CN218329280U - Smelting furnace for producing oxidation-resistant alloy tin solder - Google Patents

Abstract

The utility model discloses a belong to smelting pot technical field, specifically be production anti oxidation alloy tin solder smelting pot, the induction cooker comprises a cooker bod, the winding has the heating pipe on the furnace body, install mixing mechanism and tilting mechanism on the furnace body, the transmission of mixing mechanism is connected tilting mechanism, tilting mechanism is used for overturning furnace body inner chamber bottom material from top to bottom, the beneficial effects of the utility model are that: the turnover mechanism is arranged, so that materials at the bottom of the furnace body can be turned over up and down, and the phenomenon that the materials with high density sink in the furnace body is avoided, so that the materials can be mixed more uniformly, and the quality of the solder prepared at the later stage is improved; the furnace body is wrapped and protected by arranging the protective heat-insulating shell, so that the heating pipe and the furnace body are prevented from being exposed, and the furnace is safer to use and cannot scald people; meanwhile, the protective heat-insulating shell can play a role in insulating the furnace body, so that energy is saved.

Description

Smelting furnace for producing oxidation-resistant alloy tin solder

Technical Field

The utility model relates to a smelting pot technical field specifically is production anti-oxidation alloy tin solder smelting pot.

Background

In the existing smelting furnace for producing the antioxidant alloy tin solder, when various materials for preparing the solder are melted, the materials are stirred by a stirring mechanism arranged in the smelting furnace, however, the materials with high density sink to the bottom in the stirring process, so that the materials are not mixed uniformly; and because the molten material is adhered to the inner wall of the smelting furnace, the material adhered to the inner wall is solidified after the temperature is reduced, so that the cleaning is difficult, and great inconvenience is brought to the use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses in view of the problem that exists in the current production anti-oxidation alloy tin solder smelting pot, provided.

Therefore, the utility model aims at providing a smelting furnace for producing oxidation resistant alloy tin solder, which solves the problem that when various materials for preparing solder are melted, the materials are stirred by a stirring mechanism arranged in the smelting furnace, but in the stirring process, the materials with high density sink to the bottom, so that the materials are mixed unevenly; and because the molten material is adhered to the inner wall of the smelting furnace, the material adhered to the inner wall is solidified after the temperature is reduced, so that the material is difficult to clean, and great inconvenience is brought to the use.

In order to solve the technical problem, according to the utility model discloses an aspect, the utility model provides a following technical scheme:

the smelting furnace for producing the oxidation-resistant alloy tin solder comprises a furnace body, wherein a heating pipe is wound on the furnace body, a mixing mechanism and a turnover mechanism are installed on the furnace body, the mixing mechanism is in transmission connection with the turnover mechanism, and the turnover mechanism is used for turning materials at the bottom of an inner cavity of the furnace body up and down.

As an optimized scheme of the production oxidation resistant alloy tin solder smelting pot of the utility model, wherein: the top of the furnace body is covered with a furnace cover, the furnace cover is provided with an injection port, and the bottom of the furnace body is provided with a discharge port.

As an optimized scheme of production antioxidation alloy tin solder smelting pot, wherein: the mixing mechanism comprises a servo motor, an output shaft of the servo motor is fixedly connected with a stirring shaft, and a stirrer is arranged on the stirring shaft.

As an optimized scheme of production antioxidation alloy tin solder smelting pot, wherein: the agitator includes the puddler, demountable installation has the stirring rod on the puddler, servo motor fixed mounting is on the furnace lid.

As an optimized scheme of the production oxidation resistant alloy tin solder smelting pot of the utility model, wherein: the stirring shaft is detachably provided with a U-shaped scraping rod and an arc-shaped scraping rod, and the U-shaped scraping rod and the arc-shaped scraping rod are both connected with the inner wall of the furnace body in a sliding manner.

As an optimized scheme of the production oxidation resistant alloy tin solder smelting pot of the utility model, wherein: the turnover mechanism comprises a driving bevel gear, the driving bevel gear is meshed with a driven bevel gear, one end of the driven bevel gear is connected with a turnover plate in a welding mode, one end of the turnover plate is fixedly connected with a rotating shaft, and one end of the rotating shaft is connected with the furnace body in a rotating mode through a bearing.

