CN217499057U - Raw material heating equipment for glass production - Google Patents

Abstract

The utility model relates to a glass firing equipment technical field just discloses a raw materials firing equipment of glass production, including the heating jar, the heating jar is including perspective window, driving motor, bearing base, hydraulic pump. The utility model discloses a hydraulic pump drives the hydraulic stem and rises, and hydraulic stem top fixed connection heating tank bottom end, thereby can lift up through the one end of lifting up the drive heating tank of hydraulic stem, make the heating tank slope, be convenient for derive the raw materials through the discharge gate, link up with the exhaust tube through the exhaust hood mutually, the one end of exhaust tube is located the heating tank inboard, and be provided with the exhaust-gas treatment case at the back of exhaust hood and connect through the exhaust tube, be provided with the absorption liquid in the exhaust-gas treatment case, be provided with induced fan at the exhaust hood inboard, thereby can be with the heating tank the inside because the waste gas that steam produced leads into the exhaust-gas treatment case the inside through the induced fan and absorbed the absorption liquid, avoid heating tank the inside environment contaminated.

Description

Raw material heating equipment for glass production

Technical Field

The utility model relates to a glass heating equipment technical field specifically is a raw materials firing equipment of glass production.

Background

The glass product is widely used in the fields of buildings, daily use, medical treatment, chemistry, home furnishing, electronics, instruments, nuclear engineering and the like. Glass is a relatively transparent solid material that forms a continuous network structure when melted, and during cooling, gradually increases in viscosity and hardens without crystallizing.

Glass product need carry out high temperature melting to the raw materials in process of production, forms liquid glass liquid, and then just can realize the glass product of various shapes and functions through various moulds, and current production heating device can not collect the processing to the waste gas of heating drying process, leads to workshop environment contaminated, and environmental protection effect is poor.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a raw materials firing equipment of glass production possesses through the combination between exhaust hood and the exhaust tube, can reach and avoid heating jar the inside environment advantage such as by pollution, has solved above-mentioned technical problem.

(II) technical scheme

In order to achieve the above purpose, the utility model provides a following technical scheme: a raw material heating device for glass production comprises a heating tank, wherein the heating tank comprises a perspective window, a driving motor, a bearing base, a hydraulic pump, a hydraulic rod, a bearing, a rotating rod, a stirring blade, a condensing pipe, a steam inlet, a water outlet, an air exhaust cover, an air exhaust pipe and a discharge door;

the perspective window is installed in heating jar outside both ends, driving motor installs in heating jar side, bearing pedestal mounting is in heating jar bottom, the hydraulic pump is installed in the inboard bottom of bearing pedestal, the hydraulic stem is installed in the hydraulic pump top, the bearing is installed in heating jar inner wall both ends, the bull stick is installed between the bearing, stirring vane installs in the bull stick outer wall, the condenser pipe is installed in heating jar outside both ends, steam inlet installs in the condenser pipe side, the delivery port is seted up in the condenser pipe bottom, and the suction hood is installed on heating jar top, the suction hood is connected to the suction pipe, the discharge door is installed in the heating jar side.

Preferably, perspective window embedding heating tank's outside face both ends, driving motor runs through heating tank connection bearing and bull stick, and heating tank is located the bearing base top.

Through above-mentioned technical scheme, pour glass manufacturing raw materials into heat the dissolving in heating jar the inside, pour into later start-up driving motor, driving motor's output fixed connection bull stick to it is rotatory between the bearing to drive the bull stick, and stirring vane fixes in the outside of bull stick, stirs glass manufacturing raw materials from for driving stirring vane, makes the fully heated between the raw materials even.

Preferably, the stirring blades are fixedly arranged on the outer side of the rotating rod, the hydraulic rod penetrates through the bearing base and is fixedly connected with the heating tank, and the condensing pipes are fixedly arranged at two ends of the outer side of the heating tank.

Through the technical scheme, stirring vane possesses high temperature resistant effect, avoid being dissolved by the high temperature influence in heating jar the inside, need derive the raw materials from heating jar the inside after dissolving to the raw materials full heating of glass production, start one side hydraulic pump this moment, it rises to drive the hydraulic stem through the hydraulic pump, and hydraulic stem top fixed connection heating jar bottom, thereby can lift up through the hydraulic stem's the one end that lifts up the drive heating jar, make the heating jar be in the slope form, be convenient for derive the raw materials through the discharge gate, and can restore into original condition after lifting up.

