CN221662779U - Optical glass melt processing equipment - Google Patents

Abstract

The utility model discloses optical glass melt processing equipment, and relates to the field of glass processing. The optical glass melt processing equipment comprises a glass melt tank, a bearing barrel and a supporting frame, wherein a discharging pipe is arranged at the bottom of the glass melt tank, the bottom of the discharging pipe is inserted into the bearing barrel, a supporting base is slidably clamped at the top of the supporting frame, and the bearing barrel is arranged above the supporting base. This optical glass melt processing equipment removes to discharging pipe below through holding the barreling and following the support base after, through starting the cylinder, makes the brace table drive and holds barreling upward movement, makes and holds barreling top and inserts in the protection casing, wraps up the protection casing through the protection casing and seals holding barreling top, outwards splashes when avoiding the optical glass material after the melting to get into in holding the barreling, is convenient for improve its operational safety, facilitates the use.

Description

Optical glass melting processing equipment

Technical Field

The utility model relates to the technical field of glass processing, in particular to optical glass melting processing equipment.

Background Art

With the continuous development of technology, optical instruments are widely used in all walks of life. When preparing optical glass, it needs to go through processes such as melting, clarification, and homogenization to obtain molten glass liquid. Then the molten glass is taken out and poured into a mold to cool it and process it into shape.

In the prior art, the molten optical glass material falls into a container through a pipe so that it can be processed in the next step. However, the existing optical glass melting processing equipment has certain limitations during use. When the molten optical glass material falls into the container, a certain force is generated, causing the molten optical glass material to splash. Moreover, the temperature of the splashed molten optical glass material is relatively high, which is very dangerous. Therefore, an optical glass melting processing equipment is proposed to solve the above problems.

Utility Model Content

In view of the shortcomings of the prior art, the utility model provides an optical glass melting processing equipment, which solves the problem raised in the above background technology that when the molten optical glass material in the prior art falls into a container, a certain force is generated, causing the molten optical glass material to splash, and the splashed molten optical glass material has a high temperature, which is very dangerous.

To achieve the above objectives, the utility model is implemented through the following technical solutions: an optical glass melting processing equipment, comprising:

A glass melting box, a containing barrel and a support frame, wherein a discharge pipe is provided at the bottom of the glass melting box, and the bottom of the discharge pipe is plugged into the containing barrel, a support base is slidably connected to the top of the support frame, and the containing barrel is arranged above the support base, and an anti-splashing mechanism is provided on the glass melting box to prevent the product from splashing outward when entering the containing barrel, and the anti-splashing mechanism includes:

A protective cover is arranged at the bottom of the glass melting box, and the bottom of the protective cover is sleeved on the top of the containing barrel;

The lifting mechanism is arranged on the supporting base and is used for adjusting the position height of the containing barrel.

Preferably, the lifting mechanism comprises:

A cylinder is fixedly arranged at the bottom of the support base, and a support rod is arranged at the output end of the top of the cylinder, and the top of the support rod passes through the support base and slides upward to extend;

The support platform is fixedly arranged on the top of the support rod.

Preferably, a storage groove is provided on the top of the support platform, and the bottom of the receiving barrel is inserted into the storage groove.

Preferably, a fixing block is fixedly provided at the bottom of the glass melting box, a connecting block is fixedly provided at the top of the protective cover, and the connecting block is sleeved on the outer wall of the fixing block.

Preferably, a bayonet is provided on the outer wall of the connecting block, a connecting groove is provided on the outer wall of the fixing block, a clamping block is slidably clamped in the inner cavity of the connecting groove, and the outer end of the clamping block is clamped in the bayonet.

Preferably, a spring bar is fixedly provided on the inner wall of the connecting groove, and the other end of the spring bar is fixedly provided on the clamping block and presses and pushes the clamping block outwards.

The utility model discloses an optical glass melting processing device, which has the following beneficial effects: the optical glass melting processing device, by setting a connection relationship between a glass melting box, a containing barrel, a support frame, a cylinder, a support platform and a protective cover, enables the containing barrel to move upward with the support base through the cylinder, so that the top of the containing barrel is inserted into the protective cover, and the top of the containing barrel is wrapped and sealed by the protective cover, so that the molten optical glass material is prevented from splashing outward when entering the containing barrel, thereby improving its operation safety and facilitating use.

