating plate 4 upwards, and the heating plate 4 can move upwards for a small distance, so that the heating plate 4 can be taken out conveniently.

As shown in fig. 3, as a preferred embodiment of the present invention, the fastening mechanism 6 includes: the convex block 61 is fixedly connected with the furnace body 1 and can enter a groove formed in the heating plate 4, the convex block 61 is provided with side grooves and a cavity, and the side grooves are distributed on two sides of the cavity; one end of each guide rod 62 is fixedly arranged in a side groove formed in the bump 61, at least two guide rods are arranged, a guide block 63 is sleeved on each guide rod 62, and a pressure spring 64 for pushing the guide block 63 to slide along the guide rods 62 is fixedly connected between each guide block 63 and the inner wall of each side groove; the positioning block 65 is fixedly connected with the guide block 63, the positioning block 65 is matched with a positioning groove formed in the heating plate 4, and the positioning block 65 enters the positioning groove to fix the heating plate 4 and the furnace body 1; and the pulling assembly 66 is arranged in the cavity formed by the convex block 61, is connected with the guide block 63, and is used for pulling the matching block 65 to be separated from the matching groove formed by the heating plate 4.

When carrying out the installation of hot plate 4, put into the recess alignment lug 61 that hot plate 4 was seted up, hot plate 4 will promote the coordination block 65 and the guide block 63 of both sides and do the motion of being close to each other and compress pressure spring 64 along guide arm 62, when the coordination groove that coordination block 65 and hot plate 4 were seted up is neat, under the promotion of pressure spring 64, coordination block 65 drives guide block 63 and slides and enter into the coordination groove along guide arm 62, realize hot plate 4 and furnace body 1's fixed, when needs pull hot plate 4 down, rotate the control end of pulling subassembly 66, pulling subassembly 66 can drive coordination block 65 and break away from the coordination groove, ejection mechanism 5 can be with hot plate 4 upwards promote a segment distance, the convenience is taken out hot plate 4 by furnace body 1.

As shown in fig. 4, as a preferred embodiment of the present invention, the pulling assembly 66 includes: two ends of the rotating rod 661 are rotatably connected to the inner wall of the cavity formed in the heating plate 4, and one end of the rotating rod 661 is fixedly connected to a rotating handle 662 extending to the outside of the heating plate 4; the two rotary drums 663 are fixedly mounted on the rotary rod 661 and are provided with two pull belts 664, and one ends, far away from the rotary drums 663, of the pull belts 664 are arranged in the side grooves and are fixedly connected with the guide blocks 63.

If the coordination block 65 needs to be pulled out of the coordination groove, the rotating handle 662 is rotated, the rotating handle 662 drives the rotating rod 661 to rotate, the rotating rod 661 rotates the rotating barrel 663 to rotate, the rotating barrel 663 rotates to manually roll the pull belt 664, the pull belt 664 can pull the coordination blocks 65 on the two sides to move close to each other and separate from the coordination groove, and then the heating plate 4 can be conveniently taken out of the furnace body 1.

As shown in fig. 2 and 5, as a preferred embodiment of the present invention, the ash removing mechanism 9 includes: the protective box 91 is fixedly arranged outside the furnace body 1, and a driving cam 92 is rotatably arranged in the protective box 91; the connecting frame 93 is slidably mounted on the protective box 91, a pulley 94 in sliding contact with the driving cam 92 is mounted on the connecting frame 93, and one end of the connecting frame 93 extends into the furnace body 1; the supporting block 95 is arranged in the furnace body 1, a notch is formed in the supporting block 95, a partition plate 96 is fixedly connected to the middle of the notch formed in the supporting block 95, and the partition plate 96 is fixedly connected with one end, arranged in the furnace body 1, of the connecting frame 93; the two ends of the sliding rod 97 are respectively and fixedly connected with the inner wall of the notch and the partition plate 96, a sliding block 98 is sleeved on the sliding rod 97, and a top spring 99 used for pushing the sliding block 98 to slide along the sliding rod 97 is fixedly connected between the sliding block 98 and the partition plate 96; one end of the sleeve plate 910 is hinged with the sliding block 98, an extension plate 911 is arranged on the sleeve plate 910 in a sliding manner, and one end, far away from the sleeve plate 910, of the extension plate 911 is hinged with the inner wall of the furnace body 1.

