CN112556429A - Vanadium-nitrogen alloy kiln capable of saving heat energy - Google Patents

Abstract

The invention discloses a vanadium-nitrogen alloy kiln capable of saving heat energy, which comprises a kiln body, wherein the top end of the kiln body is provided with a smoke exhaust port, the surface of the kiln body is provided with an insulation can, one side of the insulation can is provided with a first connecting pipe, one side of the first connecting pipe is provided with a water tank, one side of the water tank is provided with a second connecting pipe, the second connecting pipe is connected with one side of the insulation can, the surface of the first connecting pipe is provided with an saving mechanism, the saving mechanism internally comprises a guide pipe, and the guide pipe is connected with one side of the first connecting pipe. According to the invention, the ball body moves towards one side of the mounting plate, so that the moving plate connected to one side of the mounting plate can move in the first clamping groove through the first clamping block, the rubber plug connected to one side of the moving plate can move into the through hole, cold water in the water tank can be prevented from flowing into the heat insulation box through the first connecting pipe, the cold water is prevented from cooling the interior of the heat insulation box, and the combustion efficiency in the furnace body is prevented from being influenced.

Description

Vanadium-nitrogen alloy kiln capable of saving heat energy

Technical Field

The invention belongs to the technical field of kilns, and particularly relates to a vanadium-nitrogen alloy kiln capable of saving heat energy.

Background

The kiln or furnace is a furnace for firing ceramic ware and sculpture or fusing enamel on the surface of metal ware, generally built with bricks and stones, and can be made into various sizes according to the requirements, and can be operated by using combustible gas, oil or electricity, and the electric kiln is easier to control the temperature than the kiln using combustible gas and oil, but some pottery workers and sculptures consider that the temperature of the electric kiln rises too fast, and the temperature in the bore of the kiln is measured by a pyrometer or a temperature measuring cone and can be seen through a peephole.

The existing vanadium-nitrogen alloy kiln for saving heat energy is characterized in that heat insulation plates are added on the surface of the kiln so as to conveniently preserve heat in the kiln and save energy, although general heat insulation plates are low in heat price, the heat insulation effect is poor and cannot reach the expected standard, and the heat insulation plates with good heat insulation are high in price and high in cost.

Disclosure of Invention

The invention aims to solve the problems that the existing vanadium-nitrogen alloy kiln capable of saving heat energy is characterized in that heat insulation plates are added on the surface of the kiln so as to conveniently preserve heat in the kiln and save energy, although general heat insulation plates are low in heat price, the heat insulation effect is poor, the expected standard cannot be met, and the heat insulation plates with good heat insulation are high in price and high in cost.

In order to achieve the purpose, the invention adopts the following technical scheme: a vanadium-nitrogen alloy kiln capable of saving heat energy comprises a kiln body, wherein a smoke outlet is arranged at the top end of the kiln body, a heat preservation box is arranged on the surface of the kiln body, a first connecting pipe is arranged on one side of the heat preservation box, a water tank is arranged on one side of the first connecting pipe, a second connecting pipe is arranged on one side of the water tank and is connected with one side of the heat preservation box, a saving mechanism is arranged on the surface of the first connecting pipe, a guide pipe is arranged in the saving mechanism and is connected with one side of the first connecting pipe, a mounting plate is fixedly connected to the inner wall of the guide pipe, a through hole is formed in one side of the mounting plate, two connecting plates are fixedly connected to one side of the mounting plate, a first clamping groove is connected to the bottom end of each connecting plate in an embedded mode, a first clamping block is connected to the inside, the movable plate comprises a movable plate, a ball body, a rubber plug, a first sleeve, a second sleeve, a first supporting plate, a second supporting plate, a first sliding groove, a first sliding block, a first supporting rod, a third sleeve, a first hand screwing bolt, a second hand screwing bolt, a butt joint groove and a third supporting plate, wherein the ball body is installed on one side of the movable plate, the rubber plug is installed on the other side of the movable plate, the first sleeve is installed at the top end of the insulation can, the surface of the first sleeve is in threaded connection with the second sleeve, the first supporting plate is fixedly connected with the first supporting plate on one side, the second supporting plate is fixedly connected with the second supporting plate on the top end of the first supporting plate, the first sliding groove is in sleeved connection with the first sliding block on the inside, the first sliding block is inserted in the first sliding groove in a sleeved connection mode, the first hand screwing bolt penetrates through the second, one side of the third supporting plate is fixedly connected with a butt joint block, the butt joint block is connected with the inside of the butt joint groove, a second clamping groove is connected to one side of the third supporting plate in an embedded mode, the inside of the second clamping groove is connected with a second clamping block in a clamped mode, one side of the second clamping block is connected with a baffle, the baffle is connected with the top end of the second sleeve in a relative mode, and an auxiliary mechanism is installed on the surface of the heat preservation box.

