CN204356226U - A kind of tempering treatment unit producing Lid of glass pot annealing furnace - Google Patents

Abstract

The utility model provides a kind of technical scheme of multi-work-station tempering treatment unit of the annealing furnace for the production of Lid of glass pot, rotate tempering mechanism described in the program and comprise rotary bracket, described rotary bracket is provided with four circumferentially evenly distributed and pallets at grade, described rotation tempering organization establishes has access station, first tempering station, second tempering station and transfer station, described first tempering station and the second tempering station are respectively arranged with the blower mechanism blown shaping high temp glass, the rotary bracket that described transfer station is corresponding is provided with the rotating shaft that transfer station can be made to dock with cooling body, the bottom of the pallet that transfer station is corresponding is provided with knocks over mechanism.This multiple-station rotation tempering mechanism that the utility model adopts makes Lid of glass pot shaping tempering, can realize continuous full-automatic completely and produce, replace artificial tranfer system completely, reduce human cost, eliminate safe hidden trouble, improve the comfortableness of operative.

Description

A kind of tempering treatment unit producing Lid of glass pot annealing furnace

Technical field

The utility model relates to a kind of tempering treatment unit of the annealing furnace for the production of Lid of glass pot.

Background technology

At present, along with the day by day raising of standard of living, attractive in appearance, comfortable, the practicality of people to many daily necessitiess propose more requirements.Lid of glass pot is subject to liking of people because of its attractive in appearance, transparent, practical feature, is more and more applied in all kinds of kitchen tools pot cover.Simple glass because it is frangible, chilling can not be born, the feature of anxious heat, Lid of glass pot can not be directly used in, glass must be carried out tempering process, after glass tempering, intensity and resistance to rapid heat cycle ability are 3 ~ 5 times of simple glass, generally bearing the difference variation of more than 250 degree, having burst positive effect to preventing.And pot cover shape size is different, common glass tempering furnace cannot meet the tempering of pot cover glass, needs the shape by being pressed into needs after sheet glass thermoplastic with mould, then quenching tempering.

The mode mainly kerosene stove heating of current production pot cover glass, by multiple equal dies annular array, the sheet glass handled well is manually placed on mould, enter in turn in stove, certain temperature is heated to after glass deliquescing together with mould at glass in stove, dependence action of gravity is natural shaped, carries out tempering after coming out of the stove by manually transferring to quenching section.Prior art uses fuel Heating and need manual operation, therefore have energy consumption high, pollute large, features such as labour intensity is high, production efficiency is low, and need larger mould cost of investment, and during manual operation high temp glass, there is certain potential safety hazard.This is the weak point existing for prior art.

Summary of the invention

Technical problem to be solved in the utility model, is exactly for the deficiency existing for prior art, and provides a kind of technical scheme of tempering treatment unit of the annealing furnace for the production of Lid of glass pot.

This programme is achieved by the following technical measures: a kind of tempering treatment unit producing Lid of glass pot annealing furnace, comprise frame, for transmitting the transporting mechanism of shaping high temp glass, for carrying out the rotation tempering mechanism of tempering and the cooling body for cooling the glass after tempering to shaping high temp glass, described rotation tempering mechanism comprises rotary bracket, described rotary bracket is provided with four circumferentially evenly distributed and at grade pallet, described rotation tempering organization establishes has the access station docked with transporting mechanism, glass is carried out to the first tempering station of a tempering, the second tempering station that glass is carried out secondary tempering and the transfer station of being docked with cooling body, during normal work, described access station, first tempering station, second tempering station and transfer station are corresponding with the position of described four pallets respectively, described first tempering station and the second tempering station are respectively arranged with the blower mechanism blown shaping high temp glass, the rotary bracket that described transfer station is corresponding is provided with the rotating shaft that transfer station can be made to dock with cooling body, the bottom of the pallet that transfer station is corresponding is provided with knocks over mechanism.

Further improvement of the utility model also has, described blower mechanism comprises the first rotation tuyere being positioned at the first tempering station and the second rotation tuyere be positioned on the second tempering station, and described first rotation tuyere and second is rotated tuyere and is all communicated with high pressure positive blower by blower duct.

Further improvement of the utility model also has, described first rotates tuyere two, the symmetrical upper and lower being positioned at pallet corresponding to described first tempering station, described second rotates tuyere has two, the symmetrical upper and lower being positioned at pallet corresponding to described second tempering station.

Further improvement of the utility model also have, described first rotate tuyere and second rotate tuyere injection direction all with rotary bracket place plane being perpendicular.