When ash is removed, the driving cam 92 is opened, the power source of the driving cam 92 is a motor, the driving cam 92 pushes the pulley 94 and the connecting frame 93 to move downwards, the connecting frame 93 moves downwards to drive the supporting block 95 to move downwards, the supporting block 95 moves downwards to drive the sleeve plate 910 to slide along the extension plate 911, meanwhile, under the pushing of the sleeve plate 910, the sliding blocks 98 on the two sides move close to each other along the sliding rod 97 and compress the top spring 99, the driving cam 92 continues to rotate, under the pushing of the top spring 99, the supporting block 95 can move upwards to reset under the pushing of the sleeve plate 910 and the extension plate 911, and the up-and-down reciprocating motion of the supporting block 95 and the reciprocating rotation of the sleeve plate 910 and the extension plate 911 can lead the residual dust out of the furnace body 1 from the discharge port.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (5)

1. An environment-friendly biomass stove comprises a stove body and a stove door, and is characterized in that the stove body is provided with an air inlet, a feed inlet and a discharge outlet, and the stove door is arranged at the feed inlet of the stove body;

the sealing plate is arranged at the discharge port of the furnace body and used for controlling the opening and closing of the discharge port of the furnace body;

the heating plate is provided with a groove and a coordination groove, the coordination groove is formed in two sides of the groove, and an ejection mechanism is fixedly arranged in the groove formed in the heating plate;

the buckling mechanism is fixedly arranged on the furnace body and is used for entering a groove and a positioning groove formed in the heating plate so as to fix the heating plate and the furnace body;

the biomass fuel furnace comprises an iron net, a furnace body and a heating device, wherein the iron net is fixedly arranged in the furnace body and is used for receiving biomass fuel guided into the furnace body from a feeding hole;

and the ash removal mechanism is arranged in the furnace body and positioned below the iron net and is used for guiding out dust obtained by burning the biomass fuel from the discharge hole.

2. The environmentally friendly biomass stove of claim 1, wherein the ejection mechanism comprises:

and one end of each push spring is fixedly arranged in the groove formed in the heating plate and is provided with a plurality of push springs, the other end of each push spring is fixedly connected with a top plate, and the top plate is used for upwards pushing the heating plate when the buckling mechanism is separated from the matching groove.

3. The environmentally friendly biomass stove of claim 1, wherein the snap-fit mechanism comprises:

the convex block is fixedly connected with the furnace body and can enter the groove formed in the heating plate, the convex block is provided with side grooves and a cavity, and the side grooves are distributed on two sides of the cavity;

one end of each guide rod is fixedly arranged in a side groove formed in the bump, at least two guide rods are arranged, a guide block is sleeved on each guide rod, and a pressure spring used for pushing the guide block to slide along the guide rod is fixedly connected between each guide block and the inner wall of each side groove;

the coordination block is fixedly connected with the guide block, the coordination block is matched with a coordination groove formed in the heating plate, and the coordination block enters the coordination groove to fix the heating plate and the furnace body;

and the pulling assembly is arranged in the cavity formed by the convex block, is connected with the guide block and is used for pulling the coordination block to be separated from the coordination groove formed by the heating plate.

4. The environmentally friendly biomass stove of claim 3, wherein the pulling assembly comprises:

two ends of the rotating rod are rotatably connected with the inner wall of the cavity formed by the heating plate, and one end of the rotating rod is fixedly connected with a rotating handle extending out of the heating plate;

the rotary drum, its fixed mounting just is provided with two on the bull stick, the fixed stretching strap that is provided with on the rotary drum, the one end setting that the rotary drum was kept away from to the stretching strap is in the side inslot and with guide block fixed connection.

5. The environmentally friendly biomass stove of claim 1, wherein the ash removal mechanism comprises:

the protective box is fixedly arranged outside the furnace body, and a driving cam is rotatably mounted in the protective box;

the connecting frame is slidably arranged on the protective box, a pulley in sliding contact with the driving cam is arranged on the connecting frame, and one end of the connecting frame extends into the furnace body;

the supporting block is arranged in the furnace body, a notch is formed in the supporting block, a partition plate is fixedly connected to the middle of the notch formed in the supporting block, and the partition plate is fixedly connected with one end, arranged in the furnace body, of the connecting frame;

the two ends of the sliding rod are respectively and fixedly connected with the inner wall of the notch and the partition plate, a sliding block is sleeved on the sliding rod, and a top spring used for pushing the sliding block to slide along the sliding rod is fixedly connected between the sliding block and the partition plate;

one end of the sleeve plate is hinged to the sliding block, an extension plate is arranged on the sleeve plate in a sliding mode, and one end, far away from the sleeve plate, of the extension plate is hinged to the inner wall of the furnace body.

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