As a further description of the above technical solution:

the rubber buffer is connected with the inside of the through hole, and the movable plate forms a clamping structure through the first clamping block and the first clamping groove.

As a further description of the above technical solution:

first bracing piece constitutes sliding construction through between first slider and the first spout, and first hand is twisted the bolt and is passed through and constitute detachable construction between second backup pad and the first slider.

As a further description of the above technical solution:

the third sleeve is connected with the surface of the second sleeve, and the baffle is connected with the bottom end of the third sleeve in a relative mode.

As a further description of the above technical solution:

the third supporting plate forms a clamping structure through the butt joint block and the butt joint groove, and the baffle forms a clamping structure through the second clamping block and the second clamping groove.

As a further description of the above technical solution:

the auxiliary mechanism comprises a thermometer, the thermometer is connected with the top end of the heat insulation box in an embedded manner, two sides of the thermometer are fixedly connected with second sliding grooves respectively, a second sliding block is inserted into the second sliding grooves in a sleeved manner, one side of the second sliding block is fixedly connected with a fixed plate, the fixed plate is connected with the top end of the heat insulation box, one side of the fixed plate is in threaded connection with a second screwing bolt, the second screwing bolt penetrates through the fixed plate and is in threaded connection with one side of the second sliding block, heat insulation plates are respectively installed on two sides of the heat insulation box, a partition plate is connected with one side of each heat insulation plate, a plurality of sleeves are fixedly connected to one side of each partition plate, reset springs are fixedly connected to the inner portions of the sleeves, T-shaped rods are fixedly connected to one side of each reset spring, the T-shaped rods are fixedly connected with one side of each heat insulation, and the both sides of insulation can gomphosis respectively are connected with the third spout, the inside of third spout cup joints and inserts and is equipped with the third slider, and is fixed connection between one side of third slider and furnace body, one side fixed connection of furnace body has two stoppers, and is connected between the inside of stopper and spacing groove.

As a further description of the above technical solution:

the thermometer forms a sliding structure through the second sliding groove and the second sliding block, and the second hand-screwed bolt forms a detachable structure through the fixed plate and the second sliding block.

As a further description of the above technical solution:

the T-shaped rod and the sleeve form an elastic telescopic structure through the return spring, and the sleeve is symmetrical about the central axis of the partition plate.

As a further description of the above technical solution:

the furnace body passes through to constitute sliding construction between third slider and the third spout, and the furnace body passes through to constitute detachable construction between stopper and the spacing groove.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, under the action of the saving mechanism, the ball body moves towards one side of the mounting plate, so that the moving plate connected to one side of the mounting plate can move in the first clamping groove through the first clamping block, the rubber plug connected to one side of the moving plate can move into the through hole, cold water in the water tank can be prevented from flowing into the heat insulation box through the first connecting pipe, the cold water is prevented from cooling the interior of the heat insulation box, and the combustion efficiency in the furnace body is prevented from being influenced.

2. According to the invention, through the action of the first sleeve and the second sleeve, the first sleeve and the second sleeve are in threaded connection, so that the second sleeve can rotate and move on the surface of the first sleeve, the first sleeve and the second sleeve can be conveniently extended, and the phenomenon that the distance between the first sleeve and the second sleeve is too short, so that water vapor in the insulation can is sprayed onto the body of surrounding personnel to cause injury to the personnel is avoided.