Preferably, the condensation pipes are symmetrically arranged, the perspective windows are symmetrically arranged, and the steam inlet and the water outlet are symmetrically arranged.

Through above-mentioned technical scheme, after leading-in the condenser pipe with steam through steam inlet to can cool off the outer wall of heating jar, the water accessible delivery port after the cooling is derived.

Preferably, the exhaust hood penetrates through the condensation pipe and is fixedly installed at the top end of the outer side of the heating tank, the exhaust pipe penetrates through the heating tank and is connected with the exhaust hood, the discharge door is installed at the side end of the heating tank, and the discharge door is movably installed at the side end of the heating tank.

Through above-mentioned technical scheme, link up mutually with the exhaust tube through the exhaust hood, the one end of exhaust tube is located the heating jar inboard, and is provided with the exhaust-gas treatment case at the back of exhaust hood and connects through the exhaust tube, is provided with the absorption liquid in the exhaust-gas treatment case, is provided with the induced fan at the exhaust hood inboard to can use leading-in exhaust-gas treatment case the inside to be absorbed by the absorption liquid because the cooperation between induced fan and the exhaust tube of the waste gas that steam produced the heating jar the inside, avoid heating jar the inside environment by the pollution.

Preferably, the discharge door includes filter screen, thread groove, seal groove and discharge gate, filter screen embedding discharge gate is inboard, the thread groove is seted up in the discharge gate inboard, the seal groove is located discharge gate border department, the discharge gate is seted up in the heating tank side, and discharge door movable mounting in the heating tank side, and the discharge door corresponds the seal groove installation.

Through above-mentioned technical scheme, correspond the thread groove through the one end with the filter screen and carry out the rotation and fix to can fix the filter screen at the discharge gate inboard, pour the raw materials from heating jar the inside after fixed, and the filter screen can filter the particulate matter of doping in the raw materials the inside, and all adsorb on the filter screen.

Compared with the prior art, the utility model provides a raw materials firing equipment of glass production possesses following beneficial effect:

1. the utility model discloses an agitating vane possesses high temperature resistant effect, avoid being dissolved by the high temperature influence in heating jar the inside, need derive the raw materials from heating jar the inside after dissolving to the raw materials full heating of glass production, start one side hydraulic pump this moment, it rises to drive the hydraulic stem through the hydraulic pump, and hydraulic stem top fixed connection heating tank bottom end, thereby can lift up through the hydraulic stem's the one end that lifts up the drive heating jar, make the heating jar be in the slope form, be convenient for derive the raw materials through the discharge gate, and can restore into original condition after lifting up.

2. The utility model discloses an exhaust hood link up with the exhaust tube mutually, and the one end of exhaust tube is located the heating jar inboard, and is provided with the exhaust-gas treatment case at the back of exhaust hood and connects through the exhaust tube, is provided with the absorption liquid in the exhaust-gas treatment case, is provided with the induced fan in exhaust hood inboard to can use leading-in exhaust-gas treatment case the inside to be absorbed by the absorption liquid because the cooperation between induced fan and the exhaust tube is used to the waste gas that steam produced the heating jar the inside, avoid heating jar the inside environment to be polluted.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of a heating tank of the present invention;

FIG. 2 is a schematic view of the three-dimensional structure of the heating tank of the present invention;

fig. 3 is the utility model discloses a discharge door split structure schematic diagram.

Wherein: 1. a heating tank; 2. a perspective window; 3. a drive motor; 4. a load-bearing base; 5. a hydraulic pump; 6. a hydraulic lever; 7. a bearing; 8. a rotating rod; 9. a stirring blade; 10. a condenser tube; 11. a steam inlet; 12. a water outlet; 13. an air exhaust cover; 14. an air exhaust pipe; 15. a discharge door; 151. a filter screen; 152. a thread groove; 153. a sealing groove; 154. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-2, a raw material heating apparatus for glass production comprises a heating tank 1, wherein the heating tank 1 comprises a perspective window 2, a driving motor 3, a bearing base 4, a hydraulic pump 5, a hydraulic rod 6, a bearing 7, a rotating rod 8, a stirring blade 9, a condenser pipe 10, a steam inlet 11, a water outlet 12, an air extraction cover 13, an air extraction pipe 14 and a discharge door 15;