Further improvement of the utility model also has, described in knock over mechanism be pneumatic cylinder, the cylinder body of pneumatic cylinder is fixed in frame, and the lower surface of the pallet that the cylinder bar of pneumatic cylinder is corresponding with transfer station is articulated and connected.

Further improvement of the utility model also has, and the material that described pallet adopts is steel.

The beneficial effect of this programme can be learnt according to describing of such scheme, owing to comprising frame in this scenario, for transmitting the transporting mechanism of shaping high temp glass, for carrying out the rotation tempering mechanism of tempering and the cooling body for cooling the glass after tempering to shaping high temp glass, described rotation tempering mechanism comprises rotary bracket, described rotary bracket is provided with four circumferentially evenly distributed and at grade pallet, be followed successively by the access pallet docked with transporting mechanism, first tempering pallet, second tempering pallet and the transfer tray docked with cooling body, during normal work, described access pallet is positioned at access station, described first tempering pallet is positioned at the first tempering station, described second tempering pallet is positioned at the second access station, described transfer tray is positioned at transfer station, glass is through difference the first tempering station and the second tempering station, twice tempering can be obtained, improve the effect of tempering, described first tempering station and the second tempering station are respectively arranged with the blower mechanism blown shaping high temp glass, described rotary bracket are provided with the rotating shaft that transfer tray can be made to dock with cooling body, and the bottom of transfer tray is provided with knocks over mechanism.This multiple-station rotation tempering mechanism that the utility model adopts makes Lid of glass pot shaping tempering, can realize continuous full-automatic completely and produce, replace artificial tranfer system completely, reduce human cost, eliminate safe hidden trouble, improve the comfortableness of operative.As can be seen here, the utility model compared with prior art, has substantive distinguishing features and progress, and its beneficial effect implemented also is apparent.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment.

Fig. 2 is the structural representation rotating tempering mechanism in the utility model.

In figure, 1 is transporting mechanism, and 2 is frame, and 3 is rotary bracket, and 4 for knocking over mechanism, and 5 is pallet, and 6 is the first rotation tuyere, and 7 is blower duct, and 8 is high pressure positive blower, and 9 is access station, and 10 is the first tempering station, and 11 is the second tempering station, and 12 is transfer station.

Embodiment

For the technical characterstic of this programme can be clearly demonstrated, below by an embodiment, and in conjunction with its accompanying drawing, this programme is set forth.

Can be found out by accompanying drawing, a kind of tempering treatment unit producing Lid of glass pot annealing furnace, comprise frame 2, for transmit shaping high temp glass transporting mechanism 1, for carrying out the rotation tempering mechanism of tempering and the cooling body for cooling the glass after tempering to shaping high temp glass.

Described rotation tempering mechanism comprises rotary bracket 3, described rotary bracket 3 is provided with four circumferentially evenly distributed and at grade pallet 5, described rotation tempering organization establishes has the access station 9 docked with transporting mechanism 1, glass is carried out to the first tempering station 10 of a tempering, the second tempering station 11 that glass is carried out secondary tempering and the transfer station 12 of being docked with cooling body, during normal work, described access station 9, first tempering station 10, second tempering station 11 and transfer station 12 are corresponding with the position of described four pallets respectively, two tempering stations are provided with during this use is novel, like this, glass can obtain twice tempering, improve the effect of tempering.

Described first tempering station 10 and the second tempering station 11 are respectively arranged with the blower mechanism blown shaping high temp glass, described blower mechanism comprises the first rotation tuyere 6 being positioned at the first tempering station 10 and the second rotation tuyere (not shown in FIG.) be positioned on the second tempering station 11, described first rotation tuyere 6 and second is rotated tuyere and is all communicated with high pressure positive blower 8 by blower duct 7, by the power blowing of the high pressure positive blower Final 8, glass is cooled, glass obtains tempering.Further, described first rotates tuyere 6 two, the symmetrical upper and lower being positioned at the pallet 5 of described first tempering station 10 correspondence, described second rotates tuyere two, the symmetrical upper and lower being positioned at the pallet 5 of described second tempering station 11 correspondence, can make the rapid Homogeneous cooling in the top and bottom of glass simultaneously.Further, described first rotate injection direction that tuyere 6 and second rotates tuyere all with rotary bracket 3 place plane being perpendicular, the i.e. wind direction of powerful wind and rotary bracket 3 place plane orthogonal, and then strengthen powerful wind to the cooling performance of glass and speed of cooling.