3. According to the invention, under the action of the first sleeve and the second sleeve, the baffle plate moves in the second clamping groove through the second clamping block, so that the situation that the temperature of water in the insulation can is too high for prompting personnel is prompted, the personnel can be prevented from being scalded due to the contact of the personnel and the insulation can, the third supporting plate can be conveniently installed and detached by the butt joint block and the butt joint groove, the first sliding block can move in the first sliding groove by rotating out the first hand-screwed bolt, the third sleeve indirectly connected to one side of the first sliding block can move to the surface of the second sleeve, the steam in the insulation can be conveniently utilized, equipment needing heating or warming can be conveniently connected with the third sleeve, and the utilization rate of steam resources is facilitated.

4. According to the invention, under the action of the auxiliary mechanism, the thermometer moves on the surface of the second sliding block through the second sliding groove, so that the bottom end of the thermometer can be conveniently moved into the water in the heat preservation box, the water temperature in the heat preservation box can be conveniently known in real time, and the thermometer is conveniently limited at a specified position by turning the second hand-screwed bolt into the fixed plate and the second sliding block, so that the thermometer is prevented from shaking and affecting the detection of the water temperature in the heat preservation box.

5. According to the invention, through the action of the partition plate, personnel is prevented from contacting the surface of the heat insulation box under careless conditions to cause scalding of personnel, through the action of the reset spring, collision between foreign objects and the heat insulation box can be prevented, damage of the heat insulation box can be prevented from influencing subsequent use of the heat insulation box, through the action of the heat insulation plate, rapid loss of water temperature in the heat insulation box is prevented, the furnace body can be conveniently moved to the surface of the heat insulation box through the movement of the third sliding block in the third sliding groove, and through the connection of the limiting block and the limiting groove, the furnace body can be conveniently installed and detached.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the interior of the catheter of the present invention;

FIG. 3 is a schematic view of the structure of the surfaces of the first and second casings of the present invention;

FIG. 4 is a side view of the first and second sleeves of the present invention;

FIG. 5 is a schematic view of the structure of the thermometer surface of the present invention;

FIG. 6 is a side view of the separator of the present invention;

fig. 7 is a schematic plan view of the incubator of the present invention.

Illustration of the drawings:

