CN-224215680-U - Glassware shaping cooling arrangement

Abstract

The utility model relates to the technical field of glassware cooling and forming, in particular to glassware forming and cooling equipment which comprises a cooling cover, a mesh belt conveyor, a trapezoid top and a dust cover C, wherein the cooling cover comprises a constant temperature area and a gradual cooling area, a constant temperature fan is arranged at the top of the cooling cover corresponding to the constant temperature area through bolts, an air cooler A is arranged at the top of the cooling cover corresponding to the gradual cooling area through bolts, exhaust fans are uniformly arranged on the surfaces of two sides of the cooling cover from left to right through openings and the bolts, preliminary constant temperature blowing is carried out on glassware through the constant temperature fan on the flat top of the constant temperature area, the temperature difference between the cooling cover and the glassware is avoided being larger, and the cooling fan A on the trapezoid top of the gradual cooling area is gradually closer to the glassware through the air cooler A on the gradual cooling area, so that the cooling effect is gradually improved.

Inventors

• LI DAKAI

Assignees

• 江苏成泰晶瓷科技有限公司

Dates

Publication Date

20260508

Application Date

20250312

Claims (5)

1. 1. The glassware forming and cooling device is characterized by comprising a cooling cover (1), a mesh belt conveyor (2), a trapezoid top (6) and a dust cover C (13), wherein the cooling cover (1) comprises a constant temperature area (3) and a progressive cooling area (4), and a constant temperature fan (7) is arranged at the top of the cooling cover (1) corresponding to the position of the constant temperature area (3) through bolts; the cooling cover (1) is characterized in that an air cooler A (8) is arranged at the top of the cooling cover (1) corresponding to the position of the cooling area (4) through bolts, and exhaust fans (14) are arranged on the surfaces of two sides of the cooling cover (1) from left to right through openings and the bolts.
2. 2. A glassware forming cooling apparatus according to claim 1, wherein the web conveyor (2) extends between cooling jackets (1).
3. 3. A glassware forming and cooling apparatus according to claim 1, wherein the cold-by-cold zone (4) is located on one side of the constant temperature zone (3), the top of the constant temperature zone (3) is a flat top (5), and the top of the cold-by-cold zone (4) is a trapezoidal top (6).
4. 4. The glassware forming and cooling device according to claim 1, wherein the air outlet ends of the constant temperature fan (7) and the air cooler A (8) are respectively corresponding to the inside of the cooling cover (1), the positions of the top surface of the cooling cover (1) corresponding to the constant temperature fan (7) and the air cooler A (8) are respectively provided with a dust cover A (9) and a dust cover B (10) through reserved openings, and the dust cover A (9), the dust cover B (10) and the dust cover C (13) are made of stainless steel.
5. 5. The glassware forming and cooling device according to claim 1, wherein exhaust ends of the exhaust fans (14) are respectively corresponding to the cooling cover (1), a supporting frame (11) is mounted on the inner wall of the cooling cover (1) corresponding to the bottom of the exhaust fans (14) through bolts, an air cooler B (12) is mounted on the top of the inner side of the supporting frame (11) through bolts, an air outlet end of the air cooler B (12) is corresponding to the bottom of the mesh belt conveyor (2), and a dust cover C (13) is arranged on the bottom surface of the supporting frame (11) corresponding to the position of the air cooler B (12) through an opening.

Description

Glassware shaping cooling arrangement Technical Field The utility model relates to the technical field of glassware cooling and forming, in particular to glassware forming and cooling equipment. Background The molded glassware needs to be cooled to enhance its hardness and strength to relieve internal stresses and to improve its stability. The prior art is generally indistinguishable cooling treatment, so that the gradual cooling effect is not easy to achieve, and therefore, the glassware forming cooling equipment is provided for realizing partition type forming cooling, and the gradual cooling effect is achieved. Disclosure of utility model Aiming at the problems in the prior art, the utility model provides glassware forming and cooling equipment for realizing partition type forming and cooling, thereby achieving the gradual cooling effect. The technical scheme adopted by the utility model for solving the technical problems is that glassware forming cooling equipment comprises a cooling cover, a mesh belt conveyor, a trapezoid top and a dust cover C, wherein the cooling cover comprises a constant temperature area and a gradual cooling area, and a constant temperature fan is arranged at the top of the cooling cover corresponding to the constant temperature area through bolts; The cooling cover top corresponds and all installs air-cooler A through the bolt in every cold district position, cooling cover both sides surface all from left to right evenly through seting up the mouth and the air exhauster is installed to the bolt. By adopting the technical scheme, the glassware carried by the mesh belt conveyor is conveyed between the inner sides of the cooling covers; Preliminary constant-temperature blowing is carried out on the glassware through a constant-temperature fan with a constant-temperature area flat top, the temperature difference between the glassware and the glass ware is avoided to be large, and then the cooling effect is gradually improved through a cooling fan A with a trapezoid top with a gradual cooling area to be gradually close to the glass ware; Meanwhile, the air cooler B on the surface of the support frame is positioned at the bottom of the mesh belt conveyor to cool the glass in a blowing way so as to improve cooling uniformity, and the air cooler B is used for extracting heat in the cooling cover in real time and discharging the heat outwards so as to further improve cooling effect; Simultaneously, avoid the fan to blow foreign matter such as dust to glassware and influence its cleanliness through the wind regime through dust cover A, dust cover B and dust cover C. Specifically, the mesh belt conveyor penetrates between the cooling covers. By adopting the technical scheme, the glassware carried by the mesh belt conveyor is conveyed between the inner sides of the cooling covers. Specifically, the gradual cooling zone is positioned at one side of the constant temperature zone, the top of the constant temperature zone is a flat top, and the top of the gradual cooling zone is a trapezoid top. By adopting the technical scheme, the air cooler A on the trapezoidal top of the gradual cooling zone is gradually closer to the glassware, so that the gradual cooling effect improvement is realized. Specifically, constant temperature fan and air-cooler A air-out end all correspond in the cooling jacket, cooling jacket top surface corresponds constant temperature fan and air-cooler A position and is provided with dust cover A and dust cover B through reserving the mouth respectively, dust cover A, dust cover B and dust cover C are stainless steel. Through adopting above-mentioned technical scheme, utilize dust cover A, dust cover B and dust cover C to avoid the fan to blow foreign matter such as dust to glassware and influence its cleanliness through the wind regime. Specifically, in the air extraction end of the air extraction fan all corresponds the cooling cover, the cooling cover inner wall corresponds the air extraction fan bottom and installs the support frame through the bolt, air-cooler B is installed at the inboard top of support frame through the bolt, air-cooler B air-out end corresponds the guipure conveyer bottom, support frame bottom surface corresponds air-cooler B position and is provided with dust cover C through seting up the mouth. Through adopting above-mentioned technical scheme, utilize the exhaust fan to extract the heat of cooling cover in real time and outwards discharge to further promote the cooling effect. The utility model has the beneficial effects that: (1) According to the glassware forming and cooling equipment, preliminary constant-temperature blowing is carried out on glassware through the constant-temperature fan with the flat top in the constant-temperature area, the larger temperature difference between the glassware and the cooling fan is avoided, and the cooling fan A with the trapezoidal top in the gradual cooling area is gradually closer to the glassware, so tha