As an optimized scheme of production antioxidation alloy tin solder smelting pot, wherein: the outside parcel of furnace body has the protection heat preservation shell, the heating pipe is located between furnace body and the protection heat preservation shell.

As an optimized scheme of the production oxidation resistant alloy tin solder smelting pot of the utility model, wherein: the arc is scraped pole middle part bottom fixed welding and is had the hob, and the hob is located the discharge gate.

Compared with the prior art:

1. the turnover mechanism is arranged, so that materials at the bottom of the furnace body can be turned over up and down, and the phenomenon that the materials with high density sink in the furnace body is avoided, so that the materials can be mixed more uniformly, and the quality of the solder prepared at the later stage is improved;

2. the furnace body is wrapped and protected by arranging the protective heat-insulating shell, so that the heating pipe and the furnace body are prevented from being exposed, and the furnace is safer to use and cannot scald people; meanwhile, the protective heat-insulating shell can play a role in insulating the furnace body, so that energy is saved.

Drawings

Fig. 1 is a schematic structural diagram provided by the present invention;

fig. 2 is a schematic view of a stirrer provided by the present invention;

fig. 3 is a perspective view of the sleeve according to the present invention;

fig. 4 is an appearance schematic diagram of fig. 1 provided by the present invention.

In the figure: the device comprises a support column 1, a support rod 2, a protective heat-preservation shell 3, a furnace body 4, a furnace cover 41, a discharge hole 42, a feeding hole 43, a heating pipe 5, a turnover mechanism 6, a rotating shaft 61, a turnover plate 62, a driven conical gear 63, a driving conical gear 64, a U-shaped scraping rod 7, a sleeve 71, an arc-shaped scraping rod 8, a mixing mechanism 9, a servo motor 91, a stirring shaft 92, a stirring rod 93 and a stirring rod 94.

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

the utility model provides a production anti-oxidant alloy tin solder smelting pot, please refer to fig. 1-4, including furnace body 4, furnace body 4 top is covered with bell 41, be equipped with sprue 43 on the bell 41, furnace body 4 bottom is equipped with discharge gate 42, install the valve on the discharge gate 42, furnace body 4 outside parcel has the protection heat preservation shell 3, heating pipe 5 is located between furnace body 4 and the protection heat preservation shell 3, protection heat preservation shell 3 is made by insulation material, the winding has heating pipe 5 on furnace body 4, furnace body 4 is installed mixing mechanism 9 and tilting mechanism 6, mixing mechanism 9 transmission connection tilting mechanism 6, tilting mechanism 6 is used for turning over furnace body 4 inner chamber bottom material from top to bottom; the outer wall of the furnace body 4 is fixedly provided with a support rod 2, and one end of the support rod 2 is fixedly connected with a support column 1.

Mixing mechanism 9 includes servo motor 91, servo motor 91's output shaft fixed connection (mixing) shaft 92, the last agitator of installing of (mixing) shaft 92, the agitator includes puddler 93, puddler 93 cover is established on (mixing) shaft 92 to pass through bolted connection between puddler 93 and the (mixing) shaft 92, demountable installation has stirring rod 94 on the puddler 93, servo motor 91 fixed mounting is on bell 41, servo motor 91's output shaft passes through the bearing and rotates and connect bell 41.

The U-shaped scraping rod 7 and the arc-shaped scraping rod 8 are detachably arranged on the stirring shaft 92, and the U-shaped scraping rod 7 and the arc-shaped scraping rod 8 are both connected with the inner wall of the furnace body 4 in a sliding manner; a sleeve 71 is arranged in the middle of the top end of the U-shaped scraping rod 7, the sleeve 71 is sleeved on the stirring shaft 92, and the stirring shaft 92 and the U-shaped scraping rod 7 are fixed through bolts; the U-shaped scraping rod 7 can scrape materials on the side wall of the furnace body 4, the bottom of the furnace body 4 is arc-shaped, and the arc-shaped scraping rod 8 can scrape the materials adhered to the inner wall of the bottom of the furnace body 4.

The turnover mechanism 6 comprises a driving bevel gear 64, the driving bevel gear 64 is meshed with a driven bevel gear 63, one end of the driven bevel gear 63 is connected with a turnover plate 62 in a welding mode, one end of the turnover plate 62 is fixedly connected with a rotating shaft 61, and one end of the rotating shaft 61 is connected with the furnace body 4 in a rotating mode through a bearing.