1. a furnace body; 2. a smoke outlet; 3. a heat preservation box; 4. a first connecting pipe; 5. a water tank; 6. a second connecting pipe; 7. a saving mechanism; 701. a conduit; 702. mounting a plate; 703. a through hole; 704. a connecting plate; 705. a first card slot; 706. a first clamping block; 707. moving the plate; 708. a sphere; 709. a rubber plug; 7010. a first sleeve; 7011. a second sleeve; 7012. a first support plate; 7013. a second support plate; 7014. a first chute; 7015. a first slider; 7016. a first support bar; 7017. a third sleeve; 7018. screwing the bolt by a first hand; 7019. a butt joint groove; 7020. a third support plate; 7021. a butt joint block; 7022. a second card slot; 7023. a second fixture block; 7024. a baffle plate; 8. an auxiliary mechanism; 801. a thermometer; 802. a second chute; 803. a second slider; 804. a fixing plate; 805. screwing a bolt by a second hand; 806. a heat insulation plate; 807. a partition plate; 808. a sleeve; 809. a return spring; 8010. a T-shaped rod; 8011. a limiting groove; 8012. a third chute; 8013. a third slider; 8014. and a limiting block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-7, a vanadium-nitrogen alloy kiln capable of saving heat energy comprises a kiln body 1, a smoke outlet 2 is installed at the top end of the kiln body 1, an insulation can 3 is installed on the surface of the kiln body 1, a first connecting pipe 4 is installed on one side of the insulation can 3, a water tank 5 is installed on one side of the first connecting pipe 4, a second connecting pipe 6 is installed on one side of the water tank 5, the second connecting pipe 6 is connected with one side of the insulation can 3, an economizing mechanism 7 is installed on the surface of the first connecting pipe 4, a guide pipe 701 is included inside the economizing mechanism 7, the guide pipe 701 is connected with one side of the first connecting pipe 4, a mounting plate 702 is fixedly connected to the inner wall of the guide pipe 701, a through hole is formed in one side of the mounting plate 702, two connecting plates 704 are fixedly connected to one side of the mounting plate, a first clamping block 706 is clamped and connected inside the first clamping groove 705, a moving plate 707 is installed at the bottom end of the first clamping block 706, a sphere 708 is installed on one side of the moving plate 707, a rubber plug 709 is installed on the other side of the moving plate 707, a first sleeve 7010 is installed at the top end of the incubator 3, a second sleeve 7011 is connected to the surface of the first sleeve 7010 in a threaded manner, a first supporting plate 7012 is fixedly connected to one side of the second sleeve 7011, a second supporting plate 7013 is fixedly connected to the top end of the first supporting plate 7012, a first sliding groove 7014 is embedded and connected to one side of the second supporting plate 7013, a first sliding block 7015 is inserted and connected to the inside of the first sliding groove 7014 in a sleeved manner, a first supporting rod 7016 is fixedly connected to one side of the first sliding block 7015, a third sleeve 7017 is fixedly connected to one side of the first supporting rod 7016, a first screwing bolt 7018 is connected to one side of the second supporting plate 7013 in a threaded manner, and the first screwing bolt 7018 penetrates through the, a butt joint groove 7019 is installed on one side of the second sleeve 7011, a third support plate 7020 is connected to one side of the butt joint groove 7019, a butt joint block 7021 is fixedly connected to one side of the third support plate 7020, the butt joint block 7021 is connected to the inside of the butt joint groove 7019, a second clamping groove 7022 is connected to one side of the third support plate 7020 in an embedded mode, a second clamping block 7023 is connected to the inside of the second clamping groove 7022 in a clamped mode, a baffle 7024 is connected to one side of the second clamping block 7023 in a connected mode, the baffle 7024 is connected to the top end of the second sleeve 7011 in an opposite mode, an auxiliary mechanism 8 is installed on the surface of the heat preservation box 3, the mounting plate 702 is connected to the periphery of the inner wall of the guide pipe 701, water can only flow through the through holes 703, and.

As shown in fig. 1 to 7, the rubber plug 709 is connected with the inside of the through hole 703, the moving plate 707 forms a clamping structure with the first clamping groove 705 through the first clamping block 706, and the size of the rubber plug 709 is the same as that of the through hole 703, so that the rubber plug 709 can move into the through hole 703 and be blocked, and cold water in the water tank 5 and hot water in the heat preservation box 3 can be prevented from being fused, and the temperature in the furnace body 1 can be prevented from being affected.

As shown in fig. 1-7, the first supporting rod 7016 forms a sliding structure with the first sliding slot 7014 through the first sliding block 7015, the first hand-screwed bolt 7018 forms a detachable structure with the first sliding block 7015 through the second supporting plate 7013, and the first sliding block 7015 moves inside the first sliding slot 7014, so that the third sleeve 7017 is conveniently contacted with the second sleeve 7011, and the water vapor inside the incubator 3 is conveniently utilized.

As shown in fig. 1-7, the third sleeve 7017 is connected to the surface of the second sleeve 7011, the baffle 7024 is connected to the bottom end of the third sleeve 7017, and the baffle 7024 covers the top end of the second sleeve 7011 to prevent the temperature inside the second sleeve 7011 from being lost too quickly.

As shown in fig. 1-7, the third support plate 7020 forms a fastening structure with the docking slot 7019 through the docking block 7021, the baffle 7024 forms a fastening structure with the second locking slot 7022 through the second locking block 7023, the docking block 7021 is connected with the docking slot 7019, so that the third support plate 7020 can be conveniently mounted and dismounted, and the second locking block 7023 moves inside the second locking slot 7022, so that the baffle 7024 can move, and the water vapor inside the thermal insulation box 3 can be conveniently discharged.