perspective window 2 is installed in 1 outside both ends of heating jar, driving motor 3 is installed in 1 side of heating jar, bearing base 4 is installed in 1 bottom of heating jar, hydraulic pump 5 is installed in 4 inboard bottoms of bearing base, hydraulic stem 6 is installed in 5 tops of hydraulic pump, bearing 7 is installed in 1 inner wall both ends of heating jar, bull stick 8 is installed between bearing 7, stirring vane 9 is installed in 8 outer walls of bull stick, condenser pipe 10 is installed in 1 outside both ends of heating jar, steam inlet 11 is installed in condenser pipe 10 side, delivery port 12 is seted up in condenser pipe 10 bottom, suction hood 13 is installed in 1 top of heating jar, suction pipe 14 connects suction hood 13, discharge door 15 is installed in 1 side of heating jar.

Specifically, perspective window 2 imbeds the outside face both ends of heating jar 1, and driving motor 3 runs through heating jar 1 and connects bearing 7 and bull stick 8, and heating jar 1 is located 4 tops of bearing base. The advantage is, pours glass manufacturing raw materials into and heats and dissolve in heating jar 1 the inside, pours into later start-up driving motor 3, driving motor 3's output fixed connection bull stick 8 to it is rotatory between bearing 7 to drive bull stick 8, and stirring vane 9 fixes in the outside of bull stick 8, stirs glass manufacturing raw materials from for driving stirring vane 9, makes fully being heated evenly between the raw materials.

Specifically, stirring vane 9 fixed mounting bull stick 8 outside, hydraulic stem 6 runs through bearing base 4 fixed connection heating tank 1, condenser pipe 10 fixed mounting in heating tank 1 outside both ends. The advantage is, stirring vane 9 possesses high temperature resistant effect, avoid being dissolved by the high temperature influence in heating jar 1 the inside, need derive the raw materials from heating jar 1 the inside after dissolving to the raw materials full heating of glass production, start one side hydraulic pump 5 this moment, it rises to drive hydraulic stem 6 through hydraulic pump 5, and the 1 bottom of hydraulic stem 6 top fixed connection heating jar, thereby can lift up through the one end that lifts up drive heating jar 1 of hydraulic stem 6, make heating jar 1 be in the slope form, be convenient for export the raw materials through discharge gate 154, and can restore into original state after lifting up.

Specifically, the condensation pipes 10 are symmetrically arranged, the perspective windows 2 are symmetrically arranged, and the steam inlet 11 and the water outlet 12 are symmetrically arranged. The advantage is that after the steam is introduced into the condensation pipe 10 through the steam inlet 11, the outer wall of the heating tank 1 can be cooled, and the cooled water can be discharged through the water outlet 12.

Specifically, the air exhaust cover 13 penetrates through the condensation pipe 10 and is fixedly installed at the top end of the outer side of the heating tank 1, the air exhaust pipe 14 penetrates through the heating tank 1 and is connected with the air exhaust cover 13, the discharge door 15 is installed at the side end of the heating tank 1, and the discharge door 15 is movably installed at the side end of the heating tank 1. The advantage is, link up mutually with exhaust tube 14 through exhaust hood 13, the one end of exhaust tube 14 is located heating tank 1 inboard, and be provided with the exhaust-gas treatment case at the back of exhaust hood 13 and connect through exhaust tube 14, the exhaust-gas treatment incasement is provided with the absorption liquid, be provided with the induced fan at exhaust hood 13 inboard, thereby can be with heating tank 1 the inside because the waste gas that steam produced uses leading-in waste-gas treatment case the inside to be absorbed by the absorption liquid through the cooperation between induced fan and the exhaust tube 14, avoid heating tank 1 the inside environment to be polluted.