BRIEF DESCRIPTION OF THE DRAWINGS

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings required for use in the embodiments or the description of the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of the utility model. For ordinary technicians in this field, other drawings can be obtained based on these drawings without paying creative work.

Figure 1 is a schematic diagram of the overall structure of the utility model;

Figure 2 is a schematic diagram of the support platform structure of the utility model;

Figure 3 is a schematic diagram of the structure of the discharge pipe of the utility model;

Figure 4 is a schematic diagram of the structure of the protective cover of the utility model;

FIG5 is a cross-sectional view of the fixed block structure of the utility model.

In the figure: 1. glass melting box; 101. discharge pipe; 2. receiving barrel; 3. support frame; 301. support base; 302. cylinder; 303. support rod; 304. support table; 305. storage tank; 4. protective cover; 401. connecting block; 402. bayonet; 403. fixing block; 404. connecting slot; 405. spring bar; 406. clamping block.

DETAILED DESCRIPTION

In order to make the purpose, technical solution and advantages of the embodiments of the utility model clearer, the technical solution in the embodiments of the utility model is described clearly and completely. Obviously, the described embodiments are part of the embodiments of the utility model, not all of the embodiments. Based on the embodiments of the utility model, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the utility model.

The embodiment of the present application provides an optical glass melting processing equipment to solve the problem in the prior art that when the molten optical glass material falls into the container, a certain force is generated, causing the molten optical glass material to splash, and the splashed molten optical glass material has a high temperature and is very dangerous. After the containing barrel 2 moves to the bottom of the discharge pipe 101 along with the support base 301, the cylinder 302 is started to make the support platform 304 drive the containing barrel 2 to move upward, so that the top of the containing barrel 2 is inserted into the protective cover 4, and the top of the containing barrel 2 is wrapped and sealed by the protective cover 4, so as to prevent the molten optical glass material from splashing outward when entering the containing barrel 2, thereby improving its operation safety and facilitating use.

In order to better understand the above technical solution, the above technical solution will be described in detail below in conjunction with the accompanying drawings and specific implementation methods.

The utility model discloses an optical glass melting processing device, as shown in Figures 1-5, comprising:

A glass melting box 1, a holding barrel 2 and a support frame 3, wherein a discharge pipe 101 is arranged at the bottom of the glass melting box 1, and the bottom of the discharge pipe 101 is inserted into the holding barrel 2, and a support base 301 is slidably connected to the top of the support frame 3, and the holding barrel 2 is arranged above the support base 301. By moving the support base 301, the holding barrel 2 is driven to move below the discharge pipe 101, and the glass melting box 1 discharges the molten optical glass material into the holding barrel 2 through the discharge pipe 101, so as to facilitate further processing thereof. The glass melting box 1 is provided with an anti-splashing mechanism for preventing the product from splashing outward when entering the holding barrel 2, and the anti-splashing mechanism comprises:

A protective cover 4 is arranged at the bottom of the glass melting box 1, and the bottom of the protective cover 4 is sleeved on the top of the containing barrel 2;

A lifting mechanism is provided on the support base 301, and is used to adjust the position height of the containing barrel 2. After the containing barrel 2 moves to the bottom of the discharge pipe 101 along with the support base 301, the lifting mechanism drives the containing barrel 2 to move upward, so that the top of the containing barrel 2 is inserted into the protective cover 4, and the top of the containing barrel 2 is wrapped and sealed by the protective cover 4 to prevent the molten optical glass material from splashing outward when entering the containing barrel 2, thereby improving its operational safety. An insulation layer is provided on the outer wall of the containing barrel 2 to keep the molten optical glass material warm and facilitate subsequent processing.

The lifting mechanism includes:

The cylinder 302 is fixedly arranged at the bottom of the support base 301, and a support rod 303 is arranged at the top output end of the cylinder 302. The top of the support rod 303 passes through the support base 301 and slides upward to extend;

The support platform 304 is fixedly arranged on the top of the support rod 303. By starting the cylinder 302, the cylinder 302 drives the support rod 303 to move upward, and the support platform 304 is driven to move upward by the support rod 303 moving upward, so that the upward moving support platform 304 drives the containing barrel 2 to move upward, so that the top of the containing barrel 2 is inserted into the protective cover 4, and the inner wall of the protective cover 4 is conical. The containing barrel 2 can insert its top into the protective cover 4 according to its own diameter and the lifting height adjusted by the lifting mechanism, so as to improve its usability.