As shown in fig. 5-7, the auxiliary mechanism 8 includes a thermometer 801 inside, the thermometer 801 is connected to the top end of the thermal insulation box 3 in a fitting manner, two sides of the thermometer 801 are respectively and fixedly connected with a second sliding chute 802, a second sliding block 803 is inserted into the second sliding chute 802 in a sleeved manner, one side of the second sliding block 803 is fixedly connected with a fixing plate 804, the fixing plate 804 is connected to the top end of the thermal insulation box 3, one side of the fixing plate 804 is connected with a second hand-screw bolt 805 in a threaded manner, the second hand-screw bolt 805 penetrates through the fixing plate 804 and is connected to one side of the second sliding block 803 in a threaded manner, two sides of the thermal insulation box 3 are respectively provided with a thermal insulation plate 806, one side of the thermal insulation plate 806 is connected with a partition plate, one side 807 of the partition plate is fixedly connected with a plurality of sleeves 808, the interior of the sleeves 808, and be fixed connection between one side of T type pole 8010 and heat insulating board 806, one side gomphosis of insulation can 3 is connected with two spacing grooves 8011, and the both sides gomphosis respectively of insulation can 3 are connected with third spout 8012, the inside of third spout 8012 is cup jointed and is inserted and is equipped with third slider 8013, and be fixed connection between one side of third slider 8013 and furnace body 1, one side fixed connection of furnace body 1 has two stopper 8014, and be connected between the inside of stopper 8014 and spacing groove 8011, thermometer 801 is convenient for detect the inside water temperature of insulation can 3, and thermometer 801 is high temperature thermometer 801.

As shown in fig. 5 to 7, the thermometer 801 passes through the second sliding groove 802 and the second sliding block 803 to form a sliding structure, the second hand-screwed bolt 805 passes through the fixing plate 804 and the second sliding block 803 to form a detachable structure, the second sliding block 803 moves inside the second sliding groove 802 to facilitate moving the thermometer 801 to a specified position, and the second hand-screwed bolt 805 rotates inside the fixing plate 804 and the second sliding block 803 to facilitate mounting and dismounting of the thermometer 801.

As shown in fig. 5-7, the T-shaped rod 8010 forms an elastic telescopic structure with the sleeve 808 through the return spring 809, the sleeve 808 is symmetrical about the central axis of the partition 807, and the return spring 809 prevents the insulation can 3 from being damaged due to collision between a foreign object and the insulation can 3.

As shown in fig. 5-7, the furnace body 1 forms a sliding structure through the third slider 8013 and the third sliding groove 8012, the furnace body 1 forms a detachable structure through the limiting block 8014 and the limiting groove 8011, the third slider 8013 moves inside the third sliding groove 8012, so that the furnace body 1 can be moved to one side of the heat insulation box 3 conveniently, and the limiting block 8014 is connected with the limiting groove 8011, so that the furnace body 1 and the heat insulation box 3 can be installed and limited conveniently.