When the furnace is used specifically, materials are injected into the furnace body 4 through the injection port 43, and the power supply of the heating pipe 5 is switched on to heat the materials in the furnace body 4 until the materials are molten; the servo motor 91 is started to drive the stirring shaft 92 to rotate, so that the stirrer is driven to rotate to mix materials, the arc-shaped scraping rod 8 and the U-shaped scraping rod 7 are driven to rotate at the same time, the materials attached to the inner wall of the furnace body 4 are scraped, and the later-stage cleaning of the furnace 4 is easier; meanwhile, the driving conical gear 64 is driven to rotate, the driving conical gear 64 drives the driven conical gear 63 to rotate, and the driven conical gear 63 drives the turnover plate 62 to rotate, so that the mixed material at the bottom of the inner cavity of the furnace body 4 is turned over up and down, and the material with high density is prevented from sinking to the bottom; after the mixing is completed, the valve at the discharge port 42 is opened to perform the discharge.

Example 2:

the difference from example 1 is: the arc scrapes the fixed welding of pole 8 middle part bottom has the hob, and the arc scrapes between pole 8 and the (mixing) shaft 92 through bolted connection, and the hob is located discharge gate 42.

When the stirring device is used specifically, the stirring shaft 92 drives the screw rod at the bottom to rotate so as to accelerate the discharging of materials when discharging.

While the invention has been described above with reference to an embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, as long as there is no structural conflict, the various features of the disclosed embodiments of the present invention can be used in any combination with each other, and the description of these combinations not exhaustive in this specification is merely for the sake of brevity and resource conservation. Therefore, it is intended that the invention not be limited to the particular embodiments disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (8)

1. Production anti-oxidant alloy tin solder smelting pot, including furnace body (4), the winding has heating pipe (5), its characterized in that on furnace body (4): the furnace body (4) is provided with a mixing mechanism (9) and a turnover mechanism (6), the mixing mechanism (9) is in transmission connection with the turnover mechanism (6), and the turnover mechanism (6) is used for turning over materials at the bottom of the inner cavity of the furnace body (4) from top to bottom.

2. The furnace for producing oxidation-resistant alloy tin solder according to claim 1, wherein a furnace cover (41) is covered on the top end of the furnace body (4), a feeding port (43) is arranged on the furnace cover (41), and a discharging port (42) is arranged on the bottom of the furnace body (4).

3. The furnace according to claim 1, characterized in that the mixing mechanism (9) comprises a servo motor (91), an output shaft of the servo motor (91) is fixedly connected with a stirring shaft (92), and a stirrer is mounted on the stirring shaft (92).

4. The furnace according to claim 3, wherein the stirrer comprises a stirring rod (93), a stirring rod (94) is detachably mounted on the stirring rod (93), and the servo motor (91) is fixedly mounted on the furnace cover (41).

5. The furnace for producing the oxidation-resistant alloy tin solder according to claim 3 or 4, wherein the stirring shaft (92) is detachably provided with a U-shaped scraping rod (7) and an arc-shaped scraping rod (8), and the U-shaped scraping rod (7) and the arc-shaped scraping rod (8) are both in sliding connection with the inner wall of the furnace body (4).

6. The furnace for producing the oxidation-resistant alloy tin solder according to claim 1, wherein the turnover mechanism (6) comprises a driving bevel gear (64), the driving bevel gear (64) is engaged and connected with a driven bevel gear (63), one end of the driven bevel gear (63) is welded and connected with a turnover plate (62), one end of the turnover plate (62) is fixedly connected with a rotating shaft (61), and one end of the rotating shaft (61) is rotatably connected with the furnace body (4) through a bearing.

7. The melting furnace for producing the oxidation-resistant alloy tin solder according to claim 1, wherein the furnace body (4) is wrapped by a protective heat-preservation shell (3), and the heating pipe (5) is positioned between the furnace body (4) and the protective heat-preservation shell (3).

8. The furnace for producing oxidation-resistant alloy tin solder according to claim 5, characterized in that a screw rod is fixedly welded at the bottom end of the middle part of the arc-shaped scraping rod (8), and the screw rod is positioned in the discharge hole (42).

Images