Example two:

referring to fig. 2, as an improvement of the previous embodiment, the discharge door 15 includes a filter screen 151, a thread groove 152, a sealing groove 153 and a discharge port 154, the filter screen 151 is embedded inside the discharge port 154, the thread groove 152 is disposed inside the discharge port 154, the sealing groove 153 is located at an edge of the discharge port 154, the discharge port 154 is disposed at a side end of the heating tank 1, the discharge door 15 is movably mounted at a side end of the heating tank 1, and the discharge door 15 is mounted corresponding to the sealing groove 153. The advantage is, it is fixed to correspond thread groove 152 through the one end with filter screen 151 to can fix filter screen 151 at the discharge gate 154 inboard, pour out the raw materials from heating jar 1 the inside after fixed, and filter screen 151 can filter the particulate matter of doping in the raw materials the inside, and all adsorb on filter screen 151.

When in use, the utility model has the high temperature resistant effect, the dissolution caused by the high temperature in the heating tank 1 is avoided, after the raw material for glass production is fully heated and dissolved, the raw material is required to be led out from the heating tank 1, at the moment, one side hydraulic pump 5 is started, the hydraulic rod 6 is driven to ascend through the hydraulic pump 5, the top end of the hydraulic rod 6 is fixedly connected with the bottom end of the heating tank 1, thereby one end of the heating tank 1 can be lifted up through lifting up the hydraulic rod 6, the heating tank 1 is in an inclined state, the raw material is convenient to be led out through the discharge port 154, and can be restored to an original state after being lifted up, the raw material is communicated with the exhaust pipe 14 through the exhaust hood 13, one end of the exhaust pipe 14 is positioned inside the heating tank 1, and the exhaust gas treatment box is arranged on the back of the exhaust hood 13 and is connected through the exhaust pipe 14, the absorption liquid is arranged in the exhaust gas treatment box, the exhaust fan is arranged inside the exhaust hood 13, therefore, the waste gas generated by the hot gas in the heating tank 1 can be guided into the waste gas treatment box through the matching use between the induced fan and the exhaust pipe 14 to be absorbed by the absorption liquid, and the environment in the heating tank 1 is prevented from being polluted.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a raw materials firing equipment of glass production, includes the heating jar, its characterized in that: the heating tank comprises a perspective window, a driving motor, a bearing base, a hydraulic pump, a hydraulic rod, a bearing, a rotating rod, a stirring blade, a condensing pipe, a steam inlet, a water outlet, an air exhaust cover, an air exhaust pipe and a discharge door;

the perspective window is installed in heating jar outside both ends, driving motor installs in heating jar side, bearing pedestal mounting is in heating jar bottom, the hydraulic pump is installed in the inboard bottom of bearing pedestal, the hydraulic stem is installed in the hydraulic pump top, the bearing is installed in heating jar inner wall both ends, the bull stick is installed between the bearing, stirring vane installs in the bull stick outer wall, the condenser pipe is installed in heating jar outside both ends, steam inlet installs in the condenser pipe side, the delivery port is seted up in the condenser pipe bottom, and the suction hood is installed on heating jar top, the suction hood is connected to the suction pipe, the discharge door is installed in the heating jar side.

2. A raw material heating apparatus for glass production according to claim 1, characterized in that: perspective window embedding heating jar's outside face both ends, driving motor runs through heating jar connection bearing and bull stick, and the heating jar is located bearing base top.

3. A raw material heating apparatus for glass production according to claim 1, characterized in that: stirring vane fixed mounting bull stick outside, the hydraulic stem runs through bearing base fixed connection heating jar, condenser pipe fixed mounting is in heating jar outside both ends.

4. A raw material heating apparatus for glass production according to claim 1, characterized in that: the condenser pipes are symmetrically arranged, the perspective windows are symmetrically arranged, and the steam inlet and the water outlet are symmetrically arranged.

5. A raw material heating apparatus for glass production according to claim 1, characterized in that: the exhaust hood runs through the condenser pipe and is fixedly installed on the top end of the outer side of the heating tank, the exhaust pipe runs through the heating tank and is connected with the exhaust hood, the discharge door is installed on the side end of the heating tank, and the discharge door is movably installed on the side end of the heating tank.

6. A raw material heating apparatus for glass production according to claim 1, characterized in that: the discharge door includes filter screen, thread groove, seal groove and discharge gate, filter screen embedding discharge gate is inboard, the thread groove is seted up in the discharge gate inboard, the seal groove is located discharge gate border department, the discharge gate is seted up in the heating tank side, and discharge door movable mounting in the heating tank side, and the discharge door corresponds the seal groove installation.

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