The working principle is as follows: when the furnace body 1 is used, firstly, when the interior of the furnace body 1 works, water in the water tank 5 can flow to the interior of the insulation can 3 through the second connecting pipe 6, the water in the insulation can 3 is heated through the furnace body 1, hot water can insulate the interior of the furnace body 1, when the water in the water tank 5 flows to the interior of the insulation can 3 through the first connecting pipe 4, the ball 708 can move to one side of the mounting plate 702, the moving plate 707 connected to one side of the moving plate can move in the first clamping groove 705 through the first clamping block 706, the rubber plug 709 connected to one side of the moving plate 707 can move to the interior of the through hole 703, cold water in the water tank 5 can be prevented from flowing to the interior of the insulation can 3 through the first connecting pipe 4, the cold water is prevented from cooling the interior of the insulation can 3, the combustion efficiency in the furnace body 1 is influenced, the first sleeve 7010 and the second sleeve 7011 are in threaded connection, the second sleeve 7011 can rotate and move on the surface of the first sleeve, the first sleeve 7010 and the second sleeve 7011 can be extended conveniently, the distance between the first sleeve 7010 and the second sleeve 7011 can be prevented from being too short, so that steam inside the incubator 3 can be sprayed to surrounding personnel to be injured, the baffle 7024 can move inside the second clamping groove 7022 through the second clamping block 7023, so that the personnel can be prompted that the temperature of water inside the incubator 3 is too high, the personnel can be prevented from contacting with the incubator 3 and being scalded, the butt joint block 7021 and the butt joint groove 7019 can facilitate the installation and the disassembly of the third supporting plate 7020, the first sliding block 7015 can move inside the first sliding groove 7014 by screwing the first hand out of the bolt 7018, the third sleeve 7017 indirectly connected to one side of the first sliding block 7015 can be moved to the surface of the second sleeve 7011, so that the steam inside the incubator 3 can be utilized, so that equipment needing to be heated or heated can be connected with the third sleeve 7017, so that the utilization rate of steam resources is facilitated, and the thermometer 801 can move on the surface of the second sliding groove 803 through the second sliding groove 802, the bottom end of the thermometer 801 is convenient to move to the water inside the incubator 3, the water temperature inside the incubator 3 is convenient to know in real time, the thermometer 801 is convenient to be limited at a specified position by turning the second hand-screwed bolt 805 into the fixed plate 804 and the second sliding block 803, the detection of the thermometer on the water temperature inside the incubator 3 is influenced, the personnel are prevented from being contacted with the surface of the incubator 3 carelessly by the action of the partition plate 807 and being scalded, the collision between a foreign object and the incubator 3 can be prevented by the action of the reset spring 809 to cause the damage of the incubator 3 and influence on the subsequent use of the incubator 3, the rapid loss of the water temperature inside the incubator 3 is prevented by the action of the heat insulation plate 806, the furnace body 8011 is convenient to move to the surface of the incubator 3 by the movement of the third sliding block 8013 inside the third sliding groove 8012, and the limit block 8014 is connected with the limit groove 8011, the furnace body 1 is convenient to mount and dismount, thus completing the working principle of the invention.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. The utility model provides a vanadium nitrogen alloy kiln that can practice thrift heat energy, includes furnace body (1), its characterized in that: the furnace comprises a furnace body (1), a smoke outlet (2) is installed at the top end of the furnace body (1), an insulation can (3) is installed on the surface of the furnace body (1), a first connecting pipe (4) is installed on one side of the insulation can (3), a water tank (5) is installed on one side of the first connecting pipe (4), a second connecting pipe (6) is installed on one side of the water tank (5), the second connecting pipe (6) is connected with one side of the insulation can (3), a saving mechanism (7) is installed on the surface of the first connecting pipe (4), a guide pipe (701) is arranged inside the saving mechanism (7), the guide pipe (701) is connected with one side of the first connecting pipe (4), a mounting plate (702) is fixedly connected to the inner wall of the guide pipe (701), a through hole (703) is formed in one side of the mounting plate (702), two connecting plates (704) are, and the bottom gomphosis of connecting plate (704) is connected with first draw-in groove (705), the inside block of first draw-in groove (705) is connected with first fixture block (706), and movable plate (707) is installed to the bottom of first fixture block (706), spheroid (708) are installed to one side of movable plate (707), and the opposite side of movable plate (707) installs rubber buffer (709), first sleeve pipe (7010) is installed on the top of insulation can (3), and the surface threaded connection of first sleeve pipe (7010) has second sleeve pipe (7011), one side fixedly connected with first backup pad (7012) of second sleeve pipe (7011), and the top fixedly connected with second backup pad (7013) of first backup pad (7012), one side gomphosis of second backup pad (7013) is connected with first spout (7014), and the inside of first spout (7014) is inserted and is equipped with first slider (7015), one side of the first sliding block (7015) is fixedly connected with a first supporting rod (7016), one side of the first supporting rod (7016) is fixedly connected with a third sleeve (7017), one side of the second supporting plate (7013) is in threaded connection with a first hand-screwed bolt (7018), the first hand-screwed bolt (7018) penetrates through one side of the second supporting plate (7013) and one side of the first sliding block (7015) to be in threaded connection, one side of the second sleeve (7011) is provided with a butt joint groove (7019), one side of the butt joint groove (7019) is connected with a third supporting plate (7020), one side of the third supporting plate (7020) is fixedly connected with a butt joint block (7021) and is connected with the inside of the butt joint groove (7019), one side of the third supporting plate (7020) is embedded and connected with a second clamping groove (7022), and the inside of the second clamping groove (7022) is connected with a second clamping block (7023), one side of the second clamping block (7023) is connected with a baffle (7024), the baffle (7024) is in relative connection with the top end of the second sleeve (7011), and an auxiliary mechanism (8) is installed on the surface of the heat preservation box (3).