Glass after tempering needs to be transported in cooling body through pallet 5 to cool, thus on the rotary bracket 3 of described transfer station 12 correspondence, the rotating shaft that transfer station 12 can be made to dock with cooling body is provided with, pallet 5 is rotated around this rotating shaft, thus make glass landing in cooling body, concrete is that the bottom of the pallet 5 of transfer station 12 correspondence is provided with knocks over mechanism 4.The described mechanism 4 of knocking over is for pneumatic cylinder, and the cylinder body of pneumatic cylinder is fixed in frame 2, and the lower surface of the pallet 5 that the cylinder bar of pneumatic cylinder is corresponding with transfer station 12 is articulated and connected.The cylinder bar of pneumatic cylinder promotes pallet 5 and rotates along rotating shaft, thus achieves docking of pallet 5 and rotating mechanism.

The material that described rotary-tray 5 adopts is steel, and surface finish is high, and after can making glass ware forming, outer ring keeps smooth.

Working process of the present utility model is: the high temp glass through compression molding is transferred on corresponding pallet 5 through transporting mechanism 1, rotary bracket 3 is in the process rotated, glass is made first to enter the first tempering station 10, the upper and lower of the pallet 5 of the first tempering station 10 correspondence is evenly distributed rotation tuyere, by the strong blowing of high pressure positive blower 8, the top and bottom of glass are cooled rapidly simultaneously, glass obtains a tempering, rotary bracket 3 continues to rotate, and after a tempering, glass enters secondary steel chemical industry position and carries out secondary tempering; Rotary bracket 3 continues to rotate, and the glass after secondary tempering enters transfer station 12, and make glass be slipped in cooling body by knocking over mechanism 4, this pallet 5 idling carries and continues to rotate into next working cycle simultaneously.Adopt the tempering treatment unit of this multiple-station rotation to make Lid of glass pot shaping tempering, continuous full-automatic can be realized completely and produce, replace artificial tranfer system completely, reduce human cost, eliminate safe hidden trouble, improve the comfortableness of operative.

By reference to the accompanying drawings the embodiment of utility model is described although above-mentioned; but the restriction not to the utility model protection domain; one of ordinary skill in the art should be understood that; on the basis of the technical solution of the utility model, those skilled in the art do not need to pay various amendment or distortion that creative work can make still within protection domain of the present utility model.

Claims (6)

1. produce the tempering treatment unit of Lid of glass pot annealing furnace for one kind, comprise frame, for transmitting the transporting mechanism of shaping high temp glass, for carrying out the rotation tempering mechanism of tempering and the cooling body for cooling the glass after tempering to shaping high temp glass, it is characterized in that: described rotation tempering mechanism comprises rotary bracket, described rotary bracket is provided with four circumferentially evenly distributed and at grade pallet, described rotation tempering organization establishes has the access station docked with transporting mechanism, glass is carried out to the first tempering station of a tempering, the second tempering station that glass is carried out secondary tempering and the transfer station of being docked with cooling body, during normal work, described access station, first tempering station, second tempering station and transfer station are corresponding with the position of described four pallets respectively, described first tempering station and the second tempering station are respectively arranged with the blower mechanism blown shaping high temp glass, the rotary bracket that described transfer station is corresponding is provided with the rotating shaft that transfer station can be made to dock with cooling body, the bottom of the pallet that transfer station is corresponding is provided with knocks over mechanism.

2. the tempering treatment unit of production Lid of glass pot annealing furnace according to claim 1, it is characterized in that: described blower mechanism comprises the first rotation tuyere being positioned at the first tempering station and the second rotation tuyere be positioned on the second tempering station, and described first rotation tuyere and second is rotated tuyere and is all communicated with high pressure positive blower by blower duct.

3. the tempering treatment unit of production Lid of glass pot annealing furnace according to claim 2, it is characterized in that: described first rotates tuyere two, the symmetrical upper and lower being positioned at pallet corresponding to described first tempering station, described second rotates tuyere has two, the symmetrical upper and lower being positioned at pallet corresponding to described second tempering station.

4. the tempering treatment unit of the production Lid of glass pot annealing furnace according to Claims 2 or 3, is characterized in that: described first rotate tuyere and second rotate tuyere injection direction all with rotary bracket place plane being perpendicular.

5. the tempering treatment unit of production Lid of glass pot annealing furnace according to claim 1, it is characterized in that: described in knock over mechanism be pneumatic cylinder, the cylinder body of pneumatic cylinder is fixed in frame, and the lower surface of the pallet that the cylinder bar of pneumatic cylinder is corresponding with transfer station is articulated and connected.

6. the tempering treatment unit of production Lid of glass pot annealing furnace according to claim 1, is characterized in that: the material that described pallet adopts is steel.