A storage groove 305 is provided on the top of the support platform 304 , and the bottom of the containing barrel 2 is inserted into the storage groove 305 , so as to further improve the stability of the use position of the containing barrel 2 .

A fixing block 403 is fixedly provided at the bottom of the glass melting box 1 , a connecting block 401 is fixedly provided at the top of the protective cover 4 , and the connecting block 401 is sleeved on the outer wall of the fixing block 403 .

A bayonet 402 is provided on the outer wall of the connecting block 401, and a connecting groove 404 is provided on the outer wall of the fixing block 403. A block 406 is slidably engaged with the inner cavity of the connecting groove 404, and the outer end of the block 406 is engaged with the bayonet 402. The user squeezes the block 406 inwardly through the bayonet 402 to retract the block 406 into the connecting groove 404. At this time, the block 406 is disengaged from the bayonet 402. The user pulls the protective cover 4 downward to disengage the protective cover 4 from the discharge pipe 101, so that the protective cover 4 can be removed from the glass melting box 1 conveniently, and a damaged protective cover 4 can be replaced conveniently to prevent the damaged protective cover 4 from affecting its shielding and protection effect.

A spring bar 405 is fixedly provided on the inner wall of the connecting groove 404, and the other end of the spring bar 405 is fixedly provided on the clamping block 406 and squeezes and pushes the clamping block 406 outward. The pushing force of the spring bar 405 automatically pushes the clamping block 406 outward, so that the clamping block 406 moves outward and automatically snaps into the clamping port 402, thereby facilitating the installation and limitation of the protective cover 4.

The above shows and describes the basic principle and main features of the utility model and the advantages of the utility model. Those skilled in the art should understand that the utility model is not limited by the above embodiments. The above embodiments and descriptions are only for explaining the principle of the utility model. Without departing from the spirit and scope of the utility model, the utility model may have various changes and improvements, which fall within the scope of the utility model to be protected. The scope of protection of the utility model is defined by the attached claims and their equivalents.

Claims (6)

1. An optical glass melting processing device, comprising a glass melting box (1), a receiving barrel (2) and a support frame (3), wherein a discharge pipe (101) is arranged at the bottom of the glass melting box (1), and the bottom of the discharge pipe (101) is plugged into the receiving barrel (2), a support base (301) is slidably engaged at the top of the support frame (3), and the receiving barrel (2) is arranged above the support base (301), characterized in that an anti-splashing mechanism is arranged on the glass melting box (1) to prevent the product from splashing outward when entering the receiving barrel (2), and the anti-splashing mechanism comprises: A protective cover (4) is arranged at the bottom of the glass melting box (1), and the bottom of the protective cover (4) is sleeved on the top of the containing barrel (2); A lifting mechanism is arranged on the supporting base (301), and is used to adjust the position height of the containing bucket (2). 2. The optical glass melting processing equipment according to claim 1, characterized in that the lifting mechanism comprises: A cylinder (302) is fixedly arranged at the bottom of the support base (301), and a support rod (303) is arranged at the top output end of the cylinder (302). The top of the support rod (303) passes through the support base (301) and slides upward to extend; The support platform (304) is fixedly arranged on the top of the support rod (303). 3. An optical glass melting processing equipment according to claim 2, characterized in that a storage groove (305) is opened on the top of the support platform (304), and the bottom of the receiving barrel (2) is inserted into the storage groove (305). 4. An optical glass melting processing equipment according to claim 3, characterized in that a fixed block (403) is fixedly provided at the bottom of the glass melting box (1), and a connecting block (401) is fixedly provided at the top of the protective cover (4), and the connecting block (401) is sleeved on the outer wall of the fixed block (403). 5. An optical glass melting processing equipment according to claim 4, characterized in that the outer wall of the connecting block (401) is provided with a bayonet (402), the outer wall of the fixing block (403) is provided with a connecting groove (404), the inner cavity of the connecting groove (404) is slidably engaged with a clamping block (406), and the outer end of the clamping block (406) is engaged in the bayonet (402). 6. An optical glass melting processing equipment according to claim 5, characterized in that a spring bar (405) is fixedly arranged on the inner wall of the connecting groove (404), and the other end of the spring bar (405) is fixedly arranged on the clamping block (406) and squeezes and pushes the clamping block (406) outwards.