2. The vanadium-nitrogen alloy furnace capable of saving heat energy according to claim 1, wherein: the rubber stopper (709) is connected with the inside of the through hole (703), and the moving plate (707) forms a clamping structure through the first clamping block (706) and the first clamping groove (705).

3. The vanadium-nitrogen alloy furnace capable of saving heat energy according to claim 1, wherein: the first supporting rod (7016) forms a sliding structure through the first sliding block (7015) and the first sliding groove (7014), and the first hand-screwed bolt (7018) forms a detachable structure through the second supporting plate (7013) and the first sliding block (7015).

4. The vanadium-nitrogen alloy furnace capable of saving heat energy according to claim 1, wherein: the surfaces of the third sleeve (7017) and the second sleeve (7011) are connected, and the baffle (7024) and the bottom end of the third sleeve (7017) are oppositely connected.

5. The vanadium-nitrogen alloy furnace capable of saving heat energy according to claim 1, wherein: the third supporting plate (7020) forms a clamping structure with the butt joint groove (7019) through the butt joint block (7021), and the baffle plate (7024) forms a clamping structure with the second clamping groove (7022) through the second clamping block (7023).

6. The vanadium-nitrogen alloy furnace capable of saving heat energy according to claim 1, wherein: the auxiliary mechanism (8) is internally provided with a thermometer (801), the thermometer (801) is embedded and connected with the top end of the heat preservation box (3), two sides of the thermometer (801) are respectively and fixedly connected with a second sliding groove (802), a second sliding block (803) is sleeved and inserted in the second sliding groove (802), one side of the second sliding block (803) is fixedly connected with a fixing plate (804), the fixing plate (804) is connected with the top end of the heat preservation box (3), one side of the fixing plate (804) is in threaded connection with a second hand-operated bolt (805), the second hand-operated bolt (805) penetrates through the fixing plate (804) and one side of the second sliding block (803) and is in threaded connection, heat insulation plates (806) are respectively installed on two sides of the heat preservation box (3), one side of each heat insulation plate (806) is connected with a partition plate (807), one side of each partition plate (807) is fixedly connected with a plurality of, and inside fixedly connected with reset spring (809) of sleeve (808), one side fixedly connected with T type pole (8010) of reset spring (809), and be fixed connection between one side of T type pole (8010) and heat insulating board (806), one side gomphosis of insulation can (3) is connected with two spacing grooves (8011), and the both sides of insulation can (3) gomphosis respectively are connected with third spout (8012), the inside cup joint of third spout (8012) is inserted and is equipped with third slider (8013), and is fixed connection between one side of third slider (8013) and furnace body (1), one side fixedly connected with two stopper (8014) of furnace body (1), and be connected between the inside of stopper (8014) and spacing groove (8011).

7. The vanadium-nitrogen alloy furnace capable of saving heat energy according to claim 6, wherein: the thermometer (801) and the second sliding block (803) form a sliding structure through the second sliding groove (802), and the second hand-screwed bolt (805) and the second sliding block (803) form a detachable structure through the fixing plate (804).

8. The vanadium-nitrogen alloy furnace capable of saving heat energy according to claim 6, wherein: the T-shaped rod (8010) forms an elastic telescopic structure with the sleeve (808) through the return spring (809), and the sleeve (808) is symmetrical about the central axis of the partition plate (807).

9. The vanadium-nitrogen alloy furnace capable of saving heat energy according to claim 6, wherein: the furnace body (1) forms a sliding structure through the third sliding block (8013) and the third sliding groove (8012), and the furnace body (1) forms a detachable structure through the limiting block (8014) and the limiting groove